diff --git a/File_Format_Library/File_Format_Library.csproj b/File_Format_Library/File_Format_Library.csproj index d3f4d350..267a54da 100644 --- a/File_Format_Library/File_Format_Library.csproj +++ b/File_Format_Library/File_Format_Library.csproj @@ -93,6 +93,9 @@ ..\Toolbox\Lib\LibHac.dll False + + ..\packages\Microsoft.Bcl.AsyncInterfaces.5.0.0\lib\net461\Microsoft.Bcl.AsyncInterfaces.dll + ..\Toolbox\Lib\NAudio.dll @@ -172,20 +175,26 @@ False - - .\System.Buffers.dll + + ..\packages\System.Buffers.4.5.1\lib\net461\System.Buffers.dll - - .\System.Memory.dll + + ..\packages\System.Memory.4.5.5\lib\net461\System.Memory.dll - - .\System.Runtime.CompilerServices.Unsafe.dll + + ..\packages\System.Numerics.Vectors.4.5.0\lib\net46\System.Numerics.Vectors.dll + + + ..\packages\System.Runtime.CompilerServices.Unsafe.6.0.0\lib\net461\System.Runtime.CompilerServices.Unsafe.dll + + ..\packages\System.Threading.Tasks.Extensions.4.5.4\lib\net461\System.Threading.Tasks.Extensions.dll + ..\packages\System.ValueTuple.4.5.0\lib\net461\System.ValueTuple.dll False @@ -210,6 +219,9 @@ ..\Toolbox\Lib\ZeldaLib.dll + + ..\packages\ZstdSharp.Port.0.7.2\lib\net461\ZstdSharp.dll + @@ -333,6 +345,7 @@ + diff --git a/File_Format_Library/app.config b/File_Format_Library/app.config index b3e5e6b4..c262c5fe 100644 --- a/File_Format_Library/app.config +++ b/File_Format_Library/app.config @@ -1,27 +1,27 @@ - + - - + + - - + + - - + + - - + + - - + + - + diff --git a/File_Format_Library/packages.config b/File_Format_Library/packages.config index 40f6789f..eed42f69 100644 --- a/File_Format_Library/packages.config +++ b/File_Format_Library/packages.config @@ -2,4 +2,11 @@ + + + + + + + \ No newline at end of file diff --git a/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/.signature.p7s b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/.signature.p7s new file mode 100644 index 00000000..211981ef Binary files /dev/null and b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/.signature.p7s differ diff --git a/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/Icon.png b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/Icon.png new file mode 100644 index 00000000..a0f1fdbf Binary files /dev/null and b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/Icon.png differ diff --git a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/LICENSE.TXT b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/LICENSE.TXT similarity index 100% rename from packages/System.Runtime.CompilerServices.Unsafe.4.5.2/LICENSE.TXT rename to packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/LICENSE.TXT diff --git a/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/Microsoft.Bcl.AsyncInterfaces.5.0.0.nupkg b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/Microsoft.Bcl.AsyncInterfaces.5.0.0.nupkg new file mode 100644 index 00000000..bd94486f Binary files /dev/null and b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/Microsoft.Bcl.AsyncInterfaces.5.0.0.nupkg differ diff --git a/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/THIRD-PARTY-NOTICES.TXT b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/THIRD-PARTY-NOTICES.TXT new file mode 100644 index 00000000..111dcf58 --- /dev/null +++ b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/THIRD-PARTY-NOTICES.TXT @@ -0,0 +1,884 @@ +.NET Runtime uses third-party libraries or other resources that may be +distributed under licenses different than the .NET Runtime software. + +In the event that we accidentally failed to list a required notice, please +bring it to our attention. 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Hauser +2018 January 20 + +The following applies to the whole of SoftFloat Release 3e as well as to +each source file individually. + +Copyright 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018 The Regents of the +University of California. All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, + this list of conditions, and the following disclaimer. + + 2. Redistributions in binary form must reproduce the above copyright + notice, this list of conditions, and the following disclaimer in the + documentation and/or other materials provided with the distribution. + + 3. 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IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. + +License notice for MessagePack-CSharp +------------------------------------- + +MessagePack for C# + +MIT License + +Copyright (c) 2017 Yoshifumi Kawai + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. 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IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. + +License notice for RapidJSON +---------------------------- + +Tencent is pleased to support the open source community by making RapidJSON available. + +Copyright (C) 2015 THL A29 Limited, a Tencent company, and Milo Yip. All rights reserved. + +Licensed under the MIT License (the "License"); you may not use this file except +in compliance with the License. You may obtain a copy of the License at + +http://opensource.org/licenses/MIT + +Unless required by applicable law or agreed to in writing, software distributed +under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR +CONDITIONS OF ANY KIND, either express or implied. See the License for the +specific language governing permissions and limitations under the License. + +License notice for DirectX Math Library +--------------------------------------- + +https://github.com/microsoft/DirectXMath/blob/master/LICENSE + + The MIT License (MIT) + +Copyright (c) 2011-2020 Microsoft Corp + +Permission is hereby granted, free of charge, to any person obtaining a copy of this +software and associated documentation files (the "Software"), to deal in the Software +without restriction, including without limitation the rights to use, copy, modify, +merge, publish, distribute, sublicense, and/or sell copies of the Software, and to +permit persons to whom the Software is furnished to do so, subject to the following +conditions: + +The above copyright notice and this permission notice shall be included in all copies +or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, +INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A +PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT +HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF +CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE +OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + +License notice for ldap4net +--------------------------- + +The MIT License (MIT) + +Copyright (c) 2018 Alexander Chermyanin + +Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + +License notice for vectorized sorting code +------------------------------------------ + +MIT License + +Copyright (c) 2020 Dan Shechter + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. + diff --git a/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/net461/Microsoft.Bcl.AsyncInterfaces.dll b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/net461/Microsoft.Bcl.AsyncInterfaces.dll new file mode 100644 index 00000000..abe9406c Binary files /dev/null and b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/net461/Microsoft.Bcl.AsyncInterfaces.dll differ diff --git a/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/net461/Microsoft.Bcl.AsyncInterfaces.xml b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/net461/Microsoft.Bcl.AsyncInterfaces.xml new file mode 100644 index 00000000..cb1744f6 --- /dev/null +++ b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/net461/Microsoft.Bcl.AsyncInterfaces.xml @@ -0,0 +1,223 @@ + + + + Microsoft.Bcl.AsyncInterfaces + + + + Provides the core logic for implementing a manual-reset or . + + + + + The callback to invoke when the operation completes if was called before the operation completed, + or if the operation completed before a callback was supplied, + or null if a callback hasn't yet been provided and the operation hasn't yet completed. + + + + State to pass to . + + + to flow to the callback, or null if no flowing is required. + + + + A "captured" or with which to invoke the callback, + or null if no special context is required. + + + + Whether the current operation has completed. + + + The result with which the operation succeeded, or the default value if it hasn't yet completed or failed. + + + The exception with which the operation failed, or null if it hasn't yet completed or completed successfully. + + + The current version of this value, used to help prevent misuse. + + + Gets or sets whether to force continuations to run asynchronously. + Continuations may run asynchronously if this is false, but they'll never run synchronously if this is true. + + + Resets to prepare for the next operation. + + + Completes with a successful result. + The result. + + + Complets with an error. + + + + Gets the operation version. + + + Gets the status of the operation. + Opaque value that was provided to the 's constructor. + + + Gets the result of the operation. + Opaque value that was provided to the 's constructor. + + + Schedules the continuation action for this operation. + The continuation to invoke when the operation has completed. + The state object to pass to when it's invoked. + Opaque value that was provided to the 's constructor. + The flags describing the behavior of the continuation. + + + Ensures that the specified token matches the current version. + The token supplied by . + + + Signals that the operation has completed. Invoked after the result or error has been set. + + + + Invokes the continuation with the appropriate captured context / scheduler. + This assumes that if is not null we're already + running within that . + + + + Provides a set of static methods for configuring -related behaviors on asynchronous enumerables and disposables. + + + Configures how awaits on the tasks returned from an async disposable will be performed. + The source async disposable. + Whether to capture and marshal back to the current context. + The configured async disposable. + + + Configures how awaits on the tasks returned from an async iteration will be performed. + The type of the objects being iterated. + The source enumerable being iterated. + Whether to capture and marshal back to the current context. + The configured enumerable. + + + Sets the to be passed to when iterating. + The type of the objects being iterated. + The source enumerable being iterated. + The to use. + The configured enumerable. + + + Represents a builder for asynchronous iterators. + + + Creates an instance of the struct. + The initialized instance. + + + Invokes on the state machine while guarding the . + The type of the state machine. + The state machine instance, passed by reference. + + + Schedules the state machine to proceed to the next action when the specified awaiter completes. + The type of the awaiter. + The type of the state machine. + The awaiter. + The state machine. + + + Schedules the state machine to proceed to the next action when the specified awaiter completes. + The type of the awaiter. + The type of the state machine. + The awaiter. + The state machine. + + + Marks iteration as being completed, whether successfully or otherwise. + + + Gets an object that may be used to uniquely identify this builder to the debugger. + + + Indicates whether a method is an asynchronous iterator. + + + Initializes a new instance of the class. + The type object for the underlying state machine type that's used to implement a state machine method. + + + Provides a type that can be used to configure how awaits on an are performed. + + + Provides an awaitable async enumerable that enables cancelable iteration and configured awaits. + + + Configures how awaits on the tasks returned from an async iteration will be performed. + Whether to capture and marshal back to the current context. + The configured enumerable. + This will replace any previous value set by for this iteration. + + + Sets the to be passed to when iterating. + The to use. + The configured enumerable. + This will replace any previous set by for this iteration. + + + Provides an awaitable async enumerator that enables cancelable iteration and configured awaits. + + + Advances the enumerator asynchronously to the next element of the collection. + + A that will complete with a result of true + if the enumerator was successfully advanced to the next element, or false if the enumerator has + passed the end of the collection. + + + + Gets the element in the collection at the current position of the enumerator. + + + + Performs application-defined tasks associated with freeing, releasing, or + resetting unmanaged resources asynchronously. + + + + Exposes an enumerator that provides asynchronous iteration over values of a specified type. + The type of values to enumerate. + + + Returns an enumerator that iterates asynchronously through the collection. + A that may be used to cancel the asynchronous iteration. + An enumerator that can be used to iterate asynchronously through the collection. + + + Supports a simple asynchronous iteration over a generic collection. + The type of objects to enumerate. + + + Advances the enumerator asynchronously to the next element of the collection. + + A that will complete with a result of true if the enumerator + was successfully advanced to the next element, or false if the enumerator has passed the end + of the collection. + + + + Gets the element in the collection at the current position of the enumerator. + + + Provides a mechanism for releasing unmanaged resources asynchronously. + + + + Performs application-defined tasks associated with freeing, releasing, or + resetting unmanaged resources asynchronously. + + + + diff --git a/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/netstandard2.0/Microsoft.Bcl.AsyncInterfaces.dll b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/netstandard2.0/Microsoft.Bcl.AsyncInterfaces.dll new file mode 100644 index 00000000..79fbfcc7 Binary files /dev/null and b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/netstandard2.0/Microsoft.Bcl.AsyncInterfaces.dll differ diff --git a/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/netstandard2.0/Microsoft.Bcl.AsyncInterfaces.xml b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/netstandard2.0/Microsoft.Bcl.AsyncInterfaces.xml new file mode 100644 index 00000000..cb1744f6 --- /dev/null +++ b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/netstandard2.0/Microsoft.Bcl.AsyncInterfaces.xml @@ -0,0 +1,223 @@ + + + + Microsoft.Bcl.AsyncInterfaces + + + + Provides the core logic for implementing a manual-reset or . + + + + + The callback to invoke when the operation completes if was called before the operation completed, + or if the operation completed before a callback was supplied, + or null if a callback hasn't yet been provided and the operation hasn't yet completed. + + + + State to pass to . + + + to flow to the callback, or null if no flowing is required. + + + + A "captured" or with which to invoke the callback, + or null if no special context is required. + + + + Whether the current operation has completed. + + + The result with which the operation succeeded, or the default value if it hasn't yet completed or failed. + + + The exception with which the operation failed, or null if it hasn't yet completed or completed successfully. + + + The current version of this value, used to help prevent misuse. + + + Gets or sets whether to force continuations to run asynchronously. + Continuations may run asynchronously if this is false, but they'll never run synchronously if this is true. + + + Resets to prepare for the next operation. + + + Completes with a successful result. + The result. + + + Complets with an error. + + + + Gets the operation version. + + + Gets the status of the operation. + Opaque value that was provided to the 's constructor. + + + Gets the result of the operation. + Opaque value that was provided to the 's constructor. + + + Schedules the continuation action for this operation. + The continuation to invoke when the operation has completed. + The state object to pass to when it's invoked. + Opaque value that was provided to the 's constructor. + The flags describing the behavior of the continuation. + + + Ensures that the specified token matches the current version. + The token supplied by . + + + Signals that the operation has completed. Invoked after the result or error has been set. + + + + Invokes the continuation with the appropriate captured context / scheduler. + This assumes that if is not null we're already + running within that . + + + + Provides a set of static methods for configuring -related behaviors on asynchronous enumerables and disposables. + + + Configures how awaits on the tasks returned from an async disposable will be performed. + The source async disposable. + Whether to capture and marshal back to the current context. + The configured async disposable. + + + Configures how awaits on the tasks returned from an async iteration will be performed. + The type of the objects being iterated. + The source enumerable being iterated. + Whether to capture and marshal back to the current context. + The configured enumerable. + + + Sets the to be passed to when iterating. + The type of the objects being iterated. + The source enumerable being iterated. + The to use. + The configured enumerable. + + + Represents a builder for asynchronous iterators. + + + Creates an instance of the struct. + The initialized instance. + + + Invokes on the state machine while guarding the . + The type of the state machine. + The state machine instance, passed by reference. + + + Schedules the state machine to proceed to the next action when the specified awaiter completes. + The type of the awaiter. + The type of the state machine. + The awaiter. + The state machine. + + + Schedules the state machine to proceed to the next action when the specified awaiter completes. + The type of the awaiter. + The type of the state machine. + The awaiter. + The state machine. + + + Marks iteration as being completed, whether successfully or otherwise. + + + Gets an object that may be used to uniquely identify this builder to the debugger. + + + Indicates whether a method is an asynchronous iterator. + + + Initializes a new instance of the class. + The type object for the underlying state machine type that's used to implement a state machine method. + + + Provides a type that can be used to configure how awaits on an are performed. + + + Provides an awaitable async enumerable that enables cancelable iteration and configured awaits. + + + Configures how awaits on the tasks returned from an async iteration will be performed. + Whether to capture and marshal back to the current context. + The configured enumerable. + This will replace any previous value set by for this iteration. + + + Sets the to be passed to when iterating. + The to use. + The configured enumerable. + This will replace any previous set by for this iteration. + + + Provides an awaitable async enumerator that enables cancelable iteration and configured awaits. + + + Advances the enumerator asynchronously to the next element of the collection. + + A that will complete with a result of true + if the enumerator was successfully advanced to the next element, or false if the enumerator has + passed the end of the collection. + + + + Gets the element in the collection at the current position of the enumerator. + + + + Performs application-defined tasks associated with freeing, releasing, or + resetting unmanaged resources asynchronously. + + + + Exposes an enumerator that provides asynchronous iteration over values of a specified type. + The type of values to enumerate. + + + Returns an enumerator that iterates asynchronously through the collection. + A that may be used to cancel the asynchronous iteration. + An enumerator that can be used to iterate asynchronously through the collection. + + + Supports a simple asynchronous iteration over a generic collection. + The type of objects to enumerate. + + + Advances the enumerator asynchronously to the next element of the collection. + + A that will complete with a result of true if the enumerator + was successfully advanced to the next element, or false if the enumerator has passed the end + of the collection. + + + + Gets the element in the collection at the current position of the enumerator. + + + Provides a mechanism for releasing unmanaged resources asynchronously. + + + + Performs application-defined tasks associated with freeing, releasing, or + resetting unmanaged resources asynchronously. + + + + diff --git a/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/netstandard2.1/Microsoft.Bcl.AsyncInterfaces.dll b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/netstandard2.1/Microsoft.Bcl.AsyncInterfaces.dll new file mode 100644 index 00000000..be25bdb6 Binary files /dev/null and b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/netstandard2.1/Microsoft.Bcl.AsyncInterfaces.dll differ diff --git a/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/netstandard2.1/Microsoft.Bcl.AsyncInterfaces.xml b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/netstandard2.1/Microsoft.Bcl.AsyncInterfaces.xml new file mode 100644 index 00000000..5fd48a2f --- /dev/null +++ b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/lib/netstandard2.1/Microsoft.Bcl.AsyncInterfaces.xml @@ -0,0 +1,8 @@ + + + + Microsoft.Bcl.AsyncInterfaces + + + + diff --git a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/useSharedDesignerContext.txt b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/useSharedDesignerContext.txt similarity index 100% rename from packages/System.Runtime.CompilerServices.Unsafe.4.5.2/useSharedDesignerContext.txt rename to packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/useSharedDesignerContext.txt diff --git a/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/version.txt b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/version.txt new file mode 100644 index 00000000..0a6d216f --- /dev/null +++ b/packages/Microsoft.Bcl.AsyncInterfaces.5.0.0/version.txt @@ -0,0 +1 @@ +cf258a14b70ad9069470a108f13765e0e5988f51 diff --git a/packages/System.Buffers.4.5.1/.signature.p7s b/packages/System.Buffers.4.5.1/.signature.p7s new file mode 100644 index 00000000..1bf2285c Binary files /dev/null and b/packages/System.Buffers.4.5.1/.signature.p7s differ diff --git a/packages/System.Buffers.4.5.1/LICENSE.TXT b/packages/System.Buffers.4.5.1/LICENSE.TXT new file mode 100644 index 00000000..984713a4 --- /dev/null +++ b/packages/System.Buffers.4.5.1/LICENSE.TXT @@ -0,0 +1,23 @@ +The MIT License (MIT) + +Copyright (c) .NET Foundation and Contributors + +All rights reserved. + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. diff --git a/packages/System.Buffers.4.5.1/System.Buffers.4.5.1.nupkg b/packages/System.Buffers.4.5.1/System.Buffers.4.5.1.nupkg new file mode 100644 index 00000000..f7ee6b2d Binary files /dev/null and b/packages/System.Buffers.4.5.1/System.Buffers.4.5.1.nupkg differ diff --git a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/THIRD-PARTY-NOTICES.TXT b/packages/System.Buffers.4.5.1/THIRD-PARTY-NOTICES.TXT similarity index 100% rename from packages/System.Runtime.CompilerServices.Unsafe.4.5.2/THIRD-PARTY-NOTICES.TXT rename to packages/System.Buffers.4.5.1/THIRD-PARTY-NOTICES.TXT diff --git a/packages/System.Buffers.4.5.1/lib/net461/System.Buffers.dll b/packages/System.Buffers.4.5.1/lib/net461/System.Buffers.dll new file mode 100644 index 00000000..f2d83c51 Binary files /dev/null and b/packages/System.Buffers.4.5.1/lib/net461/System.Buffers.dll differ diff --git a/packages/System.Buffers.4.5.1/lib/net461/System.Buffers.xml b/packages/System.Buffers.4.5.1/lib/net461/System.Buffers.xml new file mode 100644 index 00000000..e243dcef --- /dev/null +++ b/packages/System.Buffers.4.5.1/lib/net461/System.Buffers.xml @@ -0,0 +1,38 @@ + + + System.Buffers + + + + Provides a resource pool that enables reusing instances of type . + The type of the objects that are in the resource pool. + + + Initializes a new instance of the class. + + + Creates a new instance of the class. + A new instance of the class. + + + Creates a new instance of the class using the specifed configuration. + The maximum length of an array instance that may be stored in the pool. + The maximum number of array instances that may be stored in each bucket in the pool. The pool groups arrays of similar lengths into buckets for faster access. + A new instance of the class with the specified configuration. + + + Retrieves a buffer that is at least the requested length. + The minimum length of the array. + An array of type that is at least minimumLength in length. + + + Returns an array to the pool that was previously obtained using the method on the same instance. + A buffer to return to the pool that was previously obtained using the method. + Indicates whether the contents of the buffer should be cleared before reuse. If clearArray is set to true, and if the pool will store the buffer to enable subsequent reuse, the method will clear the array of its contents so that a subsequent caller using the method will not see the content of the previous caller. If clearArray is set to false or if the pool will release the buffer, the array's contents are left unchanged. + + + Gets a shared instance. + A shared instance. + + + \ No newline at end of file diff --git a/packages/System.Buffers.4.5.1/lib/netcoreapp2.0/_._ b/packages/System.Buffers.4.5.1/lib/netcoreapp2.0/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Buffers.4.5.1/lib/netstandard1.1/System.Buffers.dll b/packages/System.Buffers.4.5.1/lib/netstandard1.1/System.Buffers.dll new file mode 100644 index 00000000..14e5c532 Binary files /dev/null and b/packages/System.Buffers.4.5.1/lib/netstandard1.1/System.Buffers.dll differ diff --git a/packages/System.Buffers.4.5.1/lib/netstandard1.1/System.Buffers.xml b/packages/System.Buffers.4.5.1/lib/netstandard1.1/System.Buffers.xml new file mode 100644 index 00000000..e243dcef --- /dev/null +++ b/packages/System.Buffers.4.5.1/lib/netstandard1.1/System.Buffers.xml @@ -0,0 +1,38 @@ + + + System.Buffers + + + + Provides a resource pool that enables reusing instances of type . + The type of the objects that are in the resource pool. + + + Initializes a new instance of the class. + + + Creates a new instance of the class. + A new instance of the class. + + + Creates a new instance of the class using the specifed configuration. + The maximum length of an array instance that may be stored in the pool. + The maximum number of array instances that may be stored in each bucket in the pool. The pool groups arrays of similar lengths into buckets for faster access. + A new instance of the class with the specified configuration. + + + Retrieves a buffer that is at least the requested length. + The minimum length of the array. + An array of type that is at least minimumLength in length. + + + Returns an array to the pool that was previously obtained using the method on the same instance. + A buffer to return to the pool that was previously obtained using the method. + Indicates whether the contents of the buffer should be cleared before reuse. If clearArray is set to true, and if the pool will store the buffer to enable subsequent reuse, the method will clear the array of its contents so that a subsequent caller using the method will not see the content of the previous caller. If clearArray is set to false or if the pool will release the buffer, the array's contents are left unchanged. + + + Gets a shared instance. + A shared instance. + + + \ No newline at end of file diff --git a/packages/System.Buffers.4.5.1/lib/netstandard2.0/System.Buffers.dll b/packages/System.Buffers.4.5.1/lib/netstandard2.0/System.Buffers.dll new file mode 100644 index 00000000..c0970c07 Binary files /dev/null and b/packages/System.Buffers.4.5.1/lib/netstandard2.0/System.Buffers.dll differ diff --git a/packages/System.Buffers.4.5.1/lib/netstandard2.0/System.Buffers.xml b/packages/System.Buffers.4.5.1/lib/netstandard2.0/System.Buffers.xml new file mode 100644 index 00000000..e243dcef --- /dev/null +++ b/packages/System.Buffers.4.5.1/lib/netstandard2.0/System.Buffers.xml @@ -0,0 +1,38 @@ + + + System.Buffers + + + + Provides a resource pool that enables reusing instances of type . + The type of the objects that are in the resource pool. + + + Initializes a new instance of the class. + + + Creates a new instance of the class. + A new instance of the class. + + + Creates a new instance of the class using the specifed configuration. + The maximum length of an array instance that may be stored in the pool. + The maximum number of array instances that may be stored in each bucket in the pool. The pool groups arrays of similar lengths into buckets for faster access. + A new instance of the class with the specified configuration. + + + Retrieves a buffer that is at least the requested length. + The minimum length of the array. + An array of type that is at least minimumLength in length. + + + Returns an array to the pool that was previously obtained using the method on the same instance. + A buffer to return to the pool that was previously obtained using the method. + Indicates whether the contents of the buffer should be cleared before reuse. If clearArray is set to true, and if the pool will store the buffer to enable subsequent reuse, the method will clear the array of its contents so that a subsequent caller using the method will not see the content of the previous caller. If clearArray is set to false or if the pool will release the buffer, the array's contents are left unchanged. + + + Gets a shared instance. + A shared instance. + + + \ No newline at end of file diff --git a/packages/System.Buffers.4.5.1/lib/uap10.0.16299/_._ b/packages/System.Buffers.4.5.1/lib/uap10.0.16299/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Buffers.4.5.1/ref/net45/System.Buffers.dll b/packages/System.Buffers.4.5.1/ref/net45/System.Buffers.dll new file mode 100644 index 00000000..022667e8 Binary files /dev/null and b/packages/System.Buffers.4.5.1/ref/net45/System.Buffers.dll differ diff --git a/packages/System.Buffers.4.5.1/ref/net45/System.Buffers.xml b/packages/System.Buffers.4.5.1/ref/net45/System.Buffers.xml new file mode 100644 index 00000000..e243dcef --- /dev/null +++ b/packages/System.Buffers.4.5.1/ref/net45/System.Buffers.xml @@ -0,0 +1,38 @@ + + + System.Buffers + + + + Provides a resource pool that enables reusing instances of type . + The type of the objects that are in the resource pool. + + + Initializes a new instance of the class. + + + Creates a new instance of the class. + A new instance of the class. + + + Creates a new instance of the class using the specifed configuration. + The maximum length of an array instance that may be stored in the pool. + The maximum number of array instances that may be stored in each bucket in the pool. The pool groups arrays of similar lengths into buckets for faster access. + A new instance of the class with the specified configuration. + + + Retrieves a buffer that is at least the requested length. + The minimum length of the array. + An array of type that is at least minimumLength in length. + + + Returns an array to the pool that was previously obtained using the method on the same instance. + A buffer to return to the pool that was previously obtained using the method. + Indicates whether the contents of the buffer should be cleared before reuse. If clearArray is set to true, and if the pool will store the buffer to enable subsequent reuse, the method will clear the array of its contents so that a subsequent caller using the method will not see the content of the previous caller. If clearArray is set to false or if the pool will release the buffer, the array's contents are left unchanged. + + + Gets a shared instance. + A shared instance. + + + \ No newline at end of file diff --git a/packages/System.Buffers.4.5.1/ref/netcoreapp2.0/_._ b/packages/System.Buffers.4.5.1/ref/netcoreapp2.0/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Buffers.4.5.1/ref/netstandard1.1/System.Buffers.dll b/packages/System.Buffers.4.5.1/ref/netstandard1.1/System.Buffers.dll new file mode 100644 index 00000000..9daa0566 Binary files /dev/null and b/packages/System.Buffers.4.5.1/ref/netstandard1.1/System.Buffers.dll differ diff --git a/packages/System.Buffers.4.5.1/ref/netstandard1.1/System.Buffers.xml b/packages/System.Buffers.4.5.1/ref/netstandard1.1/System.Buffers.xml new file mode 100644 index 00000000..e243dcef --- /dev/null +++ b/packages/System.Buffers.4.5.1/ref/netstandard1.1/System.Buffers.xml @@ -0,0 +1,38 @@ + + + System.Buffers + + + + Provides a resource pool that enables reusing instances of type . + The type of the objects that are in the resource pool. + + + Initializes a new instance of the class. + + + Creates a new instance of the class. + A new instance of the class. + + + Creates a new instance of the class using the specifed configuration. + The maximum length of an array instance that may be stored in the pool. + The maximum number of array instances that may be stored in each bucket in the pool. The pool groups arrays of similar lengths into buckets for faster access. + A new instance of the class with the specified configuration. + + + Retrieves a buffer that is at least the requested length. + The minimum length of the array. + An array of type that is at least minimumLength in length. + + + Returns an array to the pool that was previously obtained using the method on the same instance. + A buffer to return to the pool that was previously obtained using the method. + Indicates whether the contents of the buffer should be cleared before reuse. If clearArray is set to true, and if the pool will store the buffer to enable subsequent reuse, the method will clear the array of its contents so that a subsequent caller using the method will not see the content of the previous caller. If clearArray is set to false or if the pool will release the buffer, the array's contents are left unchanged. + + + Gets a shared instance. + A shared instance. + + + \ No newline at end of file diff --git a/packages/System.Buffers.4.5.1/ref/netstandard2.0/System.Buffers.dll b/packages/System.Buffers.4.5.1/ref/netstandard2.0/System.Buffers.dll new file mode 100644 index 00000000..a294e52d Binary files /dev/null and b/packages/System.Buffers.4.5.1/ref/netstandard2.0/System.Buffers.dll differ diff --git a/packages/System.Buffers.4.5.1/ref/netstandard2.0/System.Buffers.xml b/packages/System.Buffers.4.5.1/ref/netstandard2.0/System.Buffers.xml new file mode 100644 index 00000000..e243dcef --- /dev/null +++ b/packages/System.Buffers.4.5.1/ref/netstandard2.0/System.Buffers.xml @@ -0,0 +1,38 @@ + + + System.Buffers + + + + Provides a resource pool that enables reusing instances of type . + The type of the objects that are in the resource pool. + + + Initializes a new instance of the class. + + + Creates a new instance of the class. + A new instance of the class. + + + Creates a new instance of the class using the specifed configuration. + The maximum length of an array instance that may be stored in the pool. + The maximum number of array instances that may be stored in each bucket in the pool. The pool groups arrays of similar lengths into buckets for faster access. + A new instance of the class with the specified configuration. + + + Retrieves a buffer that is at least the requested length. + The minimum length of the array. + An array of type that is at least minimumLength in length. + + + Returns an array to the pool that was previously obtained using the method on the same instance. + A buffer to return to the pool that was previously obtained using the method. + Indicates whether the contents of the buffer should be cleared before reuse. If clearArray is set to true, and if the pool will store the buffer to enable subsequent reuse, the method will clear the array of its contents so that a subsequent caller using the method will not see the content of the previous caller. If clearArray is set to false or if the pool will release the buffer, the array's contents are left unchanged. + + + Gets a shared instance. + A shared instance. + + + \ No newline at end of file diff --git a/packages/System.Buffers.4.5.1/ref/uap10.0.16299/_._ b/packages/System.Buffers.4.5.1/ref/uap10.0.16299/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Buffers.4.5.1/useSharedDesignerContext.txt b/packages/System.Buffers.4.5.1/useSharedDesignerContext.txt new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Buffers.4.5.1/version.txt b/packages/System.Buffers.4.5.1/version.txt new file mode 100644 index 00000000..8d6cdd69 --- /dev/null +++ b/packages/System.Buffers.4.5.1/version.txt @@ -0,0 +1 @@ +7601f4f6225089ffb291dc7d58293c7bbf5c5d4f diff --git a/packages/System.Memory.4.5.5/.signature.p7s b/packages/System.Memory.4.5.5/.signature.p7s new file mode 100644 index 00000000..40dcb3eb Binary files /dev/null and b/packages/System.Memory.4.5.5/.signature.p7s differ diff --git a/packages/System.Memory.4.5.5/LICENSE.TXT b/packages/System.Memory.4.5.5/LICENSE.TXT new file mode 100644 index 00000000..984713a4 --- /dev/null +++ b/packages/System.Memory.4.5.5/LICENSE.TXT @@ -0,0 +1,23 @@ +The MIT License (MIT) + +Copyright (c) .NET Foundation and Contributors + +All rights reserved. + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. diff --git a/packages/System.Memory.4.5.5/System.Memory.4.5.5.nupkg b/packages/System.Memory.4.5.5/System.Memory.4.5.5.nupkg new file mode 100644 index 00000000..9d654e20 Binary files /dev/null and b/packages/System.Memory.4.5.5/System.Memory.4.5.5.nupkg differ diff --git a/packages/System.Memory.4.5.5/THIRD-PARTY-NOTICES.TXT b/packages/System.Memory.4.5.5/THIRD-PARTY-NOTICES.TXT new file mode 100644 index 00000000..db542ca2 --- /dev/null +++ b/packages/System.Memory.4.5.5/THIRD-PARTY-NOTICES.TXT @@ -0,0 +1,309 @@ +.NET Core uses third-party libraries or other resources that may be +distributed under licenses different than the .NET Core software. + +In the event that we accidentally failed to list a required notice, please +bring it to our attention. Post an issue or email us: + + dotnet@microsoft.com + +The attached notices are provided for information only. + +License notice for Slicing-by-8 +------------------------------- + +http://sourceforge.net/projects/slicing-by-8/ + +Copyright (c) 2004-2006 Intel Corporation - All Rights Reserved + + +This software program is licensed subject to the BSD License, available at +http://www.opensource.org/licenses/bsd-license.html. + + +License notice for Unicode data +------------------------------- + +http://www.unicode.org/copyright.html#License + +Copyright © 1991-2017 Unicode, Inc. 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IN NO EVENT SHALL THE COPYRIGHT +OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +decode_fuzzer.c: +Copyright (c) 2015 The Chromium Authors. All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are +met: + + * Redistributions of source code must retain the above copyright +notice, this list of conditions and the following disclaimer. + * Redistributions in binary form must reproduce the above +copyright notice, this list of conditions and the following disclaimer +in the documentation and/or other materials provided with the +distribution. + * Neither the name of Google Inc. nor the names of its +contributors may be used to endorse or promote products derived from +this software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +""AS IS"" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE." + diff --git a/packages/System.Memory.4.5.5/lib/net461/System.Memory.dll b/packages/System.Memory.4.5.5/lib/net461/System.Memory.dll new file mode 100644 index 00000000..46171997 Binary files /dev/null and b/packages/System.Memory.4.5.5/lib/net461/System.Memory.dll differ diff --git a/packages/System.Memory.4.5.5/lib/net461/System.Memory.xml b/packages/System.Memory.4.5.5/lib/net461/System.Memory.xml new file mode 100644 index 00000000..4d12fd71 --- /dev/null +++ b/packages/System.Memory.4.5.5/lib/net461/System.Memory.xml @@ -0,0 +1,355 @@ + + + System.Memory + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + \ No newline at end of file diff --git a/packages/System.Memory.4.5.5/lib/netcoreapp2.1/_._ b/packages/System.Memory.4.5.5/lib/netcoreapp2.1/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Memory.4.5.5/lib/netstandard1.1/System.Memory.dll b/packages/System.Memory.4.5.5/lib/netstandard1.1/System.Memory.dll new file mode 100644 index 00000000..31486d69 Binary files /dev/null and b/packages/System.Memory.4.5.5/lib/netstandard1.1/System.Memory.dll differ diff --git a/packages/System.Memory.4.5.5/lib/netstandard1.1/System.Memory.xml b/packages/System.Memory.4.5.5/lib/netstandard1.1/System.Memory.xml new file mode 100644 index 00000000..4d12fd71 --- /dev/null +++ b/packages/System.Memory.4.5.5/lib/netstandard1.1/System.Memory.xml @@ -0,0 +1,355 @@ + + + System.Memory + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + 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+ + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + \ No newline at end of file diff --git a/packages/System.Memory.4.5.5/ref/netcoreapp2.1/_._ b/packages/System.Memory.4.5.5/ref/netcoreapp2.1/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Memory.4.5.5/useSharedDesignerContext.txt b/packages/System.Memory.4.5.5/useSharedDesignerContext.txt new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Memory.4.5.5/version.txt b/packages/System.Memory.4.5.5/version.txt new file mode 100644 index 00000000..b46e4770 --- /dev/null +++ b/packages/System.Memory.4.5.5/version.txt @@ -0,0 +1 @@ +32b491939fbd125f304031c35038b1e14b4e3958 diff --git a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/.signature.p7s b/packages/System.Numerics.Vectors.4.5.0/.signature.p7s similarity index 77% rename from packages/System.Runtime.CompilerServices.Unsafe.4.5.2/.signature.p7s rename to packages/System.Numerics.Vectors.4.5.0/.signature.p7s index a7fbb734..a945f63e 100644 Binary files a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/.signature.p7s and b/packages/System.Numerics.Vectors.4.5.0/.signature.p7s differ diff --git a/packages/System.Numerics.Vectors.4.5.0/LICENSE.TXT b/packages/System.Numerics.Vectors.4.5.0/LICENSE.TXT new file mode 100644 index 00000000..984713a4 --- /dev/null +++ b/packages/System.Numerics.Vectors.4.5.0/LICENSE.TXT @@ -0,0 +1,23 @@ +The MIT License (MIT) + +Copyright (c) .NET Foundation and Contributors + +All rights reserved. + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. diff --git a/packages/System.Numerics.Vectors.4.5.0/System.Numerics.Vectors.4.5.0.nupkg b/packages/System.Numerics.Vectors.4.5.0/System.Numerics.Vectors.4.5.0.nupkg new file mode 100644 index 00000000..0ef46373 Binary files /dev/null and b/packages/System.Numerics.Vectors.4.5.0/System.Numerics.Vectors.4.5.0.nupkg differ diff --git a/packages/System.Numerics.Vectors.4.5.0/THIRD-PARTY-NOTICES.TXT b/packages/System.Numerics.Vectors.4.5.0/THIRD-PARTY-NOTICES.TXT new file mode 100644 index 00000000..db542ca2 --- /dev/null +++ b/packages/System.Numerics.Vectors.4.5.0/THIRD-PARTY-NOTICES.TXT @@ -0,0 +1,309 @@ +.NET Core uses third-party libraries or other resources that may be +distributed under licenses different than the .NET Core software. + +In the event that we accidentally failed to list a required notice, please +bring it to our attention. Post an issue or email us: + + dotnet@microsoft.com + +The attached notices are provided for information only. + +License notice for Slicing-by-8 +------------------------------- + +http://sourceforge.net/projects/slicing-by-8/ + +Copyright (c) 2004-2006 Intel Corporation - All Rights Reserved + + +This software program is licensed subject to the BSD License, available at +http://www.opensource.org/licenses/bsd-license.html. + + +License notice for Unicode data +------------------------------- + +http://www.unicode.org/copyright.html#License + +Copyright © 1991-2017 Unicode, Inc. All rights reserved. +Distributed under the Terms of Use in http://www.unicode.org/copyright.html. + +Permission is hereby granted, free of charge, to any person obtaining +a copy of the Unicode data files and any associated documentation +(the "Data Files") or Unicode software and any associated documentation +(the "Software") to deal in the Data Files or Software +without restriction, including without limitation the rights to use, +copy, modify, merge, publish, distribute, and/or sell copies of +the Data Files or Software, and to permit persons to whom the Data Files +or Software are furnished to do so, provided that either +(a) this copyright and permission notice appear with all copies +of the Data Files or Software, or +(b) this copyright and permission notice appear in associated +Documentation. + +THE DATA FILES AND SOFTWARE ARE PROVIDED "AS IS", WITHOUT WARRANTY OF +ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE +WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +NONINFRINGEMENT OF THIRD PARTY RIGHTS. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR HOLDERS INCLUDED IN THIS +NOTICE BE LIABLE FOR ANY CLAIM, OR ANY SPECIAL INDIRECT OR CONSEQUENTIAL +DAMAGES, OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, +DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER +TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +PERFORMANCE OF THE DATA FILES OR SOFTWARE. + +Except as contained in this notice, the name of a copyright holder +shall not be used in advertising or otherwise to promote the sale, +use or other dealings in these Data Files or Software without prior +written authorization of the copyright holder. + +License notice for Zlib +----------------------- + +https://github.com/madler/zlib +http://zlib.net/zlib_license.html + +/* zlib.h -- interface of the 'zlib' general purpose compression library + version 1.2.11, January 15th, 2017 + + Copyright (C) 1995-2017 Jean-loup Gailly and Mark Adler + + This software is provided 'as-is', without any express or implied + warranty. 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This notice may not be removed or altered from any source distribution. + + Jean-loup Gailly Mark Adler + jloup@gzip.org madler@alumni.caltech.edu + +*/ + +License notice for Mono +------------------------------- + +http://www.mono-project.com/docs/about-mono/ + +Copyright (c) .NET Foundation Contributors + +MIT License + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the Software), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF +MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +NONINFRINGEMENT. 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Redistributions of source code must retain the above copyright notice, this +list of conditions and the following disclaimer. + +2. Redistributions in binary form must reproduce the above copyright notice, +this list of conditions and the following disclaimer in the documentation +and/or other materials provided with the distribution. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE +IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE +DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE +FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL +DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR +SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER +CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, +OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +License notice for Xamarin and Novell +------------------------------------- + +Copyright (c) 2015 Xamarin, Inc (http://www.xamarin.com) + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in +all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN +THE SOFTWARE. + +Copyright (c) 2011 Novell, Inc (http://www.novell.com) + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in +all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. 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If none exist, the W3C Software and Document Short Notice should be included. +Notice of any changes or modifications, through a copyright statement on the new code or document such as "This software or document includes material copied from or derived from [title and URI of the W3C document]. Copyright © [YEAR] W3C® (MIT, ERCIM, Keio, Beihang)." +Disclaimers +THIS WORK IS PROVIDED "AS IS," AND COPYRIGHT HOLDERS MAKE NO REPRESENTATIONS OR WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO, WARRANTIES OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE OR THAT THE USE OF THE SOFTWARE OR DOCUMENT WILL NOT INFRINGE ANY THIRD PARTY PATENTS, COPYRIGHTS, TRADEMARKS OR OTHER RIGHTS. +COPYRIGHT HOLDERS WILL NOT BE LIABLE FOR ANY DIRECT, INDIRECT, SPECIAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF ANY USE OF THE SOFTWARE OR DOCUMENT. +The name and trademarks of copyright holders may NOT be used in advertising or publicity pertaining to the work without specific, written prior permission. Title to copyright in this work will at all times remain with copyright holders." + +License notice for Bit Twiddling Hacks +-------------------------------------- + +Bit Twiddling Hacks + +By Sean Eron Anderson +seander@cs.stanford.edu + +Individually, the code snippets here are in the public domain (unless otherwise +noted) — feel free to use them however you please. The aggregate collection and +descriptions are © 1997-2005 Sean Eron Anderson. The code and descriptions are +distributed in the hope that they will be useful, but WITHOUT ANY WARRANTY and +without even the implied warranty of merchantability or fitness for a particular +purpose. + +License notice for Brotli +-------------------------------------- + +Copyright (c) 2009, 2010, 2013-2016 by the Brotli Authors. + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in +all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN +THE SOFTWARE. + +compress_fragment.c: +Copyright (c) 2011, Google Inc. +All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are +met: + + * Redistributions of source code must retain the above copyright +notice, this list of conditions and the following disclaimer. + * Redistributions in binary form must reproduce the above +copyright notice, this list of conditions and the following disclaimer +in the documentation and/or other materials provided with the +distribution. + * Neither the name of Google Inc. nor the names of its +contributors may be used to endorse or promote products derived from +this software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +""AS IS"" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +decode_fuzzer.c: +Copyright (c) 2015 The Chromium Authors. All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are +met: + + * Redistributions of source code must retain the above copyright +notice, this list of conditions and the following disclaimer. + * Redistributions in binary form must reproduce the above +copyright notice, this list of conditions and the following disclaimer +in the documentation and/or other materials provided with the +distribution. + * Neither the name of Google Inc. nor the names of its +contributors may be used to endorse or promote products derived from +this software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +""AS IS"" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE." + diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/MonoAndroid10/_._ b/packages/System.Numerics.Vectors.4.5.0/lib/MonoAndroid10/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/MonoTouch10/_._ b/packages/System.Numerics.Vectors.4.5.0/lib/MonoTouch10/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/net46/System.Numerics.Vectors.dll b/packages/System.Numerics.Vectors.4.5.0/lib/net46/System.Numerics.Vectors.dll new file mode 100644 index 00000000..08659724 Binary files /dev/null and b/packages/System.Numerics.Vectors.4.5.0/lib/net46/System.Numerics.Vectors.dll differ diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/net46/System.Numerics.Vectors.xml b/packages/System.Numerics.Vectors.4.5.0/lib/net46/System.Numerics.Vectors.xml new file mode 100644 index 00000000..da34d390 --- /dev/null +++ b/packages/System.Numerics.Vectors.4.5.0/lib/net46/System.Numerics.Vectors.xml @@ -0,0 +1,2621 @@ + + + System.Numerics.Vectors + + + + Represents a 3x2 matrix. + + + Creates a 3x2 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a rotation matrix using the given rotation in radians. + The amount of rotation, in radians. + The rotation matrix. + + + Creates a rotation matrix using the specified rotation in radians and a center point. + The amount of rotation, in radians. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified X and Y components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the specified scale with an offset from the specified center. + The uniform scale to use. + The center offset. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The center point. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the given scale. + The uniform scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale with an offset from the specified center point. + The scale to use. + The center offset. + The scaling matrix. + + + Creates a skew matrix from the specified angles in radians. + The X angle, in radians. + The Y angle, in radians. + The skew matrix. + + + Creates a skew matrix from the specified angles in radians and a center point. + The X angle, in radians. + The Y angle, in radians. + The center point. + The skew matrix. + + + Creates a translation matrix from the specified 2-dimensional vector. + The translation position. + The translation matrix. + + + Creates a translation matrix from the specified X and Y components. + The X position. + The Y position. + The translation matrix. + + + Returns a value that indicates whether this instance and another 3x2 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant for this matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + The multiplicative identify matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Represents a 4x4 matrix. + + + Creates a object from a specified object. + A 3x2 matrix. + + + Creates a 4x4 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the third element in the first row. + The value to assign to the fourth element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the third element in the second row. + The value to assign to the third element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + The value to assign to the third element in the third row. + The value to assign to the fourth element in the third row. + The value to assign to the first element in the fourth row. + The value to assign to the second element in the fourth row. + The value to assign to the third element in the fourth row. + The value to assign to the fourth element in the fourth row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a spherical billboard that rotates around a specified object position. + The position of the object that the billboard will rotate around. + The position of the camera. + The up vector of the camera. + The forward vector of the camera. + The created billboard. + + + Creates a cylindrical billboard that rotates around a specified axis. + The position of the object that the billboard will rotate around. + The position of the camera. + The axis to rotate the billboard around. + The forward vector of the camera. + The forward vector of the object. + The billboard matrix. + + + Creates a matrix that rotates around an arbitrary vector. + The axis to rotate around. + The angle to rotate around axis, in radians. + The rotation matrix. + + + Creates a rotation matrix from the specified Quaternion rotation value. + The source Quaternion. + The rotation matrix. + + + Creates a rotation matrix from the specified yaw, pitch, and roll. + The angle of rotation, in radians, around the Y axis. + The angle of rotation, in radians, around the X axis. + The angle of rotation, in radians, around the Z axis. + The rotation matrix. + + + Creates a view matrix. + The position of the camera. + The target towards which the camera is pointing. + The direction that is "up" from the camera's point of view. + The view matrix. + + + Creates an orthographic perspective matrix from the given view volume dimensions. + The width of the view volume. + The height of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a customized orthographic projection matrix. + The minimum X-value of the view volume. + The maximum X-value of the view volume. + The minimum Y-value of the view volume. + The maximum Y-value of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a perspective projection matrix from the given view volume dimensions. + The width of the view volume at the near view plane. + The height of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a perspective projection matrix based on a field of view, aspect ratio, and near and far view plane distances. + The field of view in the y direction, in radians. + The aspect ratio, defined as view space width divided by height. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + fieldOfView is less than or equal to zero. + -or- + fieldOfView is greater than or equal to . + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a customized perspective projection matrix. + The minimum x-value of the view volume at the near view plane. + The maximum x-value of the view volume at the near view plane. + The minimum y-value of the view volume at the near view plane. + The maximum y-value of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a matrix that reflects the coordinate system about a specified plane. + The plane about which to create a reflection. + A new matrix expressing the reflection. + + + Creates a matrix for rotating points around the X axis. + The amount, in radians, by which to rotate around the X axis. + The rotation matrix. + + + Creates a matrix for rotating points around the X axis from a center point. + The amount, in radians, by which to rotate around the X axis. + The center point. + The rotation matrix. + + + The amount, in radians, by which to rotate around the Y axis from a center point. + The amount, in radians, by which to rotate around the Y-axis. + The center point. + The rotation matrix. + + + Creates a matrix for rotating points around the Y axis. + The amount, in radians, by which to rotate around the Y-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis. + The amount, in radians, by which to rotate around the Z-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis from a center point. + The amount, in radians, by which to rotate around the Z-axis. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a uniform scaling matrix that scale equally on each axis. + The uniform scaling factor. + The scaling matrix. + + + Creates a scaling matrix with a center point. + The vector that contains the amount to scale on each axis. + The center point. + The scaling matrix. + + + Creates a uniform scaling matrix that scales equally on each axis with a center point. + The uniform scaling factor. + The center point. + The scaling matrix. + + + Creates a scaling matrix from the specified X, Y, and Z components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The center point. + The scaling matrix. + + + Creates a matrix that flattens geometry into a specified plane as if casting a shadow from a specified light source. + The direction from which the light that will cast the shadow is coming. + The plane onto which the new matrix should flatten geometry so as to cast a shadow. + A new matrix that can be used to flatten geometry onto the specified plane from the specified direction. + + + Creates a translation matrix from the specified 3-dimensional vector. + The amount to translate in each axis. + The translation matrix. + + + Creates a translation matrix from the specified X, Y, and Z components. + The amount to translate on the X axis. + The amount to translate on the Y axis. + The amount to translate on the Z axis. + The translation matrix. + + + Creates a world matrix with the specified parameters. + The position of the object. + The forward direction of the object. + The upward direction of the object. Its value is usually [0, 1, 0]. + The world matrix. + + + Attempts to extract the scale, translation, and rotation components from the given scale, rotation, or translation matrix. The return value indicates whether the operation succeeded. + The source matrix. + When this method returns, contains the scaling component of the transformation matrix if the operation succeeded. + When this method returns, contains the rotation component of the transformation matrix if the operation succeeded. + When the method returns, contains the translation component of the transformation matrix if the operation succeeded. + true if matrix was decomposed successfully; otherwise, false. + + + Returns a value that indicates whether this instance and another 4x4 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant of the current 4x4 matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + Gets the multiplicative identity matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The third element of the first row. + + + + The fourth element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The third element of the second row. + + + + The fourth element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + The third element of the third row. + + + + The fourth element of the third row. + + + + The first element of the fourth row. + + + + The second element of the fourth row. + + + + The third element of the fourth row. + + + + The fourth element of the fourth row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to care + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Transforms the specified matrix by applying the specified Quaternion rotation. + The matrix to transform. + The rotation t apply. + The transformed matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Transposes the rows and columns of a matrix. + The matrix to transpose. + The transposed matrix. + + + Represents a three-dimensional plane. + + + Creates a object from a specified four-dimensional vector. + A vector whose first three elements describe the normal vector, and whose defines the distance along that normal from the origin. + + + Creates a object from a specified normal and the distance along the normal from the origin. + The plane's normal vector. + The plane's distance from the origin along its normal vector. + + + Creates a object from the X, Y, and Z components of its normal, and its distance from the origin on that normal. + The X component of the normal. + The Y component of the normal. + The Z component of the normal. + The distance of the plane along its normal from the origin. + + + Creates a object that contains three specified points. + The first point defining the plane. + The second point defining the plane. + The third point defining the plane. + The plane containing the three points. + + + The distance of the plane along its normal from the origin. + + + + Calculates the dot product of a plane and a 4-dimensional vector. + The plane. + The four-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the normal vector of this plane plus the distance () value of the plane. + The plane. + The 3-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the vector of this plane. + The plane. + The three-dimensional vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another plane object are equal. + The other plane. + true if the two planes are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + The normal vector of the plane. + + + + Creates a new object whose normal vector is the source plane's normal vector normalized. + The source plane. + The normalized plane. + + + Returns a value that indicates whether two planes are equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether two planes are not equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the string representation of this plane object. + A string that represents this object. + + + Transforms a normalized plane by a 4x4 matrix. + The normalized plane to transform. + The transformation matrix to apply to plane. + The transformed plane. + + + Transforms a normalized plane by a Quaternion rotation. + The normalized plane to transform. + The Quaternion rotation to apply to the plane. + A new plane that results from applying the Quaternion rotation. + + + Represents a vector that is used to encode three-dimensional physical rotations. + + + Creates a quaternion from the specified vector and rotation parts. + The vector part of the quaternion. + The rotation part of the quaternion. + + + Constructs a quaternion from the specified components. + The value to assign to the X component of the quaternion. + The value to assign to the Y component of the quaternion. + The value to assign to the Z component of the quaternion. + The value to assign to the W component of the quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Concatenates two quaternions. + The first quaternion rotation in the series. + The second quaternion rotation in the series. + A new quaternion representing the concatenation of the value1 rotation followed by the value2 rotation. + + + Returns the conjugate of a specified quaternion. + The quaternion. + A new quaternion that is the conjugate of value. + + + Creates a quaternion from a vector and an angle to rotate about the vector. + The vector to rotate around. + The angle, in radians, to rotate around the vector. + The newly created quaternion. + + + Creates a quaternion from the specified rotation matrix. + The rotation matrix. + The newly created quaternion. + + + Creates a new quaternion from the given yaw, pitch, and roll. + The yaw angle, in radians, around the Y axis. + The pitch angle, in radians, around the X axis. + The roll angle, in radians, around the Z axis. + The resulting quaternion. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Calculates the dot product of two quaternions. + The first quaternion. + The second quaternion. + The dot product. + + + Returns a value that indicates whether this instance and another quaternion are equal. + The other quaternion. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Gets a quaternion that represents no rotation. + A quaternion whose values are (0, 0, 0, 1). + + + Returns the inverse of a quaternion. + The quaternion. + The inverted quaternion. + + + Gets a value that indicates whether the current instance is the identity quaternion. + true if the current instance is the identity quaternion; otherwise, false. + + + Calculates the length of the quaternion. + The computed length of the quaternion. + + + Calculates the squared length of the quaternion. + The length squared of the quaternion. + + + Performs a linear interpolation between two quaternions based on a value that specifies the weighting of the second quaternion. + The first quaternion. + The second quaternion. + The relative weight of quaternion2 in the interpolation. + The interpolated quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Divides each component of a specified by its length. + The quaternion to normalize. + The normalized quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Returns a value that indicates whether two quaternions are equal. + The first quaternion to compare. + The second quaternion to compare. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether two quaternions are not equal. + The first quaternion to compare. + The second quaternion to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Interpolates between two quaternions, using spherical linear interpolation. + The first quaternion. + The second quaternion. + The relative weight of the second quaternion in the interpolation. + The interpolated quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this quaternion. + The string representation of this quaternion. + + + The rotation component of the quaternion. + + + + The X value of the vector component of the quaternion. + + + + The Y value of the vector component of the quaternion. + + + + The Z value of the vector component of the quaternion. + + + + Represents a single vector of a specified numeric type that is suitable for low-level optimization of parallel algorithms. + The vector type. T can be any primitive numeric type. + + + Creates a vector whose components are of a specified type. + The numeric type that defines the type of the components in the vector. + + + Creates a vector from a specified array. + A numeric array. + values is null. + + + Creates a vector from a specified array starting at a specified index position. + A numeric array. + The starting index position from which to create the vector. + values is null. + index is less than zero. + -or- + The length of values minus index is less than . + + + Copies the vector instance to a specified destination array. + The array to receive a copy of the vector values. + destination is null. + The number of elements in the current vector is greater than the number of elements available in the destination array. + + + Copies the vector instance to a specified destination array starting at a specified index position. + The array to receive a copy of the vector values. + The starting index in destination at which to begin the copy operation. + destination is null. + The number of elements in the current instance is greater than the number of elements available from startIndex to the end of the destination array. + index is less than zero or greater than the last index in destination. + + + Returns the number of elements stored in the vector. + The number of elements stored in the vector. + Access to the property getter via reflection is not supported. + + + Returns a value that indicates whether this instance is equal to a specified vector. + The vector to compare with this instance. + true if the current instance and other are equal; otherwise, false. + + + Returns a value that indicates whether this instance is equal to a specified object. + The object to compare with this instance. + true if the current instance and obj are equal; otherwise, false. The method returns false if obj is null, or if obj is a vector of a different type than the current instance. + + + Returns the hash code for this instance. + The hash code. + + + Gets the element at a specified index. + The index of the element to return. + The element at index index. + index is less than zero. + -or- + index is greater than or equal to . + + + Returns a vector containing all ones. + A vector containing all ones. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Returns a new vector by performing a bitwise And operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise And of left and right. + + + Returns a new vector by performing a bitwise Or operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise Or of the elements in left and right. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Returns a value that indicates whether each pair of elements in two specified vectors are equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a new vector by performing a bitwise XOr operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise XOr of the elements in left and right. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Returns a value that indicates whether any single pair of elements in the specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if any element pairs in left and right are equal. false if no element pairs are equal. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar value. + The source vector. + A scalar value. + The scaled vector. + + + Multiplies a vector by the given scalar. + The scalar value. + The source vector. + The scaled vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The one's complement vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates a given vector. + The vector to negate. + The negated vector. + + + Returns the string representation of this vector using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Returns the string representation of this vector using default formatting. + The string representation of this vector. + + + Returns the string representation of this vector using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns a vector containing all zeroes. + A vector containing all zeroes. + + + Provides a collection of static convenience methods for creating, manipulating, combining, and converting generic vectors. + + + Returns a new vector whose elements are the absolute values of the given vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The absolute value vector. + + + Returns a new vector whose values are the sum of each pair of elements from two given vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The summed vector. + + + Returns a new vector by performing a bitwise And Not operation on each pair of corresponding elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a double-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of signed bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a single-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Returns a new vector by performing a bitwise And operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector by performing a bitwise Or operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Creates a new single-precision vector with elements selected between two specified single-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new double-precision vector with elements selected between two specified double-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new vector of a specified type with elements selected between two specified source vectors of the same type based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The vector type. T can be any primitive numeric type. + The new vector with elements selected based on the mask. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose values are the result of dividing the first vector's elements by the corresponding elements in the second vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The divided vector. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The dot product. + + + Returns a new integral vector whose elements signal whether the elements in two specified double-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified integral vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in two specified long integer vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified single-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in two specified vectors of the same type are equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether each pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left and right are equal; otherwise, false. + + + Returns a value that indicates whether any single pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element pair in left and right is equal; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are greater than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are greater than their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than their corresponding elements in the second vector of the same time. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the single-precision floating-point second vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than or equal to their corresponding elements in the second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than or equal to their corresponding elements in the second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than or equal to their corresponding elements in the second vector of the same type. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than or equal to all the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than or equal to the corresponding element in right; otherwise, false. + + + Gets a value that indicates whether vector operations are subject to hardware acceleration through JIT intrinsic support. + true if vector operations are subject to hardware acceleration; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision vector are less than their corresponding elements in a second single-precision vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in one vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all of the elements in the first vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than or equal to their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than or equal to their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less or equal to their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are less than or equal to their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than or equal to the corresponding element in right; otherwise, false. + + + Returns a new vector whose elements are the maximum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The maximum vector. + + + Returns a new vector whose elements are the minimum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The minimum vector. + + + Returns a new vector whose values are a scalar value multiplied by each of the values of a specified vector. + The scalar value. + The vector. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + Returns a new vector whose values are the product of each pair of elements in two specified vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The product vector. + + + Returns a new vector whose values are the values of a specified vector each multiplied by a scalar value. + The vector. + The scalar value. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose elements are the negation of the corresponding element in the specified vector. + The source vector. + The vector type. T can be any primitive numeric type. + The negated vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector whose elements are the square roots of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The square root vector. + + + Returns a new vector whose values are the difference between the elements in the second vector and their corresponding elements in the first vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The difference vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector by performing a bitwise exclusive Or (XOr) operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Represents a vector with two single-precision floating-point values. + + + Creates a new object whose two elements have the same value. + The value to assign to both elements. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of the vector. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 2 elements are equal to one. + A vector whose two elements are equal to one (that is, it returns the vector (1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 3x2 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 3x2 matrix. + The source vector. + The matrix. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0). + The vector (1,0). + + + Gets the vector (0,1). + The vector (0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + Returns a vector whose 2 elements are equal to zero. + A vector whose two elements are equal to zero (that is, it returns the vector (0,0). + + + Represents a vector with three single-precision floating-point values. + + + Creates a new object whose three elements have the same value. + The value to assign to all three elements. + + + Creates a new object from the specified object and the specified value. + The vector with two elements. + The additional value to assign to the field. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the cross product of two vectors. + The first vector. + The second vector. + The cross product. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 3 elements are equal to one. + A vector whose three elements are equal to one (that is, it returns the vector (1,1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0,0). + The vector (1,0,0). + + + Gets the vector (0,1,0). + The vector (0,1,0).. + + + Gets the vector (0,0,1). + The vector (0,0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 3 elements are equal to zero. + A vector whose three elements are equal to zero (that is, it returns the vector (0,0,0). + + + Represents a vector with four single-precision floating-point values. + + + Creates a new object whose four elements have the same value. + The value to assign to all four elements. + + + Constructs a new object from the specified object and a W component. + The vector to use for the X, Y, and Z components. + The W component. + + + Creates a new object from the specified object and a Z and a W component. + The vector to use for the X and Y components. + The Z component. + The W component. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 4 elements are equal to one. + Returns . + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a four-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a four-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a three-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a two-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a two-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a three-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Gets the vector (0,0,0,1). + The vector (0,0,0,1). + + + Gets the vector (1,0,0,0). + The vector (1,0,0,0). + + + Gets the vector (0,1,0,0). + The vector (0,1,0,0).. + + + Gets a vector whose 4 elements are equal to zero. + The vector (0,0,1,0). + + + The W component of the vector. + + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 4 elements are equal to zero. + A vector whose four elements are equal to zero (that is, it returns the vector (0,0,0,0). + + + \ No newline at end of file diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/netcoreapp2.0/_._ b/packages/System.Numerics.Vectors.4.5.0/lib/netcoreapp2.0/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/netstandard1.0/System.Numerics.Vectors.dll b/packages/System.Numerics.Vectors.4.5.0/lib/netstandard1.0/System.Numerics.Vectors.dll new file mode 100644 index 00000000..433aa361 Binary files /dev/null and b/packages/System.Numerics.Vectors.4.5.0/lib/netstandard1.0/System.Numerics.Vectors.dll differ diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/netstandard1.0/System.Numerics.Vectors.xml b/packages/System.Numerics.Vectors.4.5.0/lib/netstandard1.0/System.Numerics.Vectors.xml new file mode 100644 index 00000000..da34d390 --- /dev/null +++ b/packages/System.Numerics.Vectors.4.5.0/lib/netstandard1.0/System.Numerics.Vectors.xml @@ -0,0 +1,2621 @@ + + + System.Numerics.Vectors + + + + Represents a 3x2 matrix. + + + Creates a 3x2 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a rotation matrix using the given rotation in radians. + The amount of rotation, in radians. + The rotation matrix. + + + Creates a rotation matrix using the specified rotation in radians and a center point. + The amount of rotation, in radians. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified X and Y components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the specified scale with an offset from the specified center. + The uniform scale to use. + The center offset. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The center point. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the given scale. + The uniform scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale with an offset from the specified center point. + The scale to use. + The center offset. + The scaling matrix. + + + Creates a skew matrix from the specified angles in radians. + The X angle, in radians. + The Y angle, in radians. + The skew matrix. + + + Creates a skew matrix from the specified angles in radians and a center point. + The X angle, in radians. + The Y angle, in radians. + The center point. + The skew matrix. + + + Creates a translation matrix from the specified 2-dimensional vector. + The translation position. + The translation matrix. + + + Creates a translation matrix from the specified X and Y components. + The X position. + The Y position. + The translation matrix. + + + Returns a value that indicates whether this instance and another 3x2 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant for this matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + The multiplicative identify matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Represents a 4x4 matrix. + + + Creates a object from a specified object. + A 3x2 matrix. + + + Creates a 4x4 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the third element in the first row. + The value to assign to the fourth element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the third element in the second row. + The value to assign to the third element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + The value to assign to the third element in the third row. + The value to assign to the fourth element in the third row. + The value to assign to the first element in the fourth row. + The value to assign to the second element in the fourth row. + The value to assign to the third element in the fourth row. + The value to assign to the fourth element in the fourth row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a spherical billboard that rotates around a specified object position. + The position of the object that the billboard will rotate around. + The position of the camera. + The up vector of the camera. + The forward vector of the camera. + The created billboard. + + + Creates a cylindrical billboard that rotates around a specified axis. + The position of the object that the billboard will rotate around. + The position of the camera. + The axis to rotate the billboard around. + The forward vector of the camera. + The forward vector of the object. + The billboard matrix. + + + Creates a matrix that rotates around an arbitrary vector. + The axis to rotate around. + The angle to rotate around axis, in radians. + The rotation matrix. + + + Creates a rotation matrix from the specified Quaternion rotation value. + The source Quaternion. + The rotation matrix. + + + Creates a rotation matrix from the specified yaw, pitch, and roll. + The angle of rotation, in radians, around the Y axis. + The angle of rotation, in radians, around the X axis. + The angle of rotation, in radians, around the Z axis. + The rotation matrix. + + + Creates a view matrix. + The position of the camera. + The target towards which the camera is pointing. + The direction that is "up" from the camera's point of view. + The view matrix. + + + Creates an orthographic perspective matrix from the given view volume dimensions. + The width of the view volume. + The height of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a customized orthographic projection matrix. + The minimum X-value of the view volume. + The maximum X-value of the view volume. + The minimum Y-value of the view volume. + The maximum Y-value of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a perspective projection matrix from the given view volume dimensions. + The width of the view volume at the near view plane. + The height of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a perspective projection matrix based on a field of view, aspect ratio, and near and far view plane distances. + The field of view in the y direction, in radians. + The aspect ratio, defined as view space width divided by height. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + fieldOfView is less than or equal to zero. + -or- + fieldOfView is greater than or equal to . + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a customized perspective projection matrix. + The minimum x-value of the view volume at the near view plane. + The maximum x-value of the view volume at the near view plane. + The minimum y-value of the view volume at the near view plane. + The maximum y-value of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a matrix that reflects the coordinate system about a specified plane. + The plane about which to create a reflection. + A new matrix expressing the reflection. + + + Creates a matrix for rotating points around the X axis. + The amount, in radians, by which to rotate around the X axis. + The rotation matrix. + + + Creates a matrix for rotating points around the X axis from a center point. + The amount, in radians, by which to rotate around the X axis. + The center point. + The rotation matrix. + + + The amount, in radians, by which to rotate around the Y axis from a center point. + The amount, in radians, by which to rotate around the Y-axis. + The center point. + The rotation matrix. + + + Creates a matrix for rotating points around the Y axis. + The amount, in radians, by which to rotate around the Y-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis. + The amount, in radians, by which to rotate around the Z-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis from a center point. + The amount, in radians, by which to rotate around the Z-axis. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a uniform scaling matrix that scale equally on each axis. + The uniform scaling factor. + The scaling matrix. + + + Creates a scaling matrix with a center point. + The vector that contains the amount to scale on each axis. + The center point. + The scaling matrix. + + + Creates a uniform scaling matrix that scales equally on each axis with a center point. + The uniform scaling factor. + The center point. + The scaling matrix. + + + Creates a scaling matrix from the specified X, Y, and Z components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The center point. + The scaling matrix. + + + Creates a matrix that flattens geometry into a specified plane as if casting a shadow from a specified light source. + The direction from which the light that will cast the shadow is coming. + The plane onto which the new matrix should flatten geometry so as to cast a shadow. + A new matrix that can be used to flatten geometry onto the specified plane from the specified direction. + + + Creates a translation matrix from the specified 3-dimensional vector. + The amount to translate in each axis. + The translation matrix. + + + Creates a translation matrix from the specified X, Y, and Z components. + The amount to translate on the X axis. + The amount to translate on the Y axis. + The amount to translate on the Z axis. + The translation matrix. + + + Creates a world matrix with the specified parameters. + The position of the object. + The forward direction of the object. + The upward direction of the object. Its value is usually [0, 1, 0]. + The world matrix. + + + Attempts to extract the scale, translation, and rotation components from the given scale, rotation, or translation matrix. The return value indicates whether the operation succeeded. + The source matrix. + When this method returns, contains the scaling component of the transformation matrix if the operation succeeded. + When this method returns, contains the rotation component of the transformation matrix if the operation succeeded. + When the method returns, contains the translation component of the transformation matrix if the operation succeeded. + true if matrix was decomposed successfully; otherwise, false. + + + Returns a value that indicates whether this instance and another 4x4 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant of the current 4x4 matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + Gets the multiplicative identity matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The third element of the first row. + + + + The fourth element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The third element of the second row. + + + + The fourth element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + The third element of the third row. + + + + The fourth element of the third row. + + + + The first element of the fourth row. + + + + The second element of the fourth row. + + + + The third element of the fourth row. + + + + The fourth element of the fourth row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to care + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Transforms the specified matrix by applying the specified Quaternion rotation. + The matrix to transform. + The rotation t apply. + The transformed matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Transposes the rows and columns of a matrix. + The matrix to transpose. + The transposed matrix. + + + Represents a three-dimensional plane. + + + Creates a object from a specified four-dimensional vector. + A vector whose first three elements describe the normal vector, and whose defines the distance along that normal from the origin. + + + Creates a object from a specified normal and the distance along the normal from the origin. + The plane's normal vector. + The plane's distance from the origin along its normal vector. + + + Creates a object from the X, Y, and Z components of its normal, and its distance from the origin on that normal. + The X component of the normal. + The Y component of the normal. + The Z component of the normal. + The distance of the plane along its normal from the origin. + + + Creates a object that contains three specified points. + The first point defining the plane. + The second point defining the plane. + The third point defining the plane. + The plane containing the three points. + + + The distance of the plane along its normal from the origin. + + + + Calculates the dot product of a plane and a 4-dimensional vector. + The plane. + The four-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the normal vector of this plane plus the distance () value of the plane. + The plane. + The 3-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the vector of this plane. + The plane. + The three-dimensional vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another plane object are equal. + The other plane. + true if the two planes are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + The normal vector of the plane. + + + + Creates a new object whose normal vector is the source plane's normal vector normalized. + The source plane. + The normalized plane. + + + Returns a value that indicates whether two planes are equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether two planes are not equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the string representation of this plane object. + A string that represents this object. + + + Transforms a normalized plane by a 4x4 matrix. + The normalized plane to transform. + The transformation matrix to apply to plane. + The transformed plane. + + + Transforms a normalized plane by a Quaternion rotation. + The normalized plane to transform. + The Quaternion rotation to apply to the plane. + A new plane that results from applying the Quaternion rotation. + + + Represents a vector that is used to encode three-dimensional physical rotations. + + + Creates a quaternion from the specified vector and rotation parts. + The vector part of the quaternion. + The rotation part of the quaternion. + + + Constructs a quaternion from the specified components. + The value to assign to the X component of the quaternion. + The value to assign to the Y component of the quaternion. + The value to assign to the Z component of the quaternion. + The value to assign to the W component of the quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Concatenates two quaternions. + The first quaternion rotation in the series. + The second quaternion rotation in the series. + A new quaternion representing the concatenation of the value1 rotation followed by the value2 rotation. + + + Returns the conjugate of a specified quaternion. + The quaternion. + A new quaternion that is the conjugate of value. + + + Creates a quaternion from a vector and an angle to rotate about the vector. + The vector to rotate around. + The angle, in radians, to rotate around the vector. + The newly created quaternion. + + + Creates a quaternion from the specified rotation matrix. + The rotation matrix. + The newly created quaternion. + + + Creates a new quaternion from the given yaw, pitch, and roll. + The yaw angle, in radians, around the Y axis. + The pitch angle, in radians, around the X axis. + The roll angle, in radians, around the Z axis. + The resulting quaternion. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Calculates the dot product of two quaternions. + The first quaternion. + The second quaternion. + The dot product. + + + Returns a value that indicates whether this instance and another quaternion are equal. + The other quaternion. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Gets a quaternion that represents no rotation. + A quaternion whose values are (0, 0, 0, 1). + + + Returns the inverse of a quaternion. + The quaternion. + The inverted quaternion. + + + Gets a value that indicates whether the current instance is the identity quaternion. + true if the current instance is the identity quaternion; otherwise, false. + + + Calculates the length of the quaternion. + The computed length of the quaternion. + + + Calculates the squared length of the quaternion. + The length squared of the quaternion. + + + Performs a linear interpolation between two quaternions based on a value that specifies the weighting of the second quaternion. + The first quaternion. + The second quaternion. + The relative weight of quaternion2 in the interpolation. + The interpolated quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Divides each component of a specified by its length. + The quaternion to normalize. + The normalized quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Returns a value that indicates whether two quaternions are equal. + The first quaternion to compare. + The second quaternion to compare. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether two quaternions are not equal. + The first quaternion to compare. + The second quaternion to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Interpolates between two quaternions, using spherical linear interpolation. + The first quaternion. + The second quaternion. + The relative weight of the second quaternion in the interpolation. + The interpolated quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this quaternion. + The string representation of this quaternion. + + + The rotation component of the quaternion. + + + + The X value of the vector component of the quaternion. + + + + The Y value of the vector component of the quaternion. + + + + The Z value of the vector component of the quaternion. + + + + Represents a single vector of a specified numeric type that is suitable for low-level optimization of parallel algorithms. + The vector type. T can be any primitive numeric type. + + + Creates a vector whose components are of a specified type. + The numeric type that defines the type of the components in the vector. + + + Creates a vector from a specified array. + A numeric array. + values is null. + + + Creates a vector from a specified array starting at a specified index position. + A numeric array. + The starting index position from which to create the vector. + values is null. + index is less than zero. + -or- + The length of values minus index is less than . + + + Copies the vector instance to a specified destination array. + The array to receive a copy of the vector values. + destination is null. + The number of elements in the current vector is greater than the number of elements available in the destination array. + + + Copies the vector instance to a specified destination array starting at a specified index position. + The array to receive a copy of the vector values. + The starting index in destination at which to begin the copy operation. + destination is null. + The number of elements in the current instance is greater than the number of elements available from startIndex to the end of the destination array. + index is less than zero or greater than the last index in destination. + + + Returns the number of elements stored in the vector. + The number of elements stored in the vector. + Access to the property getter via reflection is not supported. + + + Returns a value that indicates whether this instance is equal to a specified vector. + The vector to compare with this instance. + true if the current instance and other are equal; otherwise, false. + + + Returns a value that indicates whether this instance is equal to a specified object. + The object to compare with this instance. + true if the current instance and obj are equal; otherwise, false. The method returns false if obj is null, or if obj is a vector of a different type than the current instance. + + + Returns the hash code for this instance. + The hash code. + + + Gets the element at a specified index. + The index of the element to return. + The element at index index. + index is less than zero. + -or- + index is greater than or equal to . + + + Returns a vector containing all ones. + A vector containing all ones. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Returns a new vector by performing a bitwise And operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise And of left and right. + + + Returns a new vector by performing a bitwise Or operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise Or of the elements in left and right. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Returns a value that indicates whether each pair of elements in two specified vectors are equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a new vector by performing a bitwise XOr operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise XOr of the elements in left and right. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Returns a value that indicates whether any single pair of elements in the specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if any element pairs in left and right are equal. false if no element pairs are equal. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar value. + The source vector. + A scalar value. + The scaled vector. + + + Multiplies a vector by the given scalar. + The scalar value. + The source vector. + The scaled vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The one's complement vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates a given vector. + The vector to negate. + The negated vector. + + + Returns the string representation of this vector using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Returns the string representation of this vector using default formatting. + The string representation of this vector. + + + Returns the string representation of this vector using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns a vector containing all zeroes. + A vector containing all zeroes. + + + Provides a collection of static convenience methods for creating, manipulating, combining, and converting generic vectors. + + + Returns a new vector whose elements are the absolute values of the given vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The absolute value vector. + + + Returns a new vector whose values are the sum of each pair of elements from two given vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The summed vector. + + + Returns a new vector by performing a bitwise And Not operation on each pair of corresponding elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a double-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of signed bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a single-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Returns a new vector by performing a bitwise And operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector by performing a bitwise Or operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Creates a new single-precision vector with elements selected between two specified single-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new double-precision vector with elements selected between two specified double-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new vector of a specified type with elements selected between two specified source vectors of the same type based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The vector type. T can be any primitive numeric type. + The new vector with elements selected based on the mask. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose values are the result of dividing the first vector's elements by the corresponding elements in the second vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The divided vector. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The dot product. + + + Returns a new integral vector whose elements signal whether the elements in two specified double-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified integral vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in two specified long integer vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified single-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in two specified vectors of the same type are equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether each pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left and right are equal; otherwise, false. + + + Returns a value that indicates whether any single pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element pair in left and right is equal; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are greater than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are greater than their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than their corresponding elements in the second vector of the same time. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the single-precision floating-point second vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than or equal to their corresponding elements in the second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than or equal to their corresponding elements in the second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than or equal to their corresponding elements in the second vector of the same type. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than or equal to all the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than or equal to the corresponding element in right; otherwise, false. + + + Gets a value that indicates whether vector operations are subject to hardware acceleration through JIT intrinsic support. + true if vector operations are subject to hardware acceleration; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision vector are less than their corresponding elements in a second single-precision vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in one vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all of the elements in the first vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than or equal to their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than or equal to their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less or equal to their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are less than or equal to their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than or equal to the corresponding element in right; otherwise, false. + + + Returns a new vector whose elements are the maximum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The maximum vector. + + + Returns a new vector whose elements are the minimum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The minimum vector. + + + Returns a new vector whose values are a scalar value multiplied by each of the values of a specified vector. + The scalar value. + The vector. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + Returns a new vector whose values are the product of each pair of elements in two specified vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The product vector. + + + Returns a new vector whose values are the values of a specified vector each multiplied by a scalar value. + The vector. + The scalar value. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose elements are the negation of the corresponding element in the specified vector. + The source vector. + The vector type. T can be any primitive numeric type. + The negated vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector whose elements are the square roots of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The square root vector. + + + Returns a new vector whose values are the difference between the elements in the second vector and their corresponding elements in the first vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The difference vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector by performing a bitwise exclusive Or (XOr) operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Represents a vector with two single-precision floating-point values. + + + Creates a new object whose two elements have the same value. + The value to assign to both elements. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of the vector. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 2 elements are equal to one. + A vector whose two elements are equal to one (that is, it returns the vector (1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 3x2 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 3x2 matrix. + The source vector. + The matrix. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0). + The vector (1,0). + + + Gets the vector (0,1). + The vector (0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + Returns a vector whose 2 elements are equal to zero. + A vector whose two elements are equal to zero (that is, it returns the vector (0,0). + + + Represents a vector with three single-precision floating-point values. + + + Creates a new object whose three elements have the same value. + The value to assign to all three elements. + + + Creates a new object from the specified object and the specified value. + The vector with two elements. + The additional value to assign to the field. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the cross product of two vectors. + The first vector. + The second vector. + The cross product. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 3 elements are equal to one. + A vector whose three elements are equal to one (that is, it returns the vector (1,1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0,0). + The vector (1,0,0). + + + Gets the vector (0,1,0). + The vector (0,1,0).. + + + Gets the vector (0,0,1). + The vector (0,0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 3 elements are equal to zero. + A vector whose three elements are equal to zero (that is, it returns the vector (0,0,0). + + + Represents a vector with four single-precision floating-point values. + + + Creates a new object whose four elements have the same value. + The value to assign to all four elements. + + + Constructs a new object from the specified object and a W component. + The vector to use for the X, Y, and Z components. + The W component. + + + Creates a new object from the specified object and a Z and a W component. + The vector to use for the X and Y components. + The Z component. + The W component. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 4 elements are equal to one. + Returns . + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a four-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a four-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a three-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a two-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a two-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a three-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Gets the vector (0,0,0,1). + The vector (0,0,0,1). + + + Gets the vector (1,0,0,0). + The vector (1,0,0,0). + + + Gets the vector (0,1,0,0). + The vector (0,1,0,0).. + + + Gets a vector whose 4 elements are equal to zero. + The vector (0,0,1,0). + + + The W component of the vector. + + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 4 elements are equal to zero. + A vector whose four elements are equal to zero (that is, it returns the vector (0,0,0,0). + + + \ No newline at end of file diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/netstandard2.0/System.Numerics.Vectors.dll b/packages/System.Numerics.Vectors.4.5.0/lib/netstandard2.0/System.Numerics.Vectors.dll new file mode 100644 index 00000000..10205772 Binary files /dev/null and b/packages/System.Numerics.Vectors.4.5.0/lib/netstandard2.0/System.Numerics.Vectors.dll differ diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/netstandard2.0/System.Numerics.Vectors.xml b/packages/System.Numerics.Vectors.4.5.0/lib/netstandard2.0/System.Numerics.Vectors.xml new file mode 100644 index 00000000..da34d390 --- /dev/null +++ b/packages/System.Numerics.Vectors.4.5.0/lib/netstandard2.0/System.Numerics.Vectors.xml @@ -0,0 +1,2621 @@ + + + System.Numerics.Vectors + + + + Represents a 3x2 matrix. + + + Creates a 3x2 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a rotation matrix using the given rotation in radians. + The amount of rotation, in radians. + The rotation matrix. + + + Creates a rotation matrix using the specified rotation in radians and a center point. + The amount of rotation, in radians. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified X and Y components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the specified scale with an offset from the specified center. + The uniform scale to use. + The center offset. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The center point. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the given scale. + The uniform scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale with an offset from the specified center point. + The scale to use. + The center offset. + The scaling matrix. + + + Creates a skew matrix from the specified angles in radians. + The X angle, in radians. + The Y angle, in radians. + The skew matrix. + + + Creates a skew matrix from the specified angles in radians and a center point. + The X angle, in radians. + The Y angle, in radians. + The center point. + The skew matrix. + + + Creates a translation matrix from the specified 2-dimensional vector. + The translation position. + The translation matrix. + + + Creates a translation matrix from the specified X and Y components. + The X position. + The Y position. + The translation matrix. + + + Returns a value that indicates whether this instance and another 3x2 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant for this matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + The multiplicative identify matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Represents a 4x4 matrix. + + + Creates a object from a specified object. + A 3x2 matrix. + + + Creates a 4x4 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the third element in the first row. + The value to assign to the fourth element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the third element in the second row. + The value to assign to the third element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + The value to assign to the third element in the third row. + The value to assign to the fourth element in the third row. + The value to assign to the first element in the fourth row. + The value to assign to the second element in the fourth row. + The value to assign to the third element in the fourth row. + The value to assign to the fourth element in the fourth row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a spherical billboard that rotates around a specified object position. + The position of the object that the billboard will rotate around. + The position of the camera. + The up vector of the camera. + The forward vector of the camera. + The created billboard. + + + Creates a cylindrical billboard that rotates around a specified axis. + The position of the object that the billboard will rotate around. + The position of the camera. + The axis to rotate the billboard around. + The forward vector of the camera. + The forward vector of the object. + The billboard matrix. + + + Creates a matrix that rotates around an arbitrary vector. + The axis to rotate around. + The angle to rotate around axis, in radians. + The rotation matrix. + + + Creates a rotation matrix from the specified Quaternion rotation value. + The source Quaternion. + The rotation matrix. + + + Creates a rotation matrix from the specified yaw, pitch, and roll. + The angle of rotation, in radians, around the Y axis. + The angle of rotation, in radians, around the X axis. + The angle of rotation, in radians, around the Z axis. + The rotation matrix. + + + Creates a view matrix. + The position of the camera. + The target towards which the camera is pointing. + The direction that is "up" from the camera's point of view. + The view matrix. + + + Creates an orthographic perspective matrix from the given view volume dimensions. + The width of the view volume. + The height of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a customized orthographic projection matrix. + The minimum X-value of the view volume. + The maximum X-value of the view volume. + The minimum Y-value of the view volume. + The maximum Y-value of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a perspective projection matrix from the given view volume dimensions. + The width of the view volume at the near view plane. + The height of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a perspective projection matrix based on a field of view, aspect ratio, and near and far view plane distances. + The field of view in the y direction, in radians. + The aspect ratio, defined as view space width divided by height. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + fieldOfView is less than or equal to zero. + -or- + fieldOfView is greater than or equal to . + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a customized perspective projection matrix. + The minimum x-value of the view volume at the near view plane. + The maximum x-value of the view volume at the near view plane. + The minimum y-value of the view volume at the near view plane. + The maximum y-value of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a matrix that reflects the coordinate system about a specified plane. + The plane about which to create a reflection. + A new matrix expressing the reflection. + + + Creates a matrix for rotating points around the X axis. + The amount, in radians, by which to rotate around the X axis. + The rotation matrix. + + + Creates a matrix for rotating points around the X axis from a center point. + The amount, in radians, by which to rotate around the X axis. + The center point. + The rotation matrix. + + + The amount, in radians, by which to rotate around the Y axis from a center point. + The amount, in radians, by which to rotate around the Y-axis. + The center point. + The rotation matrix. + + + Creates a matrix for rotating points around the Y axis. + The amount, in radians, by which to rotate around the Y-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis. + The amount, in radians, by which to rotate around the Z-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis from a center point. + The amount, in radians, by which to rotate around the Z-axis. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a uniform scaling matrix that scale equally on each axis. + The uniform scaling factor. + The scaling matrix. + + + Creates a scaling matrix with a center point. + The vector that contains the amount to scale on each axis. + The center point. + The scaling matrix. + + + Creates a uniform scaling matrix that scales equally on each axis with a center point. + The uniform scaling factor. + The center point. + The scaling matrix. + + + Creates a scaling matrix from the specified X, Y, and Z components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The center point. + The scaling matrix. + + + Creates a matrix that flattens geometry into a specified plane as if casting a shadow from a specified light source. + The direction from which the light that will cast the shadow is coming. + The plane onto which the new matrix should flatten geometry so as to cast a shadow. + A new matrix that can be used to flatten geometry onto the specified plane from the specified direction. + + + Creates a translation matrix from the specified 3-dimensional vector. + The amount to translate in each axis. + The translation matrix. + + + Creates a translation matrix from the specified X, Y, and Z components. + The amount to translate on the X axis. + The amount to translate on the Y axis. + The amount to translate on the Z axis. + The translation matrix. + + + Creates a world matrix with the specified parameters. + The position of the object. + The forward direction of the object. + The upward direction of the object. Its value is usually [0, 1, 0]. + The world matrix. + + + Attempts to extract the scale, translation, and rotation components from the given scale, rotation, or translation matrix. The return value indicates whether the operation succeeded. + The source matrix. + When this method returns, contains the scaling component of the transformation matrix if the operation succeeded. + When this method returns, contains the rotation component of the transformation matrix if the operation succeeded. + When the method returns, contains the translation component of the transformation matrix if the operation succeeded. + true if matrix was decomposed successfully; otherwise, false. + + + Returns a value that indicates whether this instance and another 4x4 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant of the current 4x4 matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + Gets the multiplicative identity matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The third element of the first row. + + + + The fourth element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The third element of the second row. + + + + The fourth element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + The third element of the third row. + + + + The fourth element of the third row. + + + + The first element of the fourth row. + + + + The second element of the fourth row. + + + + The third element of the fourth row. + + + + The fourth element of the fourth row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to care + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Transforms the specified matrix by applying the specified Quaternion rotation. + The matrix to transform. + The rotation t apply. + The transformed matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Transposes the rows and columns of a matrix. + The matrix to transpose. + The transposed matrix. + + + Represents a three-dimensional plane. + + + Creates a object from a specified four-dimensional vector. + A vector whose first three elements describe the normal vector, and whose defines the distance along that normal from the origin. + + + Creates a object from a specified normal and the distance along the normal from the origin. + The plane's normal vector. + The plane's distance from the origin along its normal vector. + + + Creates a object from the X, Y, and Z components of its normal, and its distance from the origin on that normal. + The X component of the normal. + The Y component of the normal. + The Z component of the normal. + The distance of the plane along its normal from the origin. + + + Creates a object that contains three specified points. + The first point defining the plane. + The second point defining the plane. + The third point defining the plane. + The plane containing the three points. + + + The distance of the plane along its normal from the origin. + + + + Calculates the dot product of a plane and a 4-dimensional vector. + The plane. + The four-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the normal vector of this plane plus the distance () value of the plane. + The plane. + The 3-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the vector of this plane. + The plane. + The three-dimensional vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another plane object are equal. + The other plane. + true if the two planes are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + The normal vector of the plane. + + + + Creates a new object whose normal vector is the source plane's normal vector normalized. + The source plane. + The normalized plane. + + + Returns a value that indicates whether two planes are equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether two planes are not equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the string representation of this plane object. + A string that represents this object. + + + Transforms a normalized plane by a 4x4 matrix. + The normalized plane to transform. + The transformation matrix to apply to plane. + The transformed plane. + + + Transforms a normalized plane by a Quaternion rotation. + The normalized plane to transform. + The Quaternion rotation to apply to the plane. + A new plane that results from applying the Quaternion rotation. + + + Represents a vector that is used to encode three-dimensional physical rotations. + + + Creates a quaternion from the specified vector and rotation parts. + The vector part of the quaternion. + The rotation part of the quaternion. + + + Constructs a quaternion from the specified components. + The value to assign to the X component of the quaternion. + The value to assign to the Y component of the quaternion. + The value to assign to the Z component of the quaternion. + The value to assign to the W component of the quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Concatenates two quaternions. + The first quaternion rotation in the series. + The second quaternion rotation in the series. + A new quaternion representing the concatenation of the value1 rotation followed by the value2 rotation. + + + Returns the conjugate of a specified quaternion. + The quaternion. + A new quaternion that is the conjugate of value. + + + Creates a quaternion from a vector and an angle to rotate about the vector. + The vector to rotate around. + The angle, in radians, to rotate around the vector. + The newly created quaternion. + + + Creates a quaternion from the specified rotation matrix. + The rotation matrix. + The newly created quaternion. + + + Creates a new quaternion from the given yaw, pitch, and roll. + The yaw angle, in radians, around the Y axis. + The pitch angle, in radians, around the X axis. + The roll angle, in radians, around the Z axis. + The resulting quaternion. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Calculates the dot product of two quaternions. + The first quaternion. + The second quaternion. + The dot product. + + + Returns a value that indicates whether this instance and another quaternion are equal. + The other quaternion. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Gets a quaternion that represents no rotation. + A quaternion whose values are (0, 0, 0, 1). + + + Returns the inverse of a quaternion. + The quaternion. + The inverted quaternion. + + + Gets a value that indicates whether the current instance is the identity quaternion. + true if the current instance is the identity quaternion; otherwise, false. + + + Calculates the length of the quaternion. + The computed length of the quaternion. + + + Calculates the squared length of the quaternion. + The length squared of the quaternion. + + + Performs a linear interpolation between two quaternions based on a value that specifies the weighting of the second quaternion. + The first quaternion. + The second quaternion. + The relative weight of quaternion2 in the interpolation. + The interpolated quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Divides each component of a specified by its length. + The quaternion to normalize. + The normalized quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Returns a value that indicates whether two quaternions are equal. + The first quaternion to compare. + The second quaternion to compare. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether two quaternions are not equal. + The first quaternion to compare. + The second quaternion to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Interpolates between two quaternions, using spherical linear interpolation. + The first quaternion. + The second quaternion. + The relative weight of the second quaternion in the interpolation. + The interpolated quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this quaternion. + The string representation of this quaternion. + + + The rotation component of the quaternion. + + + + The X value of the vector component of the quaternion. + + + + The Y value of the vector component of the quaternion. + + + + The Z value of the vector component of the quaternion. + + + + Represents a single vector of a specified numeric type that is suitable for low-level optimization of parallel algorithms. + The vector type. T can be any primitive numeric type. + + + Creates a vector whose components are of a specified type. + The numeric type that defines the type of the components in the vector. + + + Creates a vector from a specified array. + A numeric array. + values is null. + + + Creates a vector from a specified array starting at a specified index position. + A numeric array. + The starting index position from which to create the vector. + values is null. + index is less than zero. + -or- + The length of values minus index is less than . + + + Copies the vector instance to a specified destination array. + The array to receive a copy of the vector values. + destination is null. + The number of elements in the current vector is greater than the number of elements available in the destination array. + + + Copies the vector instance to a specified destination array starting at a specified index position. + The array to receive a copy of the vector values. + The starting index in destination at which to begin the copy operation. + destination is null. + The number of elements in the current instance is greater than the number of elements available from startIndex to the end of the destination array. + index is less than zero or greater than the last index in destination. + + + Returns the number of elements stored in the vector. + The number of elements stored in the vector. + Access to the property getter via reflection is not supported. + + + Returns a value that indicates whether this instance is equal to a specified vector. + The vector to compare with this instance. + true if the current instance and other are equal; otherwise, false. + + + Returns a value that indicates whether this instance is equal to a specified object. + The object to compare with this instance. + true if the current instance and obj are equal; otherwise, false. The method returns false if obj is null, or if obj is a vector of a different type than the current instance. + + + Returns the hash code for this instance. + The hash code. + + + Gets the element at a specified index. + The index of the element to return. + The element at index index. + index is less than zero. + -or- + index is greater than or equal to . + + + Returns a vector containing all ones. + A vector containing all ones. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Returns a new vector by performing a bitwise And operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise And of left and right. + + + Returns a new vector by performing a bitwise Or operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise Or of the elements in left and right. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Returns a value that indicates whether each pair of elements in two specified vectors are equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a new vector by performing a bitwise XOr operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise XOr of the elements in left and right. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Returns a value that indicates whether any single pair of elements in the specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if any element pairs in left and right are equal. false if no element pairs are equal. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar value. + The source vector. + A scalar value. + The scaled vector. + + + Multiplies a vector by the given scalar. + The scalar value. + The source vector. + The scaled vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The one's complement vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates a given vector. + The vector to negate. + The negated vector. + + + Returns the string representation of this vector using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Returns the string representation of this vector using default formatting. + The string representation of this vector. + + + Returns the string representation of this vector using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns a vector containing all zeroes. + A vector containing all zeroes. + + + Provides a collection of static convenience methods for creating, manipulating, combining, and converting generic vectors. + + + Returns a new vector whose elements are the absolute values of the given vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The absolute value vector. + + + Returns a new vector whose values are the sum of each pair of elements from two given vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The summed vector. + + + Returns a new vector by performing a bitwise And Not operation on each pair of corresponding elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a double-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of signed bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a single-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Returns a new vector by performing a bitwise And operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector by performing a bitwise Or operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Creates a new single-precision vector with elements selected between two specified single-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new double-precision vector with elements selected between two specified double-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new vector of a specified type with elements selected between two specified source vectors of the same type based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The vector type. T can be any primitive numeric type. + The new vector with elements selected based on the mask. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose values are the result of dividing the first vector's elements by the corresponding elements in the second vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The divided vector. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The dot product. + + + Returns a new integral vector whose elements signal whether the elements in two specified double-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified integral vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in two specified long integer vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified single-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in two specified vectors of the same type are equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether each pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left and right are equal; otherwise, false. + + + Returns a value that indicates whether any single pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element pair in left and right is equal; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are greater than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are greater than their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than their corresponding elements in the second vector of the same time. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the single-precision floating-point second vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than or equal to their corresponding elements in the second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than or equal to their corresponding elements in the second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than or equal to their corresponding elements in the second vector of the same type. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than or equal to all the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than or equal to the corresponding element in right; otherwise, false. + + + Gets a value that indicates whether vector operations are subject to hardware acceleration through JIT intrinsic support. + true if vector operations are subject to hardware acceleration; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision vector are less than their corresponding elements in a second single-precision vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in one vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all of the elements in the first vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than or equal to their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than or equal to their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less or equal to their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are less than or equal to their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than or equal to the corresponding element in right; otherwise, false. + + + Returns a new vector whose elements are the maximum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The maximum vector. + + + Returns a new vector whose elements are the minimum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The minimum vector. + + + Returns a new vector whose values are a scalar value multiplied by each of the values of a specified vector. + The scalar value. + The vector. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + Returns a new vector whose values are the product of each pair of elements in two specified vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The product vector. + + + Returns a new vector whose values are the values of a specified vector each multiplied by a scalar value. + The vector. + The scalar value. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose elements are the negation of the corresponding element in the specified vector. + The source vector. + The vector type. T can be any primitive numeric type. + The negated vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector whose elements are the square roots of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The square root vector. + + + Returns a new vector whose values are the difference between the elements in the second vector and their corresponding elements in the first vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The difference vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector by performing a bitwise exclusive Or (XOr) operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Represents a vector with two single-precision floating-point values. + + + Creates a new object whose two elements have the same value. + The value to assign to both elements. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of the vector. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 2 elements are equal to one. + A vector whose two elements are equal to one (that is, it returns the vector (1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 3x2 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 3x2 matrix. + The source vector. + The matrix. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0). + The vector (1,0). + + + Gets the vector (0,1). + The vector (0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + Returns a vector whose 2 elements are equal to zero. + A vector whose two elements are equal to zero (that is, it returns the vector (0,0). + + + Represents a vector with three single-precision floating-point values. + + + Creates a new object whose three elements have the same value. + The value to assign to all three elements. + + + Creates a new object from the specified object and the specified value. + The vector with two elements. + The additional value to assign to the field. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the cross product of two vectors. + The first vector. + The second vector. + The cross product. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 3 elements are equal to one. + A vector whose three elements are equal to one (that is, it returns the vector (1,1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0,0). + The vector (1,0,0). + + + Gets the vector (0,1,0). + The vector (0,1,0).. + + + Gets the vector (0,0,1). + The vector (0,0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 3 elements are equal to zero. + A vector whose three elements are equal to zero (that is, it returns the vector (0,0,0). + + + Represents a vector with four single-precision floating-point values. + + + Creates a new object whose four elements have the same value. + The value to assign to all four elements. + + + Constructs a new object from the specified object and a W component. + The vector to use for the X, Y, and Z components. + The W component. + + + Creates a new object from the specified object and a Z and a W component. + The vector to use for the X and Y components. + The Z component. + The W component. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 4 elements are equal to one. + Returns . + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a four-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a four-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a three-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a two-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a two-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a three-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Gets the vector (0,0,0,1). + The vector (0,0,0,1). + + + Gets the vector (1,0,0,0). + The vector (1,0,0,0). + + + Gets the vector (0,1,0,0). + The vector (0,1,0,0).. + + + Gets a vector whose 4 elements are equal to zero. + The vector (0,0,1,0). + + + The W component of the vector. + + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 4 elements are equal to zero. + A vector whose four elements are equal to zero (that is, it returns the vector (0,0,0,0). + + + \ No newline at end of file diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/portable-net45+win8+wp8+wpa81/System.Numerics.Vectors.dll b/packages/System.Numerics.Vectors.4.5.0/lib/portable-net45+win8+wp8+wpa81/System.Numerics.Vectors.dll new file mode 100644 index 00000000..433aa361 Binary files /dev/null and b/packages/System.Numerics.Vectors.4.5.0/lib/portable-net45+win8+wp8+wpa81/System.Numerics.Vectors.dll differ diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/portable-net45+win8+wp8+wpa81/System.Numerics.Vectors.xml b/packages/System.Numerics.Vectors.4.5.0/lib/portable-net45+win8+wp8+wpa81/System.Numerics.Vectors.xml new file mode 100644 index 00000000..da34d390 --- /dev/null +++ b/packages/System.Numerics.Vectors.4.5.0/lib/portable-net45+win8+wp8+wpa81/System.Numerics.Vectors.xml @@ -0,0 +1,2621 @@ + + + System.Numerics.Vectors + + + + Represents a 3x2 matrix. + + + Creates a 3x2 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a rotation matrix using the given rotation in radians. + The amount of rotation, in radians. + The rotation matrix. + + + Creates a rotation matrix using the specified rotation in radians and a center point. + The amount of rotation, in radians. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified X and Y components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the specified scale with an offset from the specified center. + The uniform scale to use. + The center offset. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The center point. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the given scale. + The uniform scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale with an offset from the specified center point. + The scale to use. + The center offset. + The scaling matrix. + + + Creates a skew matrix from the specified angles in radians. + The X angle, in radians. + The Y angle, in radians. + The skew matrix. + + + Creates a skew matrix from the specified angles in radians and a center point. + The X angle, in radians. + The Y angle, in radians. + The center point. + The skew matrix. + + + Creates a translation matrix from the specified 2-dimensional vector. + The translation position. + The translation matrix. + + + Creates a translation matrix from the specified X and Y components. + The X position. + The Y position. + The translation matrix. + + + Returns a value that indicates whether this instance and another 3x2 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant for this matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + The multiplicative identify matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Represents a 4x4 matrix. + + + Creates a object from a specified object. + A 3x2 matrix. + + + Creates a 4x4 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the third element in the first row. + The value to assign to the fourth element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the third element in the second row. + The value to assign to the third element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + The value to assign to the third element in the third row. + The value to assign to the fourth element in the third row. + The value to assign to the first element in the fourth row. + The value to assign to the second element in the fourth row. + The value to assign to the third element in the fourth row. + The value to assign to the fourth element in the fourth row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a spherical billboard that rotates around a specified object position. + The position of the object that the billboard will rotate around. + The position of the camera. + The up vector of the camera. + The forward vector of the camera. + The created billboard. + + + Creates a cylindrical billboard that rotates around a specified axis. + The position of the object that the billboard will rotate around. + The position of the camera. + The axis to rotate the billboard around. + The forward vector of the camera. + The forward vector of the object. + The billboard matrix. + + + Creates a matrix that rotates around an arbitrary vector. + The axis to rotate around. + The angle to rotate around axis, in radians. + The rotation matrix. + + + Creates a rotation matrix from the specified Quaternion rotation value. + The source Quaternion. + The rotation matrix. + + + Creates a rotation matrix from the specified yaw, pitch, and roll. + The angle of rotation, in radians, around the Y axis. + The angle of rotation, in radians, around the X axis. + The angle of rotation, in radians, around the Z axis. + The rotation matrix. + + + Creates a view matrix. + The position of the camera. + The target towards which the camera is pointing. + The direction that is "up" from the camera's point of view. + The view matrix. + + + Creates an orthographic perspective matrix from the given view volume dimensions. + The width of the view volume. + The height of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a customized orthographic projection matrix. + The minimum X-value of the view volume. + The maximum X-value of the view volume. + The minimum Y-value of the view volume. + The maximum Y-value of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a perspective projection matrix from the given view volume dimensions. + The width of the view volume at the near view plane. + The height of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a perspective projection matrix based on a field of view, aspect ratio, and near and far view plane distances. + The field of view in the y direction, in radians. + The aspect ratio, defined as view space width divided by height. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + fieldOfView is less than or equal to zero. + -or- + fieldOfView is greater than or equal to . + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a customized perspective projection matrix. + The minimum x-value of the view volume at the near view plane. + The maximum x-value of the view volume at the near view plane. + The minimum y-value of the view volume at the near view plane. + The maximum y-value of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a matrix that reflects the coordinate system about a specified plane. + The plane about which to create a reflection. + A new matrix expressing the reflection. + + + Creates a matrix for rotating points around the X axis. + The amount, in radians, by which to rotate around the X axis. + The rotation matrix. + + + Creates a matrix for rotating points around the X axis from a center point. + The amount, in radians, by which to rotate around the X axis. + The center point. + The rotation matrix. + + + The amount, in radians, by which to rotate around the Y axis from a center point. + The amount, in radians, by which to rotate around the Y-axis. + The center point. + The rotation matrix. + + + Creates a matrix for rotating points around the Y axis. + The amount, in radians, by which to rotate around the Y-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis. + The amount, in radians, by which to rotate around the Z-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis from a center point. + The amount, in radians, by which to rotate around the Z-axis. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a uniform scaling matrix that scale equally on each axis. + The uniform scaling factor. + The scaling matrix. + + + Creates a scaling matrix with a center point. + The vector that contains the amount to scale on each axis. + The center point. + The scaling matrix. + + + Creates a uniform scaling matrix that scales equally on each axis with a center point. + The uniform scaling factor. + The center point. + The scaling matrix. + + + Creates a scaling matrix from the specified X, Y, and Z components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The center point. + The scaling matrix. + + + Creates a matrix that flattens geometry into a specified plane as if casting a shadow from a specified light source. + The direction from which the light that will cast the shadow is coming. + The plane onto which the new matrix should flatten geometry so as to cast a shadow. + A new matrix that can be used to flatten geometry onto the specified plane from the specified direction. + + + Creates a translation matrix from the specified 3-dimensional vector. + The amount to translate in each axis. + The translation matrix. + + + Creates a translation matrix from the specified X, Y, and Z components. + The amount to translate on the X axis. + The amount to translate on the Y axis. + The amount to translate on the Z axis. + The translation matrix. + + + Creates a world matrix with the specified parameters. + The position of the object. + The forward direction of the object. + The upward direction of the object. Its value is usually [0, 1, 0]. + The world matrix. + + + Attempts to extract the scale, translation, and rotation components from the given scale, rotation, or translation matrix. The return value indicates whether the operation succeeded. + The source matrix. + When this method returns, contains the scaling component of the transformation matrix if the operation succeeded. + When this method returns, contains the rotation component of the transformation matrix if the operation succeeded. + When the method returns, contains the translation component of the transformation matrix if the operation succeeded. + true if matrix was decomposed successfully; otherwise, false. + + + Returns a value that indicates whether this instance and another 4x4 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant of the current 4x4 matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + Gets the multiplicative identity matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The third element of the first row. + + + + The fourth element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The third element of the second row. + + + + The fourth element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + The third element of the third row. + + + + The fourth element of the third row. + + + + The first element of the fourth row. + + + + The second element of the fourth row. + + + + The third element of the fourth row. + + + + The fourth element of the fourth row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to care + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Transforms the specified matrix by applying the specified Quaternion rotation. + The matrix to transform. + The rotation t apply. + The transformed matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Transposes the rows and columns of a matrix. + The matrix to transpose. + The transposed matrix. + + + Represents a three-dimensional plane. + + + Creates a object from a specified four-dimensional vector. + A vector whose first three elements describe the normal vector, and whose defines the distance along that normal from the origin. + + + Creates a object from a specified normal and the distance along the normal from the origin. + The plane's normal vector. + The plane's distance from the origin along its normal vector. + + + Creates a object from the X, Y, and Z components of its normal, and its distance from the origin on that normal. + The X component of the normal. + The Y component of the normal. + The Z component of the normal. + The distance of the plane along its normal from the origin. + + + Creates a object that contains three specified points. + The first point defining the plane. + The second point defining the plane. + The third point defining the plane. + The plane containing the three points. + + + The distance of the plane along its normal from the origin. + + + + Calculates the dot product of a plane and a 4-dimensional vector. + The plane. + The four-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the normal vector of this plane plus the distance () value of the plane. + The plane. + The 3-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the vector of this plane. + The plane. + The three-dimensional vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another plane object are equal. + The other plane. + true if the two planes are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + The normal vector of the plane. + + + + Creates a new object whose normal vector is the source plane's normal vector normalized. + The source plane. + The normalized plane. + + + Returns a value that indicates whether two planes are equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether two planes are not equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the string representation of this plane object. + A string that represents this object. + + + Transforms a normalized plane by a 4x4 matrix. + The normalized plane to transform. + The transformation matrix to apply to plane. + The transformed plane. + + + Transforms a normalized plane by a Quaternion rotation. + The normalized plane to transform. + The Quaternion rotation to apply to the plane. + A new plane that results from applying the Quaternion rotation. + + + Represents a vector that is used to encode three-dimensional physical rotations. + + + Creates a quaternion from the specified vector and rotation parts. + The vector part of the quaternion. + The rotation part of the quaternion. + + + Constructs a quaternion from the specified components. + The value to assign to the X component of the quaternion. + The value to assign to the Y component of the quaternion. + The value to assign to the Z component of the quaternion. + The value to assign to the W component of the quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Concatenates two quaternions. + The first quaternion rotation in the series. + The second quaternion rotation in the series. + A new quaternion representing the concatenation of the value1 rotation followed by the value2 rotation. + + + Returns the conjugate of a specified quaternion. + The quaternion. + A new quaternion that is the conjugate of value. + + + Creates a quaternion from a vector and an angle to rotate about the vector. + The vector to rotate around. + The angle, in radians, to rotate around the vector. + The newly created quaternion. + + + Creates a quaternion from the specified rotation matrix. + The rotation matrix. + The newly created quaternion. + + + Creates a new quaternion from the given yaw, pitch, and roll. + The yaw angle, in radians, around the Y axis. + The pitch angle, in radians, around the X axis. + The roll angle, in radians, around the Z axis. + The resulting quaternion. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Calculates the dot product of two quaternions. + The first quaternion. + The second quaternion. + The dot product. + + + Returns a value that indicates whether this instance and another quaternion are equal. + The other quaternion. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Gets a quaternion that represents no rotation. + A quaternion whose values are (0, 0, 0, 1). + + + Returns the inverse of a quaternion. + The quaternion. + The inverted quaternion. + + + Gets a value that indicates whether the current instance is the identity quaternion. + true if the current instance is the identity quaternion; otherwise, false. + + + Calculates the length of the quaternion. + The computed length of the quaternion. + + + Calculates the squared length of the quaternion. + The length squared of the quaternion. + + + Performs a linear interpolation between two quaternions based on a value that specifies the weighting of the second quaternion. + The first quaternion. + The second quaternion. + The relative weight of quaternion2 in the interpolation. + The interpolated quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Divides each component of a specified by its length. + The quaternion to normalize. + The normalized quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Returns a value that indicates whether two quaternions are equal. + The first quaternion to compare. + The second quaternion to compare. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether two quaternions are not equal. + The first quaternion to compare. + The second quaternion to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Interpolates between two quaternions, using spherical linear interpolation. + The first quaternion. + The second quaternion. + The relative weight of the second quaternion in the interpolation. + The interpolated quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this quaternion. + The string representation of this quaternion. + + + The rotation component of the quaternion. + + + + The X value of the vector component of the quaternion. + + + + The Y value of the vector component of the quaternion. + + + + The Z value of the vector component of the quaternion. + + + + Represents a single vector of a specified numeric type that is suitable for low-level optimization of parallel algorithms. + The vector type. T can be any primitive numeric type. + + + Creates a vector whose components are of a specified type. + The numeric type that defines the type of the components in the vector. + + + Creates a vector from a specified array. + A numeric array. + values is null. + + + Creates a vector from a specified array starting at a specified index position. + A numeric array. + The starting index position from which to create the vector. + values is null. + index is less than zero. + -or- + The length of values minus index is less than . + + + Copies the vector instance to a specified destination array. + The array to receive a copy of the vector values. + destination is null. + The number of elements in the current vector is greater than the number of elements available in the destination array. + + + Copies the vector instance to a specified destination array starting at a specified index position. + The array to receive a copy of the vector values. + The starting index in destination at which to begin the copy operation. + destination is null. + The number of elements in the current instance is greater than the number of elements available from startIndex to the end of the destination array. + index is less than zero or greater than the last index in destination. + + + Returns the number of elements stored in the vector. + The number of elements stored in the vector. + Access to the property getter via reflection is not supported. + + + Returns a value that indicates whether this instance is equal to a specified vector. + The vector to compare with this instance. + true if the current instance and other are equal; otherwise, false. + + + Returns a value that indicates whether this instance is equal to a specified object. + The object to compare with this instance. + true if the current instance and obj are equal; otherwise, false. The method returns false if obj is null, or if obj is a vector of a different type than the current instance. + + + Returns the hash code for this instance. + The hash code. + + + Gets the element at a specified index. + The index of the element to return. + The element at index index. + index is less than zero. + -or- + index is greater than or equal to . + + + Returns a vector containing all ones. + A vector containing all ones. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Returns a new vector by performing a bitwise And operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise And of left and right. + + + Returns a new vector by performing a bitwise Or operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise Or of the elements in left and right. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Returns a value that indicates whether each pair of elements in two specified vectors are equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a new vector by performing a bitwise XOr operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise XOr of the elements in left and right. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Returns a value that indicates whether any single pair of elements in the specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if any element pairs in left and right are equal. false if no element pairs are equal. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar value. + The source vector. + A scalar value. + The scaled vector. + + + Multiplies a vector by the given scalar. + The scalar value. + The source vector. + The scaled vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The one's complement vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates a given vector. + The vector to negate. + The negated vector. + + + Returns the string representation of this vector using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Returns the string representation of this vector using default formatting. + The string representation of this vector. + + + Returns the string representation of this vector using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns a vector containing all zeroes. + A vector containing all zeroes. + + + Provides a collection of static convenience methods for creating, manipulating, combining, and converting generic vectors. + + + Returns a new vector whose elements are the absolute values of the given vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The absolute value vector. + + + Returns a new vector whose values are the sum of each pair of elements from two given vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The summed vector. + + + Returns a new vector by performing a bitwise And Not operation on each pair of corresponding elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a double-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of signed bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a single-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Returns a new vector by performing a bitwise And operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector by performing a bitwise Or operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Creates a new single-precision vector with elements selected between two specified single-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new double-precision vector with elements selected between two specified double-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new vector of a specified type with elements selected between two specified source vectors of the same type based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The vector type. T can be any primitive numeric type. + The new vector with elements selected based on the mask. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose values are the result of dividing the first vector's elements by the corresponding elements in the second vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The divided vector. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The dot product. + + + Returns a new integral vector whose elements signal whether the elements in two specified double-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified integral vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in two specified long integer vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified single-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in two specified vectors of the same type are equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether each pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left and right are equal; otherwise, false. + + + Returns a value that indicates whether any single pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element pair in left and right is equal; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are greater than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are greater than their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than their corresponding elements in the second vector of the same time. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the single-precision floating-point second vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than or equal to their corresponding elements in the second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than or equal to their corresponding elements in the second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than or equal to their corresponding elements in the second vector of the same type. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than or equal to all the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than or equal to the corresponding element in right; otherwise, false. + + + Gets a value that indicates whether vector operations are subject to hardware acceleration through JIT intrinsic support. + true if vector operations are subject to hardware acceleration; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision vector are less than their corresponding elements in a second single-precision vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in one vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all of the elements in the first vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than or equal to their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than or equal to their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less or equal to their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are less than or equal to their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than or equal to the corresponding element in right; otherwise, false. + + + Returns a new vector whose elements are the maximum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The maximum vector. + + + Returns a new vector whose elements are the minimum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The minimum vector. + + + Returns a new vector whose values are a scalar value multiplied by each of the values of a specified vector. + The scalar value. + The vector. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + Returns a new vector whose values are the product of each pair of elements in two specified vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The product vector. + + + Returns a new vector whose values are the values of a specified vector each multiplied by a scalar value. + The vector. + The scalar value. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose elements are the negation of the corresponding element in the specified vector. + The source vector. + The vector type. T can be any primitive numeric type. + The negated vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector whose elements are the square roots of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The square root vector. + + + Returns a new vector whose values are the difference between the elements in the second vector and their corresponding elements in the first vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The difference vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector by performing a bitwise exclusive Or (XOr) operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Represents a vector with two single-precision floating-point values. + + + Creates a new object whose two elements have the same value. + The value to assign to both elements. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of the vector. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 2 elements are equal to one. + A vector whose two elements are equal to one (that is, it returns the vector (1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 3x2 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 3x2 matrix. + The source vector. + The matrix. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0). + The vector (1,0). + + + Gets the vector (0,1). + The vector (0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + Returns a vector whose 2 elements are equal to zero. + A vector whose two elements are equal to zero (that is, it returns the vector (0,0). + + + Represents a vector with three single-precision floating-point values. + + + Creates a new object whose three elements have the same value. + The value to assign to all three elements. + + + Creates a new object from the specified object and the specified value. + The vector with two elements. + The additional value to assign to the field. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the cross product of two vectors. + The first vector. + The second vector. + The cross product. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 3 elements are equal to one. + A vector whose three elements are equal to one (that is, it returns the vector (1,1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0,0). + The vector (1,0,0). + + + Gets the vector (0,1,0). + The vector (0,1,0).. + + + Gets the vector (0,0,1). + The vector (0,0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 3 elements are equal to zero. + A vector whose three elements are equal to zero (that is, it returns the vector (0,0,0). + + + Represents a vector with four single-precision floating-point values. + + + Creates a new object whose four elements have the same value. + The value to assign to all four elements. + + + Constructs a new object from the specified object and a W component. + The vector to use for the X, Y, and Z components. + The W component. + + + Creates a new object from the specified object and a Z and a W component. + The vector to use for the X and Y components. + The Z component. + The W component. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 4 elements are equal to one. + Returns . + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a four-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a four-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a three-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a two-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a two-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a three-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Gets the vector (0,0,0,1). + The vector (0,0,0,1). + + + Gets the vector (1,0,0,0). + The vector (1,0,0,0). + + + Gets the vector (0,1,0,0). + The vector (0,1,0,0).. + + + Gets a vector whose 4 elements are equal to zero. + The vector (0,0,1,0). + + + The W component of the vector. + + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 4 elements are equal to zero. + A vector whose four elements are equal to zero (that is, it returns the vector (0,0,0,0). + + + \ No newline at end of file diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/uap10.0.16299/_._ b/packages/System.Numerics.Vectors.4.5.0/lib/uap10.0.16299/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/xamarinios10/_._ b/packages/System.Numerics.Vectors.4.5.0/lib/xamarinios10/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/xamarinmac20/_._ b/packages/System.Numerics.Vectors.4.5.0/lib/xamarinmac20/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/xamarintvos10/_._ b/packages/System.Numerics.Vectors.4.5.0/lib/xamarintvos10/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Numerics.Vectors.4.5.0/lib/xamarinwatchos10/_._ b/packages/System.Numerics.Vectors.4.5.0/lib/xamarinwatchos10/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/MonoAndroid10/_._ b/packages/System.Numerics.Vectors.4.5.0/ref/MonoAndroid10/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/MonoTouch10/_._ b/packages/System.Numerics.Vectors.4.5.0/ref/MonoTouch10/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/net45/System.Numerics.Vectors.dll b/packages/System.Numerics.Vectors.4.5.0/ref/net45/System.Numerics.Vectors.dll new file mode 100644 index 00000000..e237afb2 Binary files /dev/null and b/packages/System.Numerics.Vectors.4.5.0/ref/net45/System.Numerics.Vectors.dll differ diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/net45/System.Numerics.Vectors.xml b/packages/System.Numerics.Vectors.4.5.0/ref/net45/System.Numerics.Vectors.xml new file mode 100644 index 00000000..da34d390 --- /dev/null +++ b/packages/System.Numerics.Vectors.4.5.0/ref/net45/System.Numerics.Vectors.xml @@ -0,0 +1,2621 @@ + + + System.Numerics.Vectors + + + + Represents a 3x2 matrix. + + + Creates a 3x2 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a rotation matrix using the given rotation in radians. + The amount of rotation, in radians. + The rotation matrix. + + + Creates a rotation matrix using the specified rotation in radians and a center point. + The amount of rotation, in radians. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified X and Y components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the specified scale with an offset from the specified center. + The uniform scale to use. + The center offset. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The center point. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the given scale. + The uniform scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale with an offset from the specified center point. + The scale to use. + The center offset. + The scaling matrix. + + + Creates a skew matrix from the specified angles in radians. + The X angle, in radians. + The Y angle, in radians. + The skew matrix. + + + Creates a skew matrix from the specified angles in radians and a center point. + The X angle, in radians. + The Y angle, in radians. + The center point. + The skew matrix. + + + Creates a translation matrix from the specified 2-dimensional vector. + The translation position. + The translation matrix. + + + Creates a translation matrix from the specified X and Y components. + The X position. + The Y position. + The translation matrix. + + + Returns a value that indicates whether this instance and another 3x2 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant for this matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + The multiplicative identify matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Represents a 4x4 matrix. + + + Creates a object from a specified object. + A 3x2 matrix. + + + Creates a 4x4 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the third element in the first row. + The value to assign to the fourth element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the third element in the second row. + The value to assign to the third element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + The value to assign to the third element in the third row. + The value to assign to the fourth element in the third row. + The value to assign to the first element in the fourth row. + The value to assign to the second element in the fourth row. + The value to assign to the third element in the fourth row. + The value to assign to the fourth element in the fourth row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a spherical billboard that rotates around a specified object position. + The position of the object that the billboard will rotate around. + The position of the camera. + The up vector of the camera. + The forward vector of the camera. + The created billboard. + + + Creates a cylindrical billboard that rotates around a specified axis. + The position of the object that the billboard will rotate around. + The position of the camera. + The axis to rotate the billboard around. + The forward vector of the camera. + The forward vector of the object. + The billboard matrix. + + + Creates a matrix that rotates around an arbitrary vector. + The axis to rotate around. + The angle to rotate around axis, in radians. + The rotation matrix. + + + Creates a rotation matrix from the specified Quaternion rotation value. + The source Quaternion. + The rotation matrix. + + + Creates a rotation matrix from the specified yaw, pitch, and roll. + The angle of rotation, in radians, around the Y axis. + The angle of rotation, in radians, around the X axis. + The angle of rotation, in radians, around the Z axis. + The rotation matrix. + + + Creates a view matrix. + The position of the camera. + The target towards which the camera is pointing. + The direction that is "up" from the camera's point of view. + The view matrix. + + + Creates an orthographic perspective matrix from the given view volume dimensions. + The width of the view volume. + The height of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a customized orthographic projection matrix. + The minimum X-value of the view volume. + The maximum X-value of the view volume. + The minimum Y-value of the view volume. + The maximum Y-value of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a perspective projection matrix from the given view volume dimensions. + The width of the view volume at the near view plane. + The height of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a perspective projection matrix based on a field of view, aspect ratio, and near and far view plane distances. + The field of view in the y direction, in radians. + The aspect ratio, defined as view space width divided by height. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + fieldOfView is less than or equal to zero. + -or- + fieldOfView is greater than or equal to . + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a customized perspective projection matrix. + The minimum x-value of the view volume at the near view plane. + The maximum x-value of the view volume at the near view plane. + The minimum y-value of the view volume at the near view plane. + The maximum y-value of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a matrix that reflects the coordinate system about a specified plane. + The plane about which to create a reflection. + A new matrix expressing the reflection. + + + Creates a matrix for rotating points around the X axis. + The amount, in radians, by which to rotate around the X axis. + The rotation matrix. + + + Creates a matrix for rotating points around the X axis from a center point. + The amount, in radians, by which to rotate around the X axis. + The center point. + The rotation matrix. + + + The amount, in radians, by which to rotate around the Y axis from a center point. + The amount, in radians, by which to rotate around the Y-axis. + The center point. + The rotation matrix. + + + Creates a matrix for rotating points around the Y axis. + The amount, in radians, by which to rotate around the Y-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis. + The amount, in radians, by which to rotate around the Z-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis from a center point. + The amount, in radians, by which to rotate around the Z-axis. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a uniform scaling matrix that scale equally on each axis. + The uniform scaling factor. + The scaling matrix. + + + Creates a scaling matrix with a center point. + The vector that contains the amount to scale on each axis. + The center point. + The scaling matrix. + + + Creates a uniform scaling matrix that scales equally on each axis with a center point. + The uniform scaling factor. + The center point. + The scaling matrix. + + + Creates a scaling matrix from the specified X, Y, and Z components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The center point. + The scaling matrix. + + + Creates a matrix that flattens geometry into a specified plane as if casting a shadow from a specified light source. + The direction from which the light that will cast the shadow is coming. + The plane onto which the new matrix should flatten geometry so as to cast a shadow. + A new matrix that can be used to flatten geometry onto the specified plane from the specified direction. + + + Creates a translation matrix from the specified 3-dimensional vector. + The amount to translate in each axis. + The translation matrix. + + + Creates a translation matrix from the specified X, Y, and Z components. + The amount to translate on the X axis. + The amount to translate on the Y axis. + The amount to translate on the Z axis. + The translation matrix. + + + Creates a world matrix with the specified parameters. + The position of the object. + The forward direction of the object. + The upward direction of the object. Its value is usually [0, 1, 0]. + The world matrix. + + + Attempts to extract the scale, translation, and rotation components from the given scale, rotation, or translation matrix. The return value indicates whether the operation succeeded. + The source matrix. + When this method returns, contains the scaling component of the transformation matrix if the operation succeeded. + When this method returns, contains the rotation component of the transformation matrix if the operation succeeded. + When the method returns, contains the translation component of the transformation matrix if the operation succeeded. + true if matrix was decomposed successfully; otherwise, false. + + + Returns a value that indicates whether this instance and another 4x4 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant of the current 4x4 matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + Gets the multiplicative identity matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The third element of the first row. + + + + The fourth element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The third element of the second row. + + + + The fourth element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + The third element of the third row. + + + + The fourth element of the third row. + + + + The first element of the fourth row. + + + + The second element of the fourth row. + + + + The third element of the fourth row. + + + + The fourth element of the fourth row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to care + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Transforms the specified matrix by applying the specified Quaternion rotation. + The matrix to transform. + The rotation t apply. + The transformed matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Transposes the rows and columns of a matrix. + The matrix to transpose. + The transposed matrix. + + + Represents a three-dimensional plane. + + + Creates a object from a specified four-dimensional vector. + A vector whose first three elements describe the normal vector, and whose defines the distance along that normal from the origin. + + + Creates a object from a specified normal and the distance along the normal from the origin. + The plane's normal vector. + The plane's distance from the origin along its normal vector. + + + Creates a object from the X, Y, and Z components of its normal, and its distance from the origin on that normal. + The X component of the normal. + The Y component of the normal. + The Z component of the normal. + The distance of the plane along its normal from the origin. + + + Creates a object that contains three specified points. + The first point defining the plane. + The second point defining the plane. + The third point defining the plane. + The plane containing the three points. + + + The distance of the plane along its normal from the origin. + + + + Calculates the dot product of a plane and a 4-dimensional vector. + The plane. + The four-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the normal vector of this plane plus the distance () value of the plane. + The plane. + The 3-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the vector of this plane. + The plane. + The three-dimensional vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another plane object are equal. + The other plane. + true if the two planes are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + The normal vector of the plane. + + + + Creates a new object whose normal vector is the source plane's normal vector normalized. + The source plane. + The normalized plane. + + + Returns a value that indicates whether two planes are equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether two planes are not equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the string representation of this plane object. + A string that represents this object. + + + Transforms a normalized plane by a 4x4 matrix. + The normalized plane to transform. + The transformation matrix to apply to plane. + The transformed plane. + + + Transforms a normalized plane by a Quaternion rotation. + The normalized plane to transform. + The Quaternion rotation to apply to the plane. + A new plane that results from applying the Quaternion rotation. + + + Represents a vector that is used to encode three-dimensional physical rotations. + + + Creates a quaternion from the specified vector and rotation parts. + The vector part of the quaternion. + The rotation part of the quaternion. + + + Constructs a quaternion from the specified components. + The value to assign to the X component of the quaternion. + The value to assign to the Y component of the quaternion. + The value to assign to the Z component of the quaternion. + The value to assign to the W component of the quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Concatenates two quaternions. + The first quaternion rotation in the series. + The second quaternion rotation in the series. + A new quaternion representing the concatenation of the value1 rotation followed by the value2 rotation. + + + Returns the conjugate of a specified quaternion. + The quaternion. + A new quaternion that is the conjugate of value. + + + Creates a quaternion from a vector and an angle to rotate about the vector. + The vector to rotate around. + The angle, in radians, to rotate around the vector. + The newly created quaternion. + + + Creates a quaternion from the specified rotation matrix. + The rotation matrix. + The newly created quaternion. + + + Creates a new quaternion from the given yaw, pitch, and roll. + The yaw angle, in radians, around the Y axis. + The pitch angle, in radians, around the X axis. + The roll angle, in radians, around the Z axis. + The resulting quaternion. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Calculates the dot product of two quaternions. + The first quaternion. + The second quaternion. + The dot product. + + + Returns a value that indicates whether this instance and another quaternion are equal. + The other quaternion. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Gets a quaternion that represents no rotation. + A quaternion whose values are (0, 0, 0, 1). + + + Returns the inverse of a quaternion. + The quaternion. + The inverted quaternion. + + + Gets a value that indicates whether the current instance is the identity quaternion. + true if the current instance is the identity quaternion; otherwise, false. + + + Calculates the length of the quaternion. + The computed length of the quaternion. + + + Calculates the squared length of the quaternion. + The length squared of the quaternion. + + + Performs a linear interpolation between two quaternions based on a value that specifies the weighting of the second quaternion. + The first quaternion. + The second quaternion. + The relative weight of quaternion2 in the interpolation. + The interpolated quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Divides each component of a specified by its length. + The quaternion to normalize. + The normalized quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Returns a value that indicates whether two quaternions are equal. + The first quaternion to compare. + The second quaternion to compare. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether two quaternions are not equal. + The first quaternion to compare. + The second quaternion to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Interpolates between two quaternions, using spherical linear interpolation. + The first quaternion. + The second quaternion. + The relative weight of the second quaternion in the interpolation. + The interpolated quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this quaternion. + The string representation of this quaternion. + + + The rotation component of the quaternion. + + + + The X value of the vector component of the quaternion. + + + + The Y value of the vector component of the quaternion. + + + + The Z value of the vector component of the quaternion. + + + + Represents a single vector of a specified numeric type that is suitable for low-level optimization of parallel algorithms. + The vector type. T can be any primitive numeric type. + + + Creates a vector whose components are of a specified type. + The numeric type that defines the type of the components in the vector. + + + Creates a vector from a specified array. + A numeric array. + values is null. + + + Creates a vector from a specified array starting at a specified index position. + A numeric array. + The starting index position from which to create the vector. + values is null. + index is less than zero. + -or- + The length of values minus index is less than . + + + Copies the vector instance to a specified destination array. + The array to receive a copy of the vector values. + destination is null. + The number of elements in the current vector is greater than the number of elements available in the destination array. + + + Copies the vector instance to a specified destination array starting at a specified index position. + The array to receive a copy of the vector values. + The starting index in destination at which to begin the copy operation. + destination is null. + The number of elements in the current instance is greater than the number of elements available from startIndex to the end of the destination array. + index is less than zero or greater than the last index in destination. + + + Returns the number of elements stored in the vector. + The number of elements stored in the vector. + Access to the property getter via reflection is not supported. + + + Returns a value that indicates whether this instance is equal to a specified vector. + The vector to compare with this instance. + true if the current instance and other are equal; otherwise, false. + + + Returns a value that indicates whether this instance is equal to a specified object. + The object to compare with this instance. + true if the current instance and obj are equal; otherwise, false. The method returns false if obj is null, or if obj is a vector of a different type than the current instance. + + + Returns the hash code for this instance. + The hash code. + + + Gets the element at a specified index. + The index of the element to return. + The element at index index. + index is less than zero. + -or- + index is greater than or equal to . + + + Returns a vector containing all ones. + A vector containing all ones. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Returns a new vector by performing a bitwise And operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise And of left and right. + + + Returns a new vector by performing a bitwise Or operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise Or of the elements in left and right. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Returns a value that indicates whether each pair of elements in two specified vectors are equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a new vector by performing a bitwise XOr operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise XOr of the elements in left and right. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Returns a value that indicates whether any single pair of elements in the specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if any element pairs in left and right are equal. false if no element pairs are equal. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar value. + The source vector. + A scalar value. + The scaled vector. + + + Multiplies a vector by the given scalar. + The scalar value. + The source vector. + The scaled vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The one's complement vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates a given vector. + The vector to negate. + The negated vector. + + + Returns the string representation of this vector using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Returns the string representation of this vector using default formatting. + The string representation of this vector. + + + Returns the string representation of this vector using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns a vector containing all zeroes. + A vector containing all zeroes. + + + Provides a collection of static convenience methods for creating, manipulating, combining, and converting generic vectors. + + + Returns a new vector whose elements are the absolute values of the given vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The absolute value vector. + + + Returns a new vector whose values are the sum of each pair of elements from two given vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The summed vector. + + + Returns a new vector by performing a bitwise And Not operation on each pair of corresponding elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a double-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of signed bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a single-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Returns a new vector by performing a bitwise And operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector by performing a bitwise Or operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Creates a new single-precision vector with elements selected between two specified single-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new double-precision vector with elements selected between two specified double-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new vector of a specified type with elements selected between two specified source vectors of the same type based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The vector type. T can be any primitive numeric type. + The new vector with elements selected based on the mask. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose values are the result of dividing the first vector's elements by the corresponding elements in the second vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The divided vector. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The dot product. + + + Returns a new integral vector whose elements signal whether the elements in two specified double-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified integral vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in two specified long integer vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified single-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in two specified vectors of the same type are equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether each pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left and right are equal; otherwise, false. + + + Returns a value that indicates whether any single pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element pair in left and right is equal; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are greater than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are greater than their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than their corresponding elements in the second vector of the same time. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the single-precision floating-point second vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than or equal to their corresponding elements in the second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than or equal to their corresponding elements in the second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than or equal to their corresponding elements in the second vector of the same type. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than or equal to all the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than or equal to the corresponding element in right; otherwise, false. + + + Gets a value that indicates whether vector operations are subject to hardware acceleration through JIT intrinsic support. + true if vector operations are subject to hardware acceleration; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision vector are less than their corresponding elements in a second single-precision vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in one vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all of the elements in the first vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than or equal to their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than or equal to their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less or equal to their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are less than or equal to their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than or equal to the corresponding element in right; otherwise, false. + + + Returns a new vector whose elements are the maximum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The maximum vector. + + + Returns a new vector whose elements are the minimum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The minimum vector. + + + Returns a new vector whose values are a scalar value multiplied by each of the values of a specified vector. + The scalar value. + The vector. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + Returns a new vector whose values are the product of each pair of elements in two specified vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The product vector. + + + Returns a new vector whose values are the values of a specified vector each multiplied by a scalar value. + The vector. + The scalar value. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose elements are the negation of the corresponding element in the specified vector. + The source vector. + The vector type. T can be any primitive numeric type. + The negated vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector whose elements are the square roots of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The square root vector. + + + Returns a new vector whose values are the difference between the elements in the second vector and their corresponding elements in the first vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The difference vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector by performing a bitwise exclusive Or (XOr) operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Represents a vector with two single-precision floating-point values. + + + Creates a new object whose two elements have the same value. + The value to assign to both elements. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of the vector. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 2 elements are equal to one. + A vector whose two elements are equal to one (that is, it returns the vector (1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 3x2 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 3x2 matrix. + The source vector. + The matrix. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0). + The vector (1,0). + + + Gets the vector (0,1). + The vector (0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + Returns a vector whose 2 elements are equal to zero. + A vector whose two elements are equal to zero (that is, it returns the vector (0,0). + + + Represents a vector with three single-precision floating-point values. + + + Creates a new object whose three elements have the same value. + The value to assign to all three elements. + + + Creates a new object from the specified object and the specified value. + The vector with two elements. + The additional value to assign to the field. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the cross product of two vectors. + The first vector. + The second vector. + The cross product. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 3 elements are equal to one. + A vector whose three elements are equal to one (that is, it returns the vector (1,1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0,0). + The vector (1,0,0). + + + Gets the vector (0,1,0). + The vector (0,1,0).. + + + Gets the vector (0,0,1). + The vector (0,0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 3 elements are equal to zero. + A vector whose three elements are equal to zero (that is, it returns the vector (0,0,0). + + + Represents a vector with four single-precision floating-point values. + + + Creates a new object whose four elements have the same value. + The value to assign to all four elements. + + + Constructs a new object from the specified object and a W component. + The vector to use for the X, Y, and Z components. + The W component. + + + Creates a new object from the specified object and a Z and a W component. + The vector to use for the X and Y components. + The Z component. + The W component. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 4 elements are equal to one. + Returns . + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a four-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a four-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a three-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a two-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a two-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a three-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Gets the vector (0,0,0,1). + The vector (0,0,0,1). + + + Gets the vector (1,0,0,0). + The vector (1,0,0,0). + + + Gets the vector (0,1,0,0). + The vector (0,1,0,0).. + + + Gets a vector whose 4 elements are equal to zero. + The vector (0,0,1,0). + + + The W component of the vector. + + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 4 elements are equal to zero. + A vector whose four elements are equal to zero (that is, it returns the vector (0,0,0,0). + + + \ No newline at end of file diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/net46/System.Numerics.Vectors.dll b/packages/System.Numerics.Vectors.4.5.0/ref/net46/System.Numerics.Vectors.dll new file mode 100644 index 00000000..470f2f39 Binary files /dev/null and b/packages/System.Numerics.Vectors.4.5.0/ref/net46/System.Numerics.Vectors.dll differ diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/net46/System.Numerics.Vectors.xml b/packages/System.Numerics.Vectors.4.5.0/ref/net46/System.Numerics.Vectors.xml new file mode 100644 index 00000000..da34d390 --- /dev/null +++ b/packages/System.Numerics.Vectors.4.5.0/ref/net46/System.Numerics.Vectors.xml @@ -0,0 +1,2621 @@ + + + System.Numerics.Vectors + + + + Represents a 3x2 matrix. + + + Creates a 3x2 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a rotation matrix using the given rotation in radians. + The amount of rotation, in radians. + The rotation matrix. + + + Creates a rotation matrix using the specified rotation in radians and a center point. + The amount of rotation, in radians. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified X and Y components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the specified scale with an offset from the specified center. + The uniform scale to use. + The center offset. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The center point. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the given scale. + The uniform scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale with an offset from the specified center point. + The scale to use. + The center offset. + The scaling matrix. + + + Creates a skew matrix from the specified angles in radians. + The X angle, in radians. + The Y angle, in radians. + The skew matrix. + + + Creates a skew matrix from the specified angles in radians and a center point. + The X angle, in radians. + The Y angle, in radians. + The center point. + The skew matrix. + + + Creates a translation matrix from the specified 2-dimensional vector. + The translation position. + The translation matrix. + + + Creates a translation matrix from the specified X and Y components. + The X position. + The Y position. + The translation matrix. + + + Returns a value that indicates whether this instance and another 3x2 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant for this matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + The multiplicative identify matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Represents a 4x4 matrix. + + + Creates a object from a specified object. + A 3x2 matrix. + + + Creates a 4x4 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the third element in the first row. + The value to assign to the fourth element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the third element in the second row. + The value to assign to the third element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + The value to assign to the third element in the third row. + The value to assign to the fourth element in the third row. + The value to assign to the first element in the fourth row. + The value to assign to the second element in the fourth row. + The value to assign to the third element in the fourth row. + The value to assign to the fourth element in the fourth row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a spherical billboard that rotates around a specified object position. + The position of the object that the billboard will rotate around. + The position of the camera. + The up vector of the camera. + The forward vector of the camera. + The created billboard. + + + Creates a cylindrical billboard that rotates around a specified axis. + The position of the object that the billboard will rotate around. + The position of the camera. + The axis to rotate the billboard around. + The forward vector of the camera. + The forward vector of the object. + The billboard matrix. + + + Creates a matrix that rotates around an arbitrary vector. + The axis to rotate around. + The angle to rotate around axis, in radians. + The rotation matrix. + + + Creates a rotation matrix from the specified Quaternion rotation value. + The source Quaternion. + The rotation matrix. + + + Creates a rotation matrix from the specified yaw, pitch, and roll. + The angle of rotation, in radians, around the Y axis. + The angle of rotation, in radians, around the X axis. + The angle of rotation, in radians, around the Z axis. + The rotation matrix. + + + Creates a view matrix. + The position of the camera. + The target towards which the camera is pointing. + The direction that is "up" from the camera's point of view. + The view matrix. + + + Creates an orthographic perspective matrix from the given view volume dimensions. + The width of the view volume. + The height of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a customized orthographic projection matrix. + The minimum X-value of the view volume. + The maximum X-value of the view volume. + The minimum Y-value of the view volume. + The maximum Y-value of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a perspective projection matrix from the given view volume dimensions. + The width of the view volume at the near view plane. + The height of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a perspective projection matrix based on a field of view, aspect ratio, and near and far view plane distances. + The field of view in the y direction, in radians. + The aspect ratio, defined as view space width divided by height. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + fieldOfView is less than or equal to zero. + -or- + fieldOfView is greater than or equal to . + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a customized perspective projection matrix. + The minimum x-value of the view volume at the near view plane. + The maximum x-value of the view volume at the near view plane. + The minimum y-value of the view volume at the near view plane. + The maximum y-value of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a matrix that reflects the coordinate system about a specified plane. + The plane about which to create a reflection. + A new matrix expressing the reflection. + + + Creates a matrix for rotating points around the X axis. + The amount, in radians, by which to rotate around the X axis. + The rotation matrix. + + + Creates a matrix for rotating points around the X axis from a center point. + The amount, in radians, by which to rotate around the X axis. + The center point. + The rotation matrix. + + + The amount, in radians, by which to rotate around the Y axis from a center point. + The amount, in radians, by which to rotate around the Y-axis. + The center point. + The rotation matrix. + + + Creates a matrix for rotating points around the Y axis. + The amount, in radians, by which to rotate around the Y-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis. + The amount, in radians, by which to rotate around the Z-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis from a center point. + The amount, in radians, by which to rotate around the Z-axis. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a uniform scaling matrix that scale equally on each axis. + The uniform scaling factor. + The scaling matrix. + + + Creates a scaling matrix with a center point. + The vector that contains the amount to scale on each axis. + The center point. + The scaling matrix. + + + Creates a uniform scaling matrix that scales equally on each axis with a center point. + The uniform scaling factor. + The center point. + The scaling matrix. + + + Creates a scaling matrix from the specified X, Y, and Z components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The center point. + The scaling matrix. + + + Creates a matrix that flattens geometry into a specified plane as if casting a shadow from a specified light source. + The direction from which the light that will cast the shadow is coming. + The plane onto which the new matrix should flatten geometry so as to cast a shadow. + A new matrix that can be used to flatten geometry onto the specified plane from the specified direction. + + + Creates a translation matrix from the specified 3-dimensional vector. + The amount to translate in each axis. + The translation matrix. + + + Creates a translation matrix from the specified X, Y, and Z components. + The amount to translate on the X axis. + The amount to translate on the Y axis. + The amount to translate on the Z axis. + The translation matrix. + + + Creates a world matrix with the specified parameters. + The position of the object. + The forward direction of the object. + The upward direction of the object. Its value is usually [0, 1, 0]. + The world matrix. + + + Attempts to extract the scale, translation, and rotation components from the given scale, rotation, or translation matrix. The return value indicates whether the operation succeeded. + The source matrix. + When this method returns, contains the scaling component of the transformation matrix if the operation succeeded. + When this method returns, contains the rotation component of the transformation matrix if the operation succeeded. + When the method returns, contains the translation component of the transformation matrix if the operation succeeded. + true if matrix was decomposed successfully; otherwise, false. + + + Returns a value that indicates whether this instance and another 4x4 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant of the current 4x4 matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + Gets the multiplicative identity matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The third element of the first row. + + + + The fourth element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The third element of the second row. + + + + The fourth element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + The third element of the third row. + + + + The fourth element of the third row. + + + + The first element of the fourth row. + + + + The second element of the fourth row. + + + + The third element of the fourth row. + + + + The fourth element of the fourth row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to care + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Transforms the specified matrix by applying the specified Quaternion rotation. + The matrix to transform. + The rotation t apply. + The transformed matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Transposes the rows and columns of a matrix. + The matrix to transpose. + The transposed matrix. + + + Represents a three-dimensional plane. + + + Creates a object from a specified four-dimensional vector. + A vector whose first three elements describe the normal vector, and whose defines the distance along that normal from the origin. + + + Creates a object from a specified normal and the distance along the normal from the origin. + The plane's normal vector. + The plane's distance from the origin along its normal vector. + + + Creates a object from the X, Y, and Z components of its normal, and its distance from the origin on that normal. + The X component of the normal. + The Y component of the normal. + The Z component of the normal. + The distance of the plane along its normal from the origin. + + + Creates a object that contains three specified points. + The first point defining the plane. + The second point defining the plane. + The third point defining the plane. + The plane containing the three points. + + + The distance of the plane along its normal from the origin. + + + + Calculates the dot product of a plane and a 4-dimensional vector. + The plane. + The four-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the normal vector of this plane plus the distance () value of the plane. + The plane. + The 3-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the vector of this plane. + The plane. + The three-dimensional vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another plane object are equal. + The other plane. + true if the two planes are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + The normal vector of the plane. + + + + Creates a new object whose normal vector is the source plane's normal vector normalized. + The source plane. + The normalized plane. + + + Returns a value that indicates whether two planes are equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether two planes are not equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the string representation of this plane object. + A string that represents this object. + + + Transforms a normalized plane by a 4x4 matrix. + The normalized plane to transform. + The transformation matrix to apply to plane. + The transformed plane. + + + Transforms a normalized plane by a Quaternion rotation. + The normalized plane to transform. + The Quaternion rotation to apply to the plane. + A new plane that results from applying the Quaternion rotation. + + + Represents a vector that is used to encode three-dimensional physical rotations. + + + Creates a quaternion from the specified vector and rotation parts. + The vector part of the quaternion. + The rotation part of the quaternion. + + + Constructs a quaternion from the specified components. + The value to assign to the X component of the quaternion. + The value to assign to the Y component of the quaternion. + The value to assign to the Z component of the quaternion. + The value to assign to the W component of the quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Concatenates two quaternions. + The first quaternion rotation in the series. + The second quaternion rotation in the series. + A new quaternion representing the concatenation of the value1 rotation followed by the value2 rotation. + + + Returns the conjugate of a specified quaternion. + The quaternion. + A new quaternion that is the conjugate of value. + + + Creates a quaternion from a vector and an angle to rotate about the vector. + The vector to rotate around. + The angle, in radians, to rotate around the vector. + The newly created quaternion. + + + Creates a quaternion from the specified rotation matrix. + The rotation matrix. + The newly created quaternion. + + + Creates a new quaternion from the given yaw, pitch, and roll. + The yaw angle, in radians, around the Y axis. + The pitch angle, in radians, around the X axis. + The roll angle, in radians, around the Z axis. + The resulting quaternion. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Calculates the dot product of two quaternions. + The first quaternion. + The second quaternion. + The dot product. + + + Returns a value that indicates whether this instance and another quaternion are equal. + The other quaternion. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Gets a quaternion that represents no rotation. + A quaternion whose values are (0, 0, 0, 1). + + + Returns the inverse of a quaternion. + The quaternion. + The inverted quaternion. + + + Gets a value that indicates whether the current instance is the identity quaternion. + true if the current instance is the identity quaternion; otherwise, false. + + + Calculates the length of the quaternion. + The computed length of the quaternion. + + + Calculates the squared length of the quaternion. + The length squared of the quaternion. + + + Performs a linear interpolation between two quaternions based on a value that specifies the weighting of the second quaternion. + The first quaternion. + The second quaternion. + The relative weight of quaternion2 in the interpolation. + The interpolated quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Divides each component of a specified by its length. + The quaternion to normalize. + The normalized quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Returns a value that indicates whether two quaternions are equal. + The first quaternion to compare. + The second quaternion to compare. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether two quaternions are not equal. + The first quaternion to compare. + The second quaternion to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Interpolates between two quaternions, using spherical linear interpolation. + The first quaternion. + The second quaternion. + The relative weight of the second quaternion in the interpolation. + The interpolated quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this quaternion. + The string representation of this quaternion. + + + The rotation component of the quaternion. + + + + The X value of the vector component of the quaternion. + + + + The Y value of the vector component of the quaternion. + + + + The Z value of the vector component of the quaternion. + + + + Represents a single vector of a specified numeric type that is suitable for low-level optimization of parallel algorithms. + The vector type. T can be any primitive numeric type. + + + Creates a vector whose components are of a specified type. + The numeric type that defines the type of the components in the vector. + + + Creates a vector from a specified array. + A numeric array. + values is null. + + + Creates a vector from a specified array starting at a specified index position. + A numeric array. + The starting index position from which to create the vector. + values is null. + index is less than zero. + -or- + The length of values minus index is less than . + + + Copies the vector instance to a specified destination array. + The array to receive a copy of the vector values. + destination is null. + The number of elements in the current vector is greater than the number of elements available in the destination array. + + + Copies the vector instance to a specified destination array starting at a specified index position. + The array to receive a copy of the vector values. + The starting index in destination at which to begin the copy operation. + destination is null. + The number of elements in the current instance is greater than the number of elements available from startIndex to the end of the destination array. + index is less than zero or greater than the last index in destination. + + + Returns the number of elements stored in the vector. + The number of elements stored in the vector. + Access to the property getter via reflection is not supported. + + + Returns a value that indicates whether this instance is equal to a specified vector. + The vector to compare with this instance. + true if the current instance and other are equal; otherwise, false. + + + Returns a value that indicates whether this instance is equal to a specified object. + The object to compare with this instance. + true if the current instance and obj are equal; otherwise, false. The method returns false if obj is null, or if obj is a vector of a different type than the current instance. + + + Returns the hash code for this instance. + The hash code. + + + Gets the element at a specified index. + The index of the element to return. + The element at index index. + index is less than zero. + -or- + index is greater than or equal to . + + + Returns a vector containing all ones. + A vector containing all ones. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Returns a new vector by performing a bitwise And operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise And of left and right. + + + Returns a new vector by performing a bitwise Or operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise Or of the elements in left and right. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Returns a value that indicates whether each pair of elements in two specified vectors are equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a new vector by performing a bitwise XOr operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise XOr of the elements in left and right. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Returns a value that indicates whether any single pair of elements in the specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if any element pairs in left and right are equal. false if no element pairs are equal. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar value. + The source vector. + A scalar value. + The scaled vector. + + + Multiplies a vector by the given scalar. + The scalar value. + The source vector. + The scaled vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The one's complement vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates a given vector. + The vector to negate. + The negated vector. + + + Returns the string representation of this vector using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Returns the string representation of this vector using default formatting. + The string representation of this vector. + + + Returns the string representation of this vector using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns a vector containing all zeroes. + A vector containing all zeroes. + + + Provides a collection of static convenience methods for creating, manipulating, combining, and converting generic vectors. + + + Returns a new vector whose elements are the absolute values of the given vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The absolute value vector. + + + Returns a new vector whose values are the sum of each pair of elements from two given vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The summed vector. + + + Returns a new vector by performing a bitwise And Not operation on each pair of corresponding elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a double-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of signed bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a single-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Returns a new vector by performing a bitwise And operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector by performing a bitwise Or operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Creates a new single-precision vector with elements selected between two specified single-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new double-precision vector with elements selected between two specified double-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new vector of a specified type with elements selected between two specified source vectors of the same type based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The vector type. T can be any primitive numeric type. + The new vector with elements selected based on the mask. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose values are the result of dividing the first vector's elements by the corresponding elements in the second vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The divided vector. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The dot product. + + + Returns a new integral vector whose elements signal whether the elements in two specified double-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified integral vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in two specified long integer vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified single-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in two specified vectors of the same type are equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether each pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left and right are equal; otherwise, false. + + + Returns a value that indicates whether any single pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element pair in left and right is equal; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are greater than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are greater than their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than their corresponding elements in the second vector of the same time. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the single-precision floating-point second vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than or equal to their corresponding elements in the second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than or equal to their corresponding elements in the second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than or equal to their corresponding elements in the second vector of the same type. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than or equal to all the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than or equal to the corresponding element in right; otherwise, false. + + + Gets a value that indicates whether vector operations are subject to hardware acceleration through JIT intrinsic support. + true if vector operations are subject to hardware acceleration; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision vector are less than their corresponding elements in a second single-precision vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in one vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all of the elements in the first vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than or equal to their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than or equal to their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less or equal to their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are less than or equal to their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than or equal to the corresponding element in right; otherwise, false. + + + Returns a new vector whose elements are the maximum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The maximum vector. + + + Returns a new vector whose elements are the minimum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The minimum vector. + + + Returns a new vector whose values are a scalar value multiplied by each of the values of a specified vector. + The scalar value. + The vector. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + Returns a new vector whose values are the product of each pair of elements in two specified vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The product vector. + + + Returns a new vector whose values are the values of a specified vector each multiplied by a scalar value. + The vector. + The scalar value. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose elements are the negation of the corresponding element in the specified vector. + The source vector. + The vector type. T can be any primitive numeric type. + The negated vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector whose elements are the square roots of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The square root vector. + + + Returns a new vector whose values are the difference between the elements in the second vector and their corresponding elements in the first vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The difference vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector by performing a bitwise exclusive Or (XOr) operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Represents a vector with two single-precision floating-point values. + + + Creates a new object whose two elements have the same value. + The value to assign to both elements. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of the vector. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 2 elements are equal to one. + A vector whose two elements are equal to one (that is, it returns the vector (1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 3x2 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 3x2 matrix. + The source vector. + The matrix. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0). + The vector (1,0). + + + Gets the vector (0,1). + The vector (0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + Returns a vector whose 2 elements are equal to zero. + A vector whose two elements are equal to zero (that is, it returns the vector (0,0). + + + Represents a vector with three single-precision floating-point values. + + + Creates a new object whose three elements have the same value. + The value to assign to all three elements. + + + Creates a new object from the specified object and the specified value. + The vector with two elements. + The additional value to assign to the field. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the cross product of two vectors. + The first vector. + The second vector. + The cross product. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 3 elements are equal to one. + A vector whose three elements are equal to one (that is, it returns the vector (1,1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0,0). + The vector (1,0,0). + + + Gets the vector (0,1,0). + The vector (0,1,0).. + + + Gets the vector (0,0,1). + The vector (0,0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 3 elements are equal to zero. + A vector whose three elements are equal to zero (that is, it returns the vector (0,0,0). + + + Represents a vector with four single-precision floating-point values. + + + Creates a new object whose four elements have the same value. + The value to assign to all four elements. + + + Constructs a new object from the specified object and a W component. + The vector to use for the X, Y, and Z components. + The W component. + + + Creates a new object from the specified object and a Z and a W component. + The vector to use for the X and Y components. + The Z component. + The W component. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 4 elements are equal to one. + Returns . + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a four-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a four-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a three-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a two-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a two-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a three-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Gets the vector (0,0,0,1). + The vector (0,0,0,1). + + + Gets the vector (1,0,0,0). + The vector (1,0,0,0). + + + Gets the vector (0,1,0,0). + The vector (0,1,0,0).. + + + Gets a vector whose 4 elements are equal to zero. + The vector (0,0,1,0). + + + The W component of the vector. + + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 4 elements are equal to zero. + A vector whose four elements are equal to zero (that is, it returns the vector (0,0,0,0). + + + \ No newline at end of file diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/netcoreapp2.0/_._ b/packages/System.Numerics.Vectors.4.5.0/ref/netcoreapp2.0/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/netstandard1.0/System.Numerics.Vectors.dll b/packages/System.Numerics.Vectors.4.5.0/ref/netstandard1.0/System.Numerics.Vectors.dll new file mode 100644 index 00000000..d174da04 Binary files /dev/null and b/packages/System.Numerics.Vectors.4.5.0/ref/netstandard1.0/System.Numerics.Vectors.dll differ diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/netstandard1.0/System.Numerics.Vectors.xml b/packages/System.Numerics.Vectors.4.5.0/ref/netstandard1.0/System.Numerics.Vectors.xml new file mode 100644 index 00000000..da34d390 --- /dev/null +++ b/packages/System.Numerics.Vectors.4.5.0/ref/netstandard1.0/System.Numerics.Vectors.xml @@ -0,0 +1,2621 @@ + + + System.Numerics.Vectors + + + + Represents a 3x2 matrix. + + + Creates a 3x2 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a rotation matrix using the given rotation in radians. + The amount of rotation, in radians. + The rotation matrix. + + + Creates a rotation matrix using the specified rotation in radians and a center point. + The amount of rotation, in radians. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified X and Y components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the specified scale with an offset from the specified center. + The uniform scale to use. + The center offset. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The center point. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the given scale. + The uniform scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale with an offset from the specified center point. + The scale to use. + The center offset. + The scaling matrix. + + + Creates a skew matrix from the specified angles in radians. + The X angle, in radians. + The Y angle, in radians. + The skew matrix. + + + Creates a skew matrix from the specified angles in radians and a center point. + The X angle, in radians. + The Y angle, in radians. + The center point. + The skew matrix. + + + Creates a translation matrix from the specified 2-dimensional vector. + The translation position. + The translation matrix. + + + Creates a translation matrix from the specified X and Y components. + The X position. + The Y position. + The translation matrix. + + + Returns a value that indicates whether this instance and another 3x2 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant for this matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + The multiplicative identify matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Represents a 4x4 matrix. + + + Creates a object from a specified object. + A 3x2 matrix. + + + Creates a 4x4 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the third element in the first row. + The value to assign to the fourth element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the third element in the second row. + The value to assign to the third element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + The value to assign to the third element in the third row. + The value to assign to the fourth element in the third row. + The value to assign to the first element in the fourth row. + The value to assign to the second element in the fourth row. + The value to assign to the third element in the fourth row. + The value to assign to the fourth element in the fourth row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a spherical billboard that rotates around a specified object position. + The position of the object that the billboard will rotate around. + The position of the camera. + The up vector of the camera. + The forward vector of the camera. + The created billboard. + + + Creates a cylindrical billboard that rotates around a specified axis. + The position of the object that the billboard will rotate around. + The position of the camera. + The axis to rotate the billboard around. + The forward vector of the camera. + The forward vector of the object. + The billboard matrix. + + + Creates a matrix that rotates around an arbitrary vector. + The axis to rotate around. + The angle to rotate around axis, in radians. + The rotation matrix. + + + Creates a rotation matrix from the specified Quaternion rotation value. + The source Quaternion. + The rotation matrix. + + + Creates a rotation matrix from the specified yaw, pitch, and roll. + The angle of rotation, in radians, around the Y axis. + The angle of rotation, in radians, around the X axis. + The angle of rotation, in radians, around the Z axis. + The rotation matrix. + + + Creates a view matrix. + The position of the camera. + The target towards which the camera is pointing. + The direction that is "up" from the camera's point of view. + The view matrix. + + + Creates an orthographic perspective matrix from the given view volume dimensions. + The width of the view volume. + The height of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a customized orthographic projection matrix. + The minimum X-value of the view volume. + The maximum X-value of the view volume. + The minimum Y-value of the view volume. + The maximum Y-value of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a perspective projection matrix from the given view volume dimensions. + The width of the view volume at the near view plane. + The height of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a perspective projection matrix based on a field of view, aspect ratio, and near and far view plane distances. + The field of view in the y direction, in radians. + The aspect ratio, defined as view space width divided by height. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + fieldOfView is less than or equal to zero. + -or- + fieldOfView is greater than or equal to . + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a customized perspective projection matrix. + The minimum x-value of the view volume at the near view plane. + The maximum x-value of the view volume at the near view plane. + The minimum y-value of the view volume at the near view plane. + The maximum y-value of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a matrix that reflects the coordinate system about a specified plane. + The plane about which to create a reflection. + A new matrix expressing the reflection. + + + Creates a matrix for rotating points around the X axis. + The amount, in radians, by which to rotate around the X axis. + The rotation matrix. + + + Creates a matrix for rotating points around the X axis from a center point. + The amount, in radians, by which to rotate around the X axis. + The center point. + The rotation matrix. + + + The amount, in radians, by which to rotate around the Y axis from a center point. + The amount, in radians, by which to rotate around the Y-axis. + The center point. + The rotation matrix. + + + Creates a matrix for rotating points around the Y axis. + The amount, in radians, by which to rotate around the Y-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis. + The amount, in radians, by which to rotate around the Z-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis from a center point. + The amount, in radians, by which to rotate around the Z-axis. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a uniform scaling matrix that scale equally on each axis. + The uniform scaling factor. + The scaling matrix. + + + Creates a scaling matrix with a center point. + The vector that contains the amount to scale on each axis. + The center point. + The scaling matrix. + + + Creates a uniform scaling matrix that scales equally on each axis with a center point. + The uniform scaling factor. + The center point. + The scaling matrix. + + + Creates a scaling matrix from the specified X, Y, and Z components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The center point. + The scaling matrix. + + + Creates a matrix that flattens geometry into a specified plane as if casting a shadow from a specified light source. + The direction from which the light that will cast the shadow is coming. + The plane onto which the new matrix should flatten geometry so as to cast a shadow. + A new matrix that can be used to flatten geometry onto the specified plane from the specified direction. + + + Creates a translation matrix from the specified 3-dimensional vector. + The amount to translate in each axis. + The translation matrix. + + + Creates a translation matrix from the specified X, Y, and Z components. + The amount to translate on the X axis. + The amount to translate on the Y axis. + The amount to translate on the Z axis. + The translation matrix. + + + Creates a world matrix with the specified parameters. + The position of the object. + The forward direction of the object. + The upward direction of the object. Its value is usually [0, 1, 0]. + The world matrix. + + + Attempts to extract the scale, translation, and rotation components from the given scale, rotation, or translation matrix. The return value indicates whether the operation succeeded. + The source matrix. + When this method returns, contains the scaling component of the transformation matrix if the operation succeeded. + When this method returns, contains the rotation component of the transformation matrix if the operation succeeded. + When the method returns, contains the translation component of the transformation matrix if the operation succeeded. + true if matrix was decomposed successfully; otherwise, false. + + + Returns a value that indicates whether this instance and another 4x4 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant of the current 4x4 matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + Gets the multiplicative identity matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The third element of the first row. + + + + The fourth element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The third element of the second row. + + + + The fourth element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + The third element of the third row. + + + + The fourth element of the third row. + + + + The first element of the fourth row. + + + + The second element of the fourth row. + + + + The third element of the fourth row. + + + + The fourth element of the fourth row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to care + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Transforms the specified matrix by applying the specified Quaternion rotation. + The matrix to transform. + The rotation t apply. + The transformed matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Transposes the rows and columns of a matrix. + The matrix to transpose. + The transposed matrix. + + + Represents a three-dimensional plane. + + + Creates a object from a specified four-dimensional vector. + A vector whose first three elements describe the normal vector, and whose defines the distance along that normal from the origin. + + + Creates a object from a specified normal and the distance along the normal from the origin. + The plane's normal vector. + The plane's distance from the origin along its normal vector. + + + Creates a object from the X, Y, and Z components of its normal, and its distance from the origin on that normal. + The X component of the normal. + The Y component of the normal. + The Z component of the normal. + The distance of the plane along its normal from the origin. + + + Creates a object that contains three specified points. + The first point defining the plane. + The second point defining the plane. + The third point defining the plane. + The plane containing the three points. + + + The distance of the plane along its normal from the origin. + + + + Calculates the dot product of a plane and a 4-dimensional vector. + The plane. + The four-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the normal vector of this plane plus the distance () value of the plane. + The plane. + The 3-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the vector of this plane. + The plane. + The three-dimensional vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another plane object are equal. + The other plane. + true if the two planes are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + The normal vector of the plane. + + + + Creates a new object whose normal vector is the source plane's normal vector normalized. + The source plane. + The normalized plane. + + + Returns a value that indicates whether two planes are equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether two planes are not equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the string representation of this plane object. + A string that represents this object. + + + Transforms a normalized plane by a 4x4 matrix. + The normalized plane to transform. + The transformation matrix to apply to plane. + The transformed plane. + + + Transforms a normalized plane by a Quaternion rotation. + The normalized plane to transform. + The Quaternion rotation to apply to the plane. + A new plane that results from applying the Quaternion rotation. + + + Represents a vector that is used to encode three-dimensional physical rotations. + + + Creates a quaternion from the specified vector and rotation parts. + The vector part of the quaternion. + The rotation part of the quaternion. + + + Constructs a quaternion from the specified components. + The value to assign to the X component of the quaternion. + The value to assign to the Y component of the quaternion. + The value to assign to the Z component of the quaternion. + The value to assign to the W component of the quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Concatenates two quaternions. + The first quaternion rotation in the series. + The second quaternion rotation in the series. + A new quaternion representing the concatenation of the value1 rotation followed by the value2 rotation. + + + Returns the conjugate of a specified quaternion. + The quaternion. + A new quaternion that is the conjugate of value. + + + Creates a quaternion from a vector and an angle to rotate about the vector. + The vector to rotate around. + The angle, in radians, to rotate around the vector. + The newly created quaternion. + + + Creates a quaternion from the specified rotation matrix. + The rotation matrix. + The newly created quaternion. + + + Creates a new quaternion from the given yaw, pitch, and roll. + The yaw angle, in radians, around the Y axis. + The pitch angle, in radians, around the X axis. + The roll angle, in radians, around the Z axis. + The resulting quaternion. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Calculates the dot product of two quaternions. + The first quaternion. + The second quaternion. + The dot product. + + + Returns a value that indicates whether this instance and another quaternion are equal. + The other quaternion. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Gets a quaternion that represents no rotation. + A quaternion whose values are (0, 0, 0, 1). + + + Returns the inverse of a quaternion. + The quaternion. + The inverted quaternion. + + + Gets a value that indicates whether the current instance is the identity quaternion. + true if the current instance is the identity quaternion; otherwise, false. + + + Calculates the length of the quaternion. + The computed length of the quaternion. + + + Calculates the squared length of the quaternion. + The length squared of the quaternion. + + + Performs a linear interpolation between two quaternions based on a value that specifies the weighting of the second quaternion. + The first quaternion. + The second quaternion. + The relative weight of quaternion2 in the interpolation. + The interpolated quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Divides each component of a specified by its length. + The quaternion to normalize. + The normalized quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Returns a value that indicates whether two quaternions are equal. + The first quaternion to compare. + The second quaternion to compare. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether two quaternions are not equal. + The first quaternion to compare. + The second quaternion to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Interpolates between two quaternions, using spherical linear interpolation. + The first quaternion. + The second quaternion. + The relative weight of the second quaternion in the interpolation. + The interpolated quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this quaternion. + The string representation of this quaternion. + + + The rotation component of the quaternion. + + + + The X value of the vector component of the quaternion. + + + + The Y value of the vector component of the quaternion. + + + + The Z value of the vector component of the quaternion. + + + + Represents a single vector of a specified numeric type that is suitable for low-level optimization of parallel algorithms. + The vector type. T can be any primitive numeric type. + + + Creates a vector whose components are of a specified type. + The numeric type that defines the type of the components in the vector. + + + Creates a vector from a specified array. + A numeric array. + values is null. + + + Creates a vector from a specified array starting at a specified index position. + A numeric array. + The starting index position from which to create the vector. + values is null. + index is less than zero. + -or- + The length of values minus index is less than . + + + Copies the vector instance to a specified destination array. + The array to receive a copy of the vector values. + destination is null. + The number of elements in the current vector is greater than the number of elements available in the destination array. + + + Copies the vector instance to a specified destination array starting at a specified index position. + The array to receive a copy of the vector values. + The starting index in destination at which to begin the copy operation. + destination is null. + The number of elements in the current instance is greater than the number of elements available from startIndex to the end of the destination array. + index is less than zero or greater than the last index in destination. + + + Returns the number of elements stored in the vector. + The number of elements stored in the vector. + Access to the property getter via reflection is not supported. + + + Returns a value that indicates whether this instance is equal to a specified vector. + The vector to compare with this instance. + true if the current instance and other are equal; otherwise, false. + + + Returns a value that indicates whether this instance is equal to a specified object. + The object to compare with this instance. + true if the current instance and obj are equal; otherwise, false. The method returns false if obj is null, or if obj is a vector of a different type than the current instance. + + + Returns the hash code for this instance. + The hash code. + + + Gets the element at a specified index. + The index of the element to return. + The element at index index. + index is less than zero. + -or- + index is greater than or equal to . + + + Returns a vector containing all ones. + A vector containing all ones. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Returns a new vector by performing a bitwise And operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise And of left and right. + + + Returns a new vector by performing a bitwise Or operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise Or of the elements in left and right. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Returns a value that indicates whether each pair of elements in two specified vectors are equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a new vector by performing a bitwise XOr operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise XOr of the elements in left and right. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Returns a value that indicates whether any single pair of elements in the specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if any element pairs in left and right are equal. false if no element pairs are equal. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar value. + The source vector. + A scalar value. + The scaled vector. + + + Multiplies a vector by the given scalar. + The scalar value. + The source vector. + The scaled vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The one's complement vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates a given vector. + The vector to negate. + The negated vector. + + + Returns the string representation of this vector using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Returns the string representation of this vector using default formatting. + The string representation of this vector. + + + Returns the string representation of this vector using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns a vector containing all zeroes. + A vector containing all zeroes. + + + Provides a collection of static convenience methods for creating, manipulating, combining, and converting generic vectors. + + + Returns a new vector whose elements are the absolute values of the given vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The absolute value vector. + + + Returns a new vector whose values are the sum of each pair of elements from two given vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The summed vector. + + + Returns a new vector by performing a bitwise And Not operation on each pair of corresponding elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a double-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of signed bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a single-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Returns a new vector by performing a bitwise And operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector by performing a bitwise Or operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Creates a new single-precision vector with elements selected between two specified single-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new double-precision vector with elements selected between two specified double-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new vector of a specified type with elements selected between two specified source vectors of the same type based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The vector type. T can be any primitive numeric type. + The new vector with elements selected based on the mask. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose values are the result of dividing the first vector's elements by the corresponding elements in the second vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The divided vector. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The dot product. + + + Returns a new integral vector whose elements signal whether the elements in two specified double-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified integral vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in two specified long integer vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified single-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in two specified vectors of the same type are equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether each pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left and right are equal; otherwise, false. + + + Returns a value that indicates whether any single pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element pair in left and right is equal; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are greater than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are greater than their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than their corresponding elements in the second vector of the same time. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the single-precision floating-point second vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than or equal to their corresponding elements in the second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than or equal to their corresponding elements in the second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than or equal to their corresponding elements in the second vector of the same type. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than or equal to all the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than or equal to the corresponding element in right; otherwise, false. + + + Gets a value that indicates whether vector operations are subject to hardware acceleration through JIT intrinsic support. + true if vector operations are subject to hardware acceleration; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision vector are less than their corresponding elements in a second single-precision vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in one vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all of the elements in the first vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than or equal to their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than or equal to their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less or equal to their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are less than or equal to their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than or equal to the corresponding element in right; otherwise, false. + + + Returns a new vector whose elements are the maximum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The maximum vector. + + + Returns a new vector whose elements are the minimum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The minimum vector. + + + Returns a new vector whose values are a scalar value multiplied by each of the values of a specified vector. + The scalar value. + The vector. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + Returns a new vector whose values are the product of each pair of elements in two specified vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The product vector. + + + Returns a new vector whose values are the values of a specified vector each multiplied by a scalar value. + The vector. + The scalar value. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose elements are the negation of the corresponding element in the specified vector. + The source vector. + The vector type. T can be any primitive numeric type. + The negated vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector whose elements are the square roots of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The square root vector. + + + Returns a new vector whose values are the difference between the elements in the second vector and their corresponding elements in the first vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The difference vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector by performing a bitwise exclusive Or (XOr) operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Represents a vector with two single-precision floating-point values. + + + Creates a new object whose two elements have the same value. + The value to assign to both elements. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of the vector. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 2 elements are equal to one. + A vector whose two elements are equal to one (that is, it returns the vector (1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 3x2 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 3x2 matrix. + The source vector. + The matrix. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0). + The vector (1,0). + + + Gets the vector (0,1). + The vector (0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + Returns a vector whose 2 elements are equal to zero. + A vector whose two elements are equal to zero (that is, it returns the vector (0,0). + + + Represents a vector with three single-precision floating-point values. + + + Creates a new object whose three elements have the same value. + The value to assign to all three elements. + + + Creates a new object from the specified object and the specified value. + The vector with two elements. + The additional value to assign to the field. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the cross product of two vectors. + The first vector. + The second vector. + The cross product. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 3 elements are equal to one. + A vector whose three elements are equal to one (that is, it returns the vector (1,1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0,0). + The vector (1,0,0). + + + Gets the vector (0,1,0). + The vector (0,1,0).. + + + Gets the vector (0,0,1). + The vector (0,0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 3 elements are equal to zero. + A vector whose three elements are equal to zero (that is, it returns the vector (0,0,0). + + + Represents a vector with four single-precision floating-point values. + + + Creates a new object whose four elements have the same value. + The value to assign to all four elements. + + + Constructs a new object from the specified object and a W component. + The vector to use for the X, Y, and Z components. + The W component. + + + Creates a new object from the specified object and a Z and a W component. + The vector to use for the X and Y components. + The Z component. + The W component. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 4 elements are equal to one. + Returns . + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a four-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a four-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a three-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a two-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a two-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a three-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Gets the vector (0,0,0,1). + The vector (0,0,0,1). + + + Gets the vector (1,0,0,0). + The vector (1,0,0,0). + + + Gets the vector (0,1,0,0). + The vector (0,1,0,0).. + + + Gets a vector whose 4 elements are equal to zero. + The vector (0,0,1,0). + + + The W component of the vector. + + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 4 elements are equal to zero. + A vector whose four elements are equal to zero (that is, it returns the vector (0,0,0,0). + + + \ No newline at end of file diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/netstandard2.0/System.Numerics.Vectors.dll b/packages/System.Numerics.Vectors.4.5.0/ref/netstandard2.0/System.Numerics.Vectors.dll new file mode 100644 index 00000000..ba0aa0cf Binary files /dev/null and b/packages/System.Numerics.Vectors.4.5.0/ref/netstandard2.0/System.Numerics.Vectors.dll differ diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/netstandard2.0/System.Numerics.Vectors.xml b/packages/System.Numerics.Vectors.4.5.0/ref/netstandard2.0/System.Numerics.Vectors.xml new file mode 100644 index 00000000..da34d390 --- /dev/null +++ b/packages/System.Numerics.Vectors.4.5.0/ref/netstandard2.0/System.Numerics.Vectors.xml @@ -0,0 +1,2621 @@ + + + System.Numerics.Vectors + + + + Represents a 3x2 matrix. + + + Creates a 3x2 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a rotation matrix using the given rotation in radians. + The amount of rotation, in radians. + The rotation matrix. + + + Creates a rotation matrix using the specified rotation in radians and a center point. + The amount of rotation, in radians. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified X and Y components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the specified scale with an offset from the specified center. + The uniform scale to use. + The center offset. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The center point. + The scaling matrix. + + + Creates a scaling matrix that scales uniformly with the given scale. + The uniform scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a scaling matrix from the specified vector scale with an offset from the specified center point. + The scale to use. + The center offset. + The scaling matrix. + + + Creates a skew matrix from the specified angles in radians. + The X angle, in radians. + The Y angle, in radians. + The skew matrix. + + + Creates a skew matrix from the specified angles in radians and a center point. + The X angle, in radians. + The Y angle, in radians. + The center point. + The skew matrix. + + + Creates a translation matrix from the specified 2-dimensional vector. + The translation position. + The translation matrix. + + + Creates a translation matrix from the specified X and Y components. + The X position. + The Y position. + The translation matrix. + + + Returns a value that indicates whether this instance and another 3x2 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant for this matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + The multiplicative identify matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Represents a 4x4 matrix. + + + Creates a object from a specified object. + A 3x2 matrix. + + + Creates a 4x4 matrix from the specified components. + The value to assign to the first element in the first row. + The value to assign to the second element in the first row. + The value to assign to the third element in the first row. + The value to assign to the fourth element in the first row. + The value to assign to the first element in the second row. + The value to assign to the second element in the second row. + The value to assign to the third element in the second row. + The value to assign to the third element in the second row. + The value to assign to the first element in the third row. + The value to assign to the second element in the third row. + The value to assign to the third element in the third row. + The value to assign to the fourth element in the third row. + The value to assign to the first element in the fourth row. + The value to assign to the second element in the fourth row. + The value to assign to the third element in the fourth row. + The value to assign to the fourth element in the fourth row. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values of value1 and value2. + + + Creates a spherical billboard that rotates around a specified object position. + The position of the object that the billboard will rotate around. + The position of the camera. + The up vector of the camera. + The forward vector of the camera. + The created billboard. + + + Creates a cylindrical billboard that rotates around a specified axis. + The position of the object that the billboard will rotate around. + The position of the camera. + The axis to rotate the billboard around. + The forward vector of the camera. + The forward vector of the object. + The billboard matrix. + + + Creates a matrix that rotates around an arbitrary vector. + The axis to rotate around. + The angle to rotate around axis, in radians. + The rotation matrix. + + + Creates a rotation matrix from the specified Quaternion rotation value. + The source Quaternion. + The rotation matrix. + + + Creates a rotation matrix from the specified yaw, pitch, and roll. + The angle of rotation, in radians, around the Y axis. + The angle of rotation, in radians, around the X axis. + The angle of rotation, in radians, around the Z axis. + The rotation matrix. + + + Creates a view matrix. + The position of the camera. + The target towards which the camera is pointing. + The direction that is "up" from the camera's point of view. + The view matrix. + + + Creates an orthographic perspective matrix from the given view volume dimensions. + The width of the view volume. + The height of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a customized orthographic projection matrix. + The minimum X-value of the view volume. + The maximum X-value of the view volume. + The minimum Y-value of the view volume. + The maximum Y-value of the view volume. + The minimum Z-value of the view volume. + The maximum Z-value of the view volume. + The orthographic projection matrix. + + + Creates a perspective projection matrix from the given view volume dimensions. + The width of the view volume at the near view plane. + The height of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a perspective projection matrix based on a field of view, aspect ratio, and near and far view plane distances. + The field of view in the y direction, in radians. + The aspect ratio, defined as view space width divided by height. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + fieldOfView is less than or equal to zero. + -or- + fieldOfView is greater than or equal to . + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a customized perspective projection matrix. + The minimum x-value of the view volume at the near view plane. + The maximum x-value of the view volume at the near view plane. + The minimum y-value of the view volume at the near view plane. + The maximum y-value of the view volume at the near view plane. + The distance to the near view plane. + The distance to the far view plane. + The perspective projection matrix. + nearPlaneDistance is less than or equal to zero. + -or- + farPlaneDistance is less than or equal to zero. + -or- + nearPlaneDistance is greater than or equal to farPlaneDistance. + + + Creates a matrix that reflects the coordinate system about a specified plane. + The plane about which to create a reflection. + A new matrix expressing the reflection. + + + Creates a matrix for rotating points around the X axis. + The amount, in radians, by which to rotate around the X axis. + The rotation matrix. + + + Creates a matrix for rotating points around the X axis from a center point. + The amount, in radians, by which to rotate around the X axis. + The center point. + The rotation matrix. + + + The amount, in radians, by which to rotate around the Y axis from a center point. + The amount, in radians, by which to rotate around the Y-axis. + The center point. + The rotation matrix. + + + Creates a matrix for rotating points around the Y axis. + The amount, in radians, by which to rotate around the Y-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis. + The amount, in radians, by which to rotate around the Z-axis. + The rotation matrix. + + + Creates a matrix for rotating points around the Z axis from a center point. + The amount, in radians, by which to rotate around the Z-axis. + The center point. + The rotation matrix. + + + Creates a scaling matrix from the specified vector scale. + The scale to use. + The scaling matrix. + + + Creates a uniform scaling matrix that scale equally on each axis. + The uniform scaling factor. + The scaling matrix. + + + Creates a scaling matrix with a center point. + The vector that contains the amount to scale on each axis. + The center point. + The scaling matrix. + + + Creates a uniform scaling matrix that scales equally on each axis with a center point. + The uniform scaling factor. + The center point. + The scaling matrix. + + + Creates a scaling matrix from the specified X, Y, and Z components. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The scaling matrix. + + + Creates a scaling matrix that is offset by a given center point. + The value to scale by on the X axis. + The value to scale by on the Y axis. + The value to scale by on the Z axis. + The center point. + The scaling matrix. + + + Creates a matrix that flattens geometry into a specified plane as if casting a shadow from a specified light source. + The direction from which the light that will cast the shadow is coming. + The plane onto which the new matrix should flatten geometry so as to cast a shadow. + A new matrix that can be used to flatten geometry onto the specified plane from the specified direction. + + + Creates a translation matrix from the specified 3-dimensional vector. + The amount to translate in each axis. + The translation matrix. + + + Creates a translation matrix from the specified X, Y, and Z components. + The amount to translate on the X axis. + The amount to translate on the Y axis. + The amount to translate on the Z axis. + The translation matrix. + + + Creates a world matrix with the specified parameters. + The position of the object. + The forward direction of the object. + The upward direction of the object. Its value is usually [0, 1, 0]. + The world matrix. + + + Attempts to extract the scale, translation, and rotation components from the given scale, rotation, or translation matrix. The return value indicates whether the operation succeeded. + The source matrix. + When this method returns, contains the scaling component of the transformation matrix if the operation succeeded. + When this method returns, contains the rotation component of the transformation matrix if the operation succeeded. + When the method returns, contains the translation component of the transformation matrix if the operation succeeded. + true if matrix was decomposed successfully; otherwise, false. + + + Returns a value that indicates whether this instance and another 4x4 matrix are equal. + The other matrix. + true if the two matrices are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Calculates the determinant of the current 4x4 matrix. + The determinant. + + + Returns the hash code for this instance. + The hash code. + + + Gets the multiplicative identity matrix. + Gets the multiplicative identity matrix. + + + Inverts the specified matrix. The return value indicates whether the operation succeeded. + The matrix to invert. + When this method returns, contains the inverted matrix if the operation succeeded. + true if matrix was converted successfully; otherwise, false. + + + Indicates whether the current matrix is the identity matrix. + true if the current matrix is the identity matrix; otherwise, false. + + + Performs a linear interpolation from one matrix to a second matrix based on a value that specifies the weighting of the second matrix. + The first matrix. + The second matrix. + The relative weighting of matrix2. + The interpolated matrix. + + + The first element of the first row. + + + + The second element of the first row. + + + + The third element of the first row. + + + + The fourth element of the first row. + + + + The first element of the second row. + + + + The second element of the second row. + + + + The third element of the second row. + + + + The fourth element of the second row. + + + + The first element of the third row. + + + + The second element of the third row. + + + + The third element of the third row. + + + + The fourth element of the third row. + + + + The first element of the fourth row. + + + + The second element of the fourth row. + + + + The third element of the fourth row. + + + + The fourth element of the fourth row. + + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Adds each element in one matrix with its corresponding element in a second matrix. + The first matrix. + The second matrix. + The matrix that contains the summed values. + + + Returns a value that indicates whether the specified matrices are equal. + The first matrix to compare. + The second matrix to care + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether the specified matrices are not equal. + The first matrix to compare. + The second matrix to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the matrix that results from scaling all the elements of a specified matrix by a scalar factor. + The matrix to scale. + The scaling value to use. + The scaled matrix. + + + Returns the matrix that results from multiplying two matrices together. + The first matrix. + The second matrix. + The product matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Negates the specified matrix by multiplying all its values by -1. + The matrix to negate. + The negated matrix. + + + Subtracts each element in a second matrix from its corresponding element in a first matrix. + The first matrix. + The second matrix. + The matrix containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this matrix. + The string representation of this matrix. + + + Transforms the specified matrix by applying the specified Quaternion rotation. + The matrix to transform. + The rotation t apply. + The transformed matrix. + + + Gets or sets the translation component of this matrix. + The translation component of the current instance. + + + Transposes the rows and columns of a matrix. + The matrix to transpose. + The transposed matrix. + + + Represents a three-dimensional plane. + + + Creates a object from a specified four-dimensional vector. + A vector whose first three elements describe the normal vector, and whose defines the distance along that normal from the origin. + + + Creates a object from a specified normal and the distance along the normal from the origin. + The plane's normal vector. + The plane's distance from the origin along its normal vector. + + + Creates a object from the X, Y, and Z components of its normal, and its distance from the origin on that normal. + The X component of the normal. + The Y component of the normal. + The Z component of the normal. + The distance of the plane along its normal from the origin. + + + Creates a object that contains three specified points. + The first point defining the plane. + The second point defining the plane. + The third point defining the plane. + The plane containing the three points. + + + The distance of the plane along its normal from the origin. + + + + Calculates the dot product of a plane and a 4-dimensional vector. + The plane. + The four-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the normal vector of this plane plus the distance () value of the plane. + The plane. + The 3-dimensional vector. + The dot product. + + + Returns the dot product of a specified three-dimensional vector and the vector of this plane. + The plane. + The three-dimensional vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another plane object are equal. + The other plane. + true if the two planes are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + The normal vector of the plane. + + + + Creates a new object whose normal vector is the source plane's normal vector normalized. + The source plane. + The normalized plane. + + + Returns a value that indicates whether two planes are equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are equal; otherwise, false. + + + Returns a value that indicates whether two planes are not equal. + The first plane to compare. + The second plane to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the string representation of this plane object. + A string that represents this object. + + + Transforms a normalized plane by a 4x4 matrix. + The normalized plane to transform. + The transformation matrix to apply to plane. + The transformed plane. + + + Transforms a normalized plane by a Quaternion rotation. + The normalized plane to transform. + The Quaternion rotation to apply to the plane. + A new plane that results from applying the Quaternion rotation. + + + Represents a vector that is used to encode three-dimensional physical rotations. + + + Creates a quaternion from the specified vector and rotation parts. + The vector part of the quaternion. + The rotation part of the quaternion. + + + Constructs a quaternion from the specified components. + The value to assign to the X component of the quaternion. + The value to assign to the Y component of the quaternion. + The value to assign to the Z component of the quaternion. + The value to assign to the W component of the quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Concatenates two quaternions. + The first quaternion rotation in the series. + The second quaternion rotation in the series. + A new quaternion representing the concatenation of the value1 rotation followed by the value2 rotation. + + + Returns the conjugate of a specified quaternion. + The quaternion. + A new quaternion that is the conjugate of value. + + + Creates a quaternion from a vector and an angle to rotate about the vector. + The vector to rotate around. + The angle, in radians, to rotate around the vector. + The newly created quaternion. + + + Creates a quaternion from the specified rotation matrix. + The rotation matrix. + The newly created quaternion. + + + Creates a new quaternion from the given yaw, pitch, and roll. + The yaw angle, in radians, around the Y axis. + The pitch angle, in radians, around the X axis. + The roll angle, in radians, around the Z axis. + The resulting quaternion. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Calculates the dot product of two quaternions. + The first quaternion. + The second quaternion. + The dot product. + + + Returns a value that indicates whether this instance and another quaternion are equal. + The other quaternion. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Gets a quaternion that represents no rotation. + A quaternion whose values are (0, 0, 0, 1). + + + Returns the inverse of a quaternion. + The quaternion. + The inverted quaternion. + + + Gets a value that indicates whether the current instance is the identity quaternion. + true if the current instance is the identity quaternion; otherwise, false. + + + Calculates the length of the quaternion. + The computed length of the quaternion. + + + Calculates the squared length of the quaternion. + The length squared of the quaternion. + + + Performs a linear interpolation between two quaternions based on a value that specifies the weighting of the second quaternion. + The first quaternion. + The second quaternion. + The relative weight of quaternion2 in the interpolation. + The interpolated quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Divides each component of a specified by its length. + The quaternion to normalize. + The normalized quaternion. + + + Adds each element in one quaternion with its corresponding element in a second quaternion. + The first quaternion. + The second quaternion. + The quaternion that contains the summed values of value1 and value2. + + + Divides one quaternion by a second quaternion. + The dividend. + The divisor. + The quaternion that results from dividing value1 by value2. + + + Returns a value that indicates whether two quaternions are equal. + The first quaternion to compare. + The second quaternion to compare. + true if the two quaternions are equal; otherwise, false. + + + Returns a value that indicates whether two quaternions are not equal. + The first quaternion to compare. + The second quaternion to compare. + true if value1 and value2 are not equal; otherwise, false. + + + Returns the quaternion that results from scaling all the components of a specified quaternion by a scalar factor. + The source quaternion. + The scalar value. + The scaled quaternion. + + + Returns the quaternion that results from multiplying two quaternions together. + The first quaternion. + The second quaternion. + The product quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Reverses the sign of each component of the quaternion. + The quaternion to negate. + The negated quaternion. + + + Interpolates between two quaternions, using spherical linear interpolation. + The first quaternion. + The second quaternion. + The relative weight of the second quaternion in the interpolation. + The interpolated quaternion. + + + Subtracts each element in a second quaternion from its corresponding element in a first quaternion. + The first quaternion. + The second quaternion. + The quaternion containing the values that result from subtracting each element in value2 from its corresponding element in value1. + + + Returns a string that represents this quaternion. + The string representation of this quaternion. + + + The rotation component of the quaternion. + + + + The X value of the vector component of the quaternion. + + + + The Y value of the vector component of the quaternion. + + + + The Z value of the vector component of the quaternion. + + + + Represents a single vector of a specified numeric type that is suitable for low-level optimization of parallel algorithms. + The vector type. T can be any primitive numeric type. + + + Creates a vector whose components are of a specified type. + The numeric type that defines the type of the components in the vector. + + + Creates a vector from a specified array. + A numeric array. + values is null. + + + Creates a vector from a specified array starting at a specified index position. + A numeric array. + The starting index position from which to create the vector. + values is null. + index is less than zero. + -or- + The length of values minus index is less than . + + + Copies the vector instance to a specified destination array. + The array to receive a copy of the vector values. + destination is null. + The number of elements in the current vector is greater than the number of elements available in the destination array. + + + Copies the vector instance to a specified destination array starting at a specified index position. + The array to receive a copy of the vector values. + The starting index in destination at which to begin the copy operation. + destination is null. + The number of elements in the current instance is greater than the number of elements available from startIndex to the end of the destination array. + index is less than zero or greater than the last index in destination. + + + Returns the number of elements stored in the vector. + The number of elements stored in the vector. + Access to the property getter via reflection is not supported. + + + Returns a value that indicates whether this instance is equal to a specified vector. + The vector to compare with this instance. + true if the current instance and other are equal; otherwise, false. + + + Returns a value that indicates whether this instance is equal to a specified object. + The object to compare with this instance. + true if the current instance and obj are equal; otherwise, false. The method returns false if obj is null, or if obj is a vector of a different type than the current instance. + + + Returns the hash code for this instance. + The hash code. + + + Gets the element at a specified index. + The index of the element to return. + The element at index index. + index is less than zero. + -or- + index is greater than or equal to . + + + Returns a vector containing all ones. + A vector containing all ones. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Returns a new vector by performing a bitwise And operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise And of left and right. + + + Returns a new vector by performing a bitwise Or operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise Or of the elements in left and right. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Returns a value that indicates whether each pair of elements in two specified vectors are equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a new vector by performing a bitwise XOr operation on each of the elements in two vectors. + The first vector. + The second vector. + The vector that results from the bitwise XOr of the elements in left and right. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Reinterprets the bits of the specified vector into a vector of type . + The vector to reinterpret. + The reinterpreted vector. + + + Returns a value that indicates whether any single pair of elements in the specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if any element pairs in left and right are equal. false if no element pairs are equal. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar value. + The source vector. + A scalar value. + The scaled vector. + + + Multiplies a vector by the given scalar. + The scalar value. + The source vector. + The scaled vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The one's complement vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates a given vector. + The vector to negate. + The negated vector. + + + Returns the string representation of this vector using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Returns the string representation of this vector using default formatting. + The string representation of this vector. + + + Returns the string representation of this vector using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns a vector containing all zeroes. + A vector containing all zeroes. + + + Provides a collection of static convenience methods for creating, manipulating, combining, and converting generic vectors. + + + Returns a new vector whose elements are the absolute values of the given vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The absolute value vector. + + + Returns a new vector whose values are the sum of each pair of elements from two given vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The summed vector. + + + Returns a new vector by performing a bitwise And Not operation on each pair of corresponding elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a double-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of signed bytes. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a single-precision floating-point vector. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned 16-bit integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Reinterprets the bits of a specified vector into those of a vector of unsigned long integers. + The source vector. + The vector type. T can be any primitive numeric type. + The reinterpreted vector. + + + Returns a new vector by performing a bitwise And operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector by performing a bitwise Or operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Creates a new single-precision vector with elements selected between two specified single-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new double-precision vector with elements selected between two specified double-precision source vectors based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The new vector with elements selected based on the mask. + + + Creates a new vector of a specified type with elements selected between two specified source vectors of the same type based on an integral mask vector. + The integral mask vector used to drive selection. + The first source vector. + The second source vector. + The vector type. T can be any primitive numeric type. + The new vector with elements selected based on the mask. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose values are the result of dividing the first vector's elements by the corresponding elements in the second vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The divided vector. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The dot product. + + + Returns a new integral vector whose elements signal whether the elements in two specified double-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified integral vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in two specified long integer vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in two specified single-precision vectors are equal. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in two specified vectors of the same type are equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether each pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left and right are equal; otherwise, false. + + + Returns a value that indicates whether any single pair of elements in the given vectors is equal. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element pair in left and right is equal; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are greater than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are greater than their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than their corresponding elements in the second vector of the same time. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the single-precision floating-point second vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are greater than or equal to their corresponding elements in the second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are greater than or equal to their corresponding elements in the second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one vector are greater than or equal to their corresponding elements in the second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector of a specified type are greater than or equal to their corresponding elements in the second vector of the same type. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are greater than or equal to all the corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all elements in left are greater than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is greater than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is greater than or equal to the corresponding element in right; otherwise, false. + + + Gets a value that indicates whether vector operations are subject to hardware acceleration through JIT intrinsic support. + true if vector operations are subject to hardware acceleration; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less than their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision vector are less than their corresponding elements in a second single-precision vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector of a specified type whose elements signal whether the elements in one vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all of the elements in the first vector are less than their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than the corresponding element in right; otherwise, false. + + + Returns a new integral vector whose elements signal whether the elements in one double-precision floating-point vector are less than or equal to their corresponding elements in a second double-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new integral vector whose elements signal whether the elements in one integral vector are less than or equal to their corresponding elements in a second integral vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new long integer vector whose elements signal whether the elements in one long integer vector are less or equal to their corresponding elements in a second long integer vector. + The first vector to compare. + The second vector to compare. + The resulting long integer vector. + + + Returns a new integral vector whose elements signal whether the elements in one single-precision floating-point vector are less than or equal to their corresponding elements in a second single-precision floating-point vector. + The first vector to compare. + The second vector to compare. + The resulting integral vector. + + + Returns a new vector whose elements signal whether the elements in one vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a value that indicates whether all elements in the first vector are less than or equal to their corresponding elements in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if all of the elements in left are less than or equal to the corresponding elements in right; otherwise, false. + + + Returns a value that indicates whether any element in the first vector is less than or equal to the corresponding element in the second vector. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + true if any element in left is less than or equal to the corresponding element in right; otherwise, false. + + + Returns a new vector whose elements are the maximum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The maximum vector. + + + Returns a new vector whose elements are the minimum of each pair of elements in the two given vectors. + The first vector to compare. + The second vector to compare. + The vector type. T can be any primitive numeric type. + The minimum vector. + + + Returns a new vector whose values are a scalar value multiplied by each of the values of a specified vector. + The scalar value. + The vector. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + Returns a new vector whose values are the product of each pair of elements in two specified vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The product vector. + + + Returns a new vector whose values are the values of a specified vector each multiplied by a scalar value. + The vector. + The scalar value. + The vector type. T can be any primitive numeric type. + The scaled vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector whose elements are the negation of the corresponding element in the specified vector. + The source vector. + The vector type. T can be any primitive numeric type. + The negated vector. + + + Returns a new vector whose elements are obtained by taking the one's complement of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Returns a new vector whose elements are the square roots of a specified vector's elements. + The source vector. + The vector type. T can be any primitive numeric type. + The square root vector. + + + Returns a new vector whose values are the difference between the elements in the second vector and their corresponding elements in the first vector. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The difference vector. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + Returns a new vector by performing a bitwise exclusive Or (XOr) operation on each pair of elements in two vectors. + The first vector. + The second vector. + The vector type. T can be any primitive numeric type. + The resulting vector. + + + Represents a vector with two single-precision floating-point values. + + + Creates a new object whose two elements have the same value. + The value to assign to both elements. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of the vector. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 2 elements are equal to one. + A vector whose two elements are equal to one (that is, it returns the vector (1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 3x2 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 3x2 matrix. + The source vector. + The matrix. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0). + The vector (1,0). + + + Gets the vector (0,1). + The vector (0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + Returns a vector whose 2 elements are equal to zero. + A vector whose two elements are equal to zero (that is, it returns the vector (0,0). + + + Represents a vector with three single-precision floating-point values. + + + Creates a new object whose three elements have the same value. + The value to assign to all three elements. + + + Creates a new object from the specified object and the specified value. + The vector with two elements. + The additional value to assign to the field. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the cross product of two vectors. + The first vector. + The second vector. + The cross product. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 3 elements are equal to one. + A vector whose three elements are equal to one (that is, it returns the vector (1,1,1). + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns the reflection of a vector off a surface that has the specified normal. + The source vector. + The normal of the surface being reflected off. + The reflected vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a vector normal by the given 4x4 matrix. + The source vector. + The matrix. + The transformed vector. + + + Gets the vector (1,0,0). + The vector (1,0,0). + + + Gets the vector (0,1,0). + The vector (0,1,0).. + + + Gets the vector (0,0,1). + The vector (0,0,1). + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 3 elements are equal to zero. + A vector whose three elements are equal to zero (that is, it returns the vector (0,0,0). + + + Represents a vector with four single-precision floating-point values. + + + Creates a new object whose four elements have the same value. + The value to assign to all four elements. + + + Constructs a new object from the specified object and a W component. + The vector to use for the X, Y, and Z components. + The W component. + + + Creates a new object from the specified object and a Z and a W component. + The vector to use for the X and Y components. + The Z component. + The W component. + + + Creates a vector whose elements have the specified values. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + The value to assign to the field. + + + Returns a vector whose elements are the absolute values of each of the specified vector's elements. + A vector. + The absolute value vector. + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Restricts a vector between a minimum and a maximum value. + The vector to restrict. + The minimum value. + The maximum value. + The restricted vector. + + + Copies the elements of the vector to a specified array. + The destination array. + array is null. + The number of elements in the current instance is greater than in the array. + array is multidimensional. + + + Copies the elements of the vector to a specified array starting at a specified index position. + The destination array. + The index at which to copy the first element of the vector. + array is null. + The number of elements in the current instance is greater than in the array. + index is less than zero. + -or- + index is greater than or equal to the array length. + array is multidimensional. + + + Computes the Euclidean distance between the two given points. + The first point. + The second point. + The distance. + + + Returns the Euclidean distance squared between two specified points. + The first point. + The second point. + The distance squared. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector resulting from the division. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The vector that results from the division. + + + Returns the dot product of two vectors. + The first vector. + The second vector. + The dot product. + + + Returns a value that indicates whether this instance and another vector are equal. + The other vector. + true if the two vectors are equal; otherwise, false. + + + Returns a value that indicates whether this instance and a specified object are equal. + The object to compare with the current instance. + true if the current instance and obj are equal; otherwise, false. If obj is null, the method returns false. + + + Returns the hash code for this instance. + The hash code. + + + Returns the length of this vector object. + The vector's length. + + + Returns the length of the vector squared. + The vector's length squared. + + + Performs a linear interpolation between two vectors based on the given weighting. + The first vector. + The second vector. + A value between 0 and 1 that indicates the weight of value2. + The interpolated vector. + + + Returns a vector whose elements are the maximum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The maximized vector. + + + Returns a vector whose elements are the minimum of each of the pairs of elements in two specified vectors. + The first vector. + The second vector. + The minimized vector. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiplies a vector by a specified scalar. + The vector to multiply. + The scalar value. + The scaled vector. + + + Multiplies a scalar value by a specified vector. + The scaled value. + The vector. + The scaled vector. + + + Negates a specified vector. + The vector to negate. + The negated vector. + + + Returns a vector with the same direction as the specified vector, but with a length of one. + The vector to normalize. + The normalized vector. + + + Gets a vector whose 4 elements are equal to one. + Returns . + + + Adds two vectors together. + The first vector to add. + The second vector to add. + The summed vector. + + + Divides the first vector by the second. + The first vector. + The second vector. + The vector that results from dividing left by right. + + + Divides the specified vector by a specified scalar value. + The vector. + The scalar value. + The result of the division. + + + Returns a value that indicates whether each pair of elements in two specified vectors is equal. + The first vector to compare. + The second vector to compare. + true if left and right are equal; otherwise, false. + + + Returns a value that indicates whether two specified vectors are not equal. + The first vector to compare. + The second vector to compare. + true if left and right are not equal; otherwise, false. + + + Multiplies two vectors together. + The first vector. + The second vector. + The product vector. + + + Multiples the specified vector by the specified scalar value. + The vector. + The scalar value. + The scaled vector. + + + Multiples the scalar value by the specified vector. + The vector. + The scalar value. + The scaled vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The vector that results from subtracting right from left. + + + Negates the specified vector. + The vector to negate. + The negated vector. + + + Returns a vector whose elements are the square root of each of a specified vector's elements. + A vector. + The square root vector. + + + Subtracts the second vector from the first. + The first vector. + The second vector. + The difference vector. + + + Returns the string representation of the current instance using default formatting. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements. + A or that defines the format of individual elements. + The string representation of the current instance. + + + Returns the string representation of the current instance using the specified format string to format individual elements and the specified format provider to define culture-specific formatting. + A or that defines the format of individual elements. + A format provider that supplies culture-specific formatting information. + The string representation of the current instance. + + + Transforms a four-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a four-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a three-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a two-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Transforms a two-dimensional vector by the specified Quaternion rotation value. + The vector to rotate. + The rotation to apply. + The transformed vector. + + + Transforms a three-dimensional vector by a specified 4x4 matrix. + The vector to transform. + The transformation matrix. + The transformed vector. + + + Gets the vector (0,0,0,1). + The vector (0,0,0,1). + + + Gets the vector (1,0,0,0). + The vector (1,0,0,0). + + + Gets the vector (0,1,0,0). + The vector (0,1,0,0).. + + + Gets a vector whose 4 elements are equal to zero. + The vector (0,0,1,0). + + + The W component of the vector. + + + + The X component of the vector. + + + + The Y component of the vector. + + + + The Z component of the vector. + + + + Gets a vector whose 4 elements are equal to zero. + A vector whose four elements are equal to zero (that is, it returns the vector (0,0,0,0). + + + \ No newline at end of file diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/uap10.0.16299/_._ b/packages/System.Numerics.Vectors.4.5.0/ref/uap10.0.16299/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/xamarinios10/_._ b/packages/System.Numerics.Vectors.4.5.0/ref/xamarinios10/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Numerics.Vectors.4.5.0/ref/xamarinmac20/_._ b/packages/System.Numerics.Vectors.4.5.0/ref/xamarinmac20/_._ new file mode 100644 index 00000000..e69de29b diff --git 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a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/ref/netstandard2.0/System.Runtime.CompilerServices.Unsafe.xml +++ /dev/null @@ -1,200 +0,0 @@ - - - System.Runtime.CompilerServices.Unsafe - - - - Contains generic, low-level functionality for manipulating pointers. - - - Adds an element offset to the given reference. - The reference to add the offset to. - The offset to add. - The type of reference. - A new reference that reflects the addition of offset to pointer. - - - Adds an element offset to the given reference. - The reference to add the offset to. - The offset to add. - The type of reference. - A new reference that reflects the addition of offset to pointer. - - - Adds a byte offset to the given reference. - The reference to add the offset to. - The offset to add. - The type of reference. - A new reference that reflects the addition of byte offset to pointer. - - - Determines whether the specified references point to the same location. - The first reference to compare. - The second reference to compare. - The type of reference. - true if left and right point to the same location; otherwise, false. - - - Casts the given object to the specified type. - The object to cast. - The type which the object will be cast to. - The original object, casted to the given type. - - - Reinterprets the given reference as a reference to a value of type TTo. - The reference to reinterpret. - The type of reference to reinterpret.. - The desired type of the reference. - A reference to a value of type TTo. - - - Returns a pointer to the given by-ref parameter. - The object whose pointer is obtained. - The type of object. - A pointer to the given value. - - - Reinterprets the given location as a reference to a value of type T. - The location of the value to reference. - The type of the interpreted location. - A reference to a value of type T. - - - Determines the byte offset from origin to target from the given references. - The reference to origin. - The reference to target. - The type of reference. - Byte offset from origin to target i.e. target - origin. - - - Copies a value of type T to the given location. - The location to copy to. - A reference to the value to copy. - The type of value to copy. - - - Copies a value of type T to the given location. - The location to copy to. - A pointer to the value to copy. - The type of value to copy. - - - Copies bytes from the source address to the destination address. - The destination address to copy to. - The source address to copy from. - The number of bytes to copy. - - - Copies bytes from the source address to the destination address. - The destination address to copy to. - The source address to copy from. - The number of bytes to copy. - - - Copies bytes from the source address to the destination address -without assuming architecture dependent alignment of the addresses. - The destination address to copy to. - The source address to copy from. - The number of bytes to copy. - - - Copies bytes from the source address to the destination address -without assuming architecture dependent alignment of the addresses. - The destination address to copy to. - The source address to copy from. - The number of bytes to copy. - - - Initializes a block of memory at the given location with a given initial value. - The address of the start of the memory block to initialize. - The value to initialize the block to. - The number of bytes to initialize. - - - Initializes a block of memory at the given location with a given initial value. - The address of the start of the memory block to initialize. - The value to initialize the block to. - The number of bytes to initialize. - - - Initializes a block of memory at the given location with a given initial value -without assuming architecture dependent alignment of the address. - The address of the start of the memory block to initialize. - The value to initialize the block to. - The number of bytes to initialize. - - - Initializes a block of memory at the given location with a given initial value -without assuming architecture dependent alignment of the address. - The address of the start of the memory block to initialize. - The value to initialize the block to. - The number of bytes to initialize. - - - Reads a value of type T from the given location. - The location to read from. - The type to read. - An object of type T read from the given location. - - - Reads a value of type T from the given location -without assuming architecture dependent alignment of the addresses. - The location to read from. - The type to read. - An object of type T read from the given location. - - - Reads a value of type T from the given location -without assuming architecture dependent alignment of the addresses. - The location to read from. - The type to read. - An object of type T read from the given location. - - - Returns the size of an object of the given type parameter. - The type of object whose size is retrieved. - The size of an object of type T. - - - Subtracts an element offset from the given reference. - The reference to subtract the offset from. - The offset to subtract. - The type of reference. - A new reference that reflects the subraction of offset from pointer. - - - Subtracts an element offset from the given reference. - The reference to subtract the offset from. - The offset to subtract. - The type of reference. - A new reference that reflects the subraction of offset from pointer. - - - Subtracts a byte offset from the given reference. - The reference to subtract the offset from. - - The type of reference. - A new reference that reflects the subraction of byte offset from pointer. - - - Writes a value of type T to the given location. - The location to write to. - The value to write. - The type of value to write. - - - Writes a value of type T to the given location -without assuming architecture dependent alignment of the addresses. - The location to write to. - The value to write. - The type of value to write. - - - Writes a value of type T to the given location -without assuming architecture dependent alignment of the addresses. - The location to write to. - The value to write. - The type of value to write. - - - \ No newline at end of file diff --git a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/version.txt b/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/version.txt deleted file mode 100644 index 69308609..00000000 --- a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/version.txt +++ /dev/null @@ -1 +0,0 @@ -02b11eeee1fbc5f3ef43a1452fe07efd25fa1715 diff --git a/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/.signature.p7s b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/.signature.p7s new file mode 100644 index 00000000..2a015f96 Binary files /dev/null and b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/.signature.p7s differ diff --git a/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/Icon.png 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It's free. + +License notice for Greg Parker +------------------------------ + +Greg Parker gparker@cs.stanford.edu December 2000 +This code is in the public domain and may be copied or modified without +permission. + +License notice for libunwind based code +---------------------------------------- + +Permission is hereby granted, free of charge, to any person obtaining +a copy of this software and associated documentation files (the +"Software"), to deal in the Software without restriction, including +without limitation the rights to use, copy, modify, merge, publish, +distribute, sublicense, and/or sell copies of the Software, and to +permit persons to whom the Software is furnished to do so, subject to +the following conditions: + +The above copyright notice and this permission notice shall be +included in all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF +MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + +License notice for Printing Floating-Point Numbers (Dragon4) +------------------------------------------------------------ + +/****************************************************************************** + Copyright (c) 2014 Ryan Juckett + http://www.ryanjuckett.com/ + + This software is provided 'as-is', without any express or implied + warranty. In no event will the authors be held liable for any damages + arising from the use of this software. + + Permission is granted to anyone to use this software for any purpose, + including commercial applications, and to alter it and redistribute it + freely, subject to the following restrictions: + + 1. The origin of this software must not be misrepresented; you must not + claim that you wrote the original software. If you use this software + in a product, an acknowledgment in the product documentation would be + appreciated but is not required. + + 2. Altered source versions must be plainly marked as such, and must not be + misrepresented as being the original software. + + 3. This notice may not be removed or altered from any source + distribution. +******************************************************************************/ + +License notice for Printing Floating-point Numbers (Grisu3) +----------------------------------------------------------- + +Copyright 2012 the V8 project authors. All rights reserved. +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are +met: + + * Redistributions of source code must retain the above copyright + notice, this list of conditions and the following disclaimer. + * Redistributions in binary form must reproduce the above + copyright notice, this list of conditions and the following + disclaimer in the documentation and/or other materials provided + with the distribution. + * Neither the name of Google Inc. nor the names of its + contributors may be used to endorse or promote products derived + from this software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +A PARTICULAR PURPOSE ARE DISCLAIMED. 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Hauser +2018 January 20 + +The following applies to the whole of SoftFloat Release 3e as well as to +each source file individually. + +Copyright 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018 The Regents of the +University of California. All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are met: + + 1. Redistributions of source code must retain the above copyright notice, + this list of conditions, and the following disclaimer. + + 2. Redistributions in binary form must reproduce the above copyright + notice, this list of conditions, and the following disclaimer in the + documentation and/or other materials provided with the distribution. + + 3. Neither the name of the University nor the names of its contributors + may be used to endorse or promote products derived from this software + without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS "AS IS", AND ANY +EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED +WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, ARE +DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE FOR ANY +DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES +(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; +LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND +ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF +THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +License notice for xoshiro RNGs +-------------------------------- + +Written in 2018 by David Blackman and Sebastiano Vigna (vigna@acm.org) + +To the extent possible under law, the author has dedicated all copyright +and related and neighboring rights to this software to the public domain +worldwide. This software is distributed without any warranty. + +See . + +License for fastmod (https://github.com/lemire/fastmod) and ibm-fpgen (https://github.com/nigeltao/parse-number-fxx-test-data) +-------------------------------------- + + Copyright 2018 Daniel Lemire + + Licensed under the Apache License, Version 2.0 (the "License"); + you may not use this file except in compliance with the License. + You may obtain a copy of the License at + + http://www.apache.org/licenses/LICENSE-2.0 + + Unless required by applicable law or agreed to in writing, software + distributed under the License is distributed on an "AS IS" BASIS, + WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + See the License for the specific language governing permissions and + limitations under the License. + +License notice for The C++ REST SDK +----------------------------------- + +C++ REST SDK + +The MIT License (MIT) + +Copyright (c) Microsoft Corporation + +All rights reserved. + +Permission is hereby granted, free of charge, to any person obtaining a copy of +this software and associated documentation files (the "Software"), to deal in +the Software without restriction, including without limitation the rights to +use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of +the Software, and to permit persons to whom the Software is furnished to do so, +subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. 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IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. + +License notice for lz4net +------------------------------------- + +lz4net + +Copyright (c) 2013-2017, Milosz Krajewski + +All rights reserved. + +Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: + +Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. + +Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +License notice for Nerdbank.Streams +----------------------------------- + +The MIT License (MIT) + +Copyright (c) Andrew Arnott + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. + +License notice for RapidJSON +---------------------------- + +Tencent is pleased to support the open source community by making RapidJSON available. + +Copyright (C) 2015 THL A29 Limited, a Tencent company, and Milo Yip. All rights reserved. + +Licensed under the MIT License (the "License"); you may not use this file except +in compliance with the License. You may obtain a copy of the License at + +http://opensource.org/licenses/MIT + +Unless required by applicable law or agreed to in writing, software distributed +under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR +CONDITIONS OF ANY KIND, either express or implied. See the License for the +specific language governing permissions and limitations under the License. + +License notice for DirectX Math Library +--------------------------------------- + +https://github.com/microsoft/DirectXMath/blob/master/LICENSE + + The MIT License (MIT) + +Copyright (c) 2011-2020 Microsoft Corp + +Permission is hereby granted, free of charge, to any person obtaining a copy of this +software and associated documentation files (the "Software"), to deal in the Software +without restriction, including without limitation the rights to use, copy, modify, +merge, publish, distribute, sublicense, and/or sell copies of the Software, and to +permit persons to whom the Software is furnished to do so, subject to the following +conditions: + +The above copyright notice and this permission notice shall be included in all copies +or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, +INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A +PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT +HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF +CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE +OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + +License notice for ldap4net +--------------------------- + +The MIT License (MIT) + +Copyright (c) 2018 Alexander Chermyanin + +Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + +License notice for vectorized sorting code +------------------------------------------ + +MIT License + +Copyright (c) 2020 Dan Shechter + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. + +License notice for musl +----------------------- + +musl as a whole is licensed under the following standard MIT license: + +Copyright © 2005-2020 Rich Felker, et al. + +Permission is hereby granted, free of charge, to any person obtaining +a copy of this software and associated documentation files (the +"Software"), to deal in the Software without restriction, including +without limitation the rights to use, copy, modify, merge, publish, +distribute, sublicense, and/or sell copies of the Software, and to +permit persons to whom the Software is furnished to do so, subject to +the following conditions: + +The above copyright notice and this permission notice shall be +included in all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF +MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. +IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY +CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, +TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE +SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + + +License notice for "Faster Unsigned Division by Constants" +------------------------------ + +Reference implementations of computing and using the "magic number" approach to dividing +by constants, including codegen instructions. The unsigned division incorporates the +"round down" optimization per ridiculous_fish. + +This is free and unencumbered software. Any copyright is dedicated to the Public Domain. + + +License notice for mimalloc +----------------------------------- + +MIT License + +Copyright (c) 2019 Microsoft Corporation, Daan Leijen + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. diff --git a/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/buildTransitive/netcoreapp2.0/System.Runtime.CompilerServices.Unsafe.targets b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/buildTransitive/netcoreapp2.0/System.Runtime.CompilerServices.Unsafe.targets new file mode 100644 index 00000000..98eb1d3b --- /dev/null +++ b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/buildTransitive/netcoreapp2.0/System.Runtime.CompilerServices.Unsafe.targets @@ -0,0 +1,6 @@ + + + + + diff --git a/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/buildTransitive/netcoreapp3.1/_._ b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/buildTransitive/netcoreapp3.1/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/net461/System.Runtime.CompilerServices.Unsafe.dll b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/net461/System.Runtime.CompilerServices.Unsafe.dll new file mode 100644 index 00000000..c5ba4e40 Binary files /dev/null and b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/net461/System.Runtime.CompilerServices.Unsafe.dll differ diff --git a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/lib/netstandard1.0/System.Runtime.CompilerServices.Unsafe.xml b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/net461/System.Runtime.CompilerServices.Unsafe.xml similarity index 55% rename from packages/System.Runtime.CompilerServices.Unsafe.4.5.2/lib/netstandard1.0/System.Runtime.CompilerServices.Unsafe.xml rename to packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/net461/System.Runtime.CompilerServices.Unsafe.xml index 6a7cfcff..9d794922 100644 --- a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/lib/netstandard1.0/System.Runtime.CompilerServices.Unsafe.xml +++ b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/net461/System.Runtime.CompilerServices.Unsafe.xml @@ -1,4 +1,5 @@ - + + System.Runtime.CompilerServices.Unsafe @@ -20,6 +21,20 @@ The type of reference. A new reference that reflects the addition of offset to pointer. + + Adds an element offset to the given reference. + The reference to add the offset to. + The offset to add. + The type of reference. + A new reference that reflects the addition of offset to pointer. + + + Adds an element offset to the given void pointer. + The void pointer to add the offset to. + The offset to add. + The type of void pointer. + A new void pointer that reflects the addition of offset to the specified pointer. + Adds a byte offset to the given reference. The reference to add the offset to. @@ -27,12 +42,20 @@ The type of reference. A new reference that reflects the addition of byte offset to pointer. + + Adds a byte offset to the given reference. + The reference to add the offset to. + The offset to add. + The type of reference. + A new reference that reflects the addition of byte offset to pointer. + Determines whether the specified references point to the same location. The first reference to compare. The second reference to compare. The type of reference. - true if left and right point to the same location; otherwise, false. + + if and point to the same location; otherwise, . Casts the given object to the specified type. @@ -41,11 +64,11 @@ The original object, casted to the given type. - Reinterprets the given reference as a reference to a value of type TTo. + Reinterprets the given reference as a reference to a value of type . The reference to reinterpret. - The type of reference to reinterpret.. + The type of reference to reinterpret. The desired type of the reference. - A reference to a value of type TTo. + A reference to a value of type . Returns a pointer to the given by-ref parameter. @@ -53,31 +76,37 @@ The type of object. A pointer to the given value. + + Reinterprets the given read-only reference as a reference. + The read-only reference to reinterpret. + The type of reference. + A reference to a value of type . + - Reinterprets the given location as a reference to a value of type T. + Reinterprets the given location as a reference to a value of type . The location of the value to reference. The type of the interpreted location. - A reference to a value of type T. + A reference to a value of type . Determines the byte offset from origin to target from the given references. The reference to origin. The reference to target. The type of reference. - Byte offset from origin to target i.e. target - origin. - - - Copies a value of type T to the given location. - The location to copy to. - A reference to the value to copy. - The type of value to copy. + Byte offset from origin to target i.e. - . - Copies a value of type T to the given location. + Copies a value of type to the given location. The location to copy to. A pointer to the value to copy. The type of value to copy. + + Copies a value of type to the given location. + The location to copy to. + A reference to the value to copy. + The type of value to copy. + Copies bytes from the source address to the destination address. The destination address to copy to. @@ -90,16 +119,14 @@ The source address to copy from. The number of bytes to copy. - - Copies bytes from the source address to the destination address -without assuming architecture dependent alignment of the addresses. + + Copies bytes from the source address to the destination address without assuming architecture dependent alignment of the addresses. The destination address to copy to. The source address to copy from. The number of bytes to copy. - - Copies bytes from the source address to the destination address -without assuming architecture dependent alignment of the addresses. + + Copies bytes from the source address to the destination address without assuming architecture dependent alignment of the addresses. The destination address to copy to. The source address to copy from. The number of bytes to copy. @@ -117,81 +144,145 @@ without assuming architecture dependent alignment of the addresses. The number of bytes to initialize. - Initializes a block of memory at the given location with a given initial value -without assuming architecture dependent alignment of the address. + Initializes a block of memory at the given location with a given initial value without assuming architecture dependent alignment of the address. The address of the start of the memory block to initialize. The value to initialize the block to. The number of bytes to initialize. - Initializes a block of memory at the given location with a given initial value -without assuming architecture dependent alignment of the address. + Initializes a block of memory at the given location with a given initial value without assuming architecture dependent alignment of the address. The address of the start of the memory block to initialize. The value to initialize the block to. The number of bytes to initialize. + + Returns a value that indicates whether a specified reference is greater than another specified reference. + The first value to compare. + The second value to compare. + The type of the reference. + + if is greater than ; otherwise, . + + + Returns a value that indicates whether a specified reference is less than another specified reference. + The first value to compare. + The second value to compare. + The type of the reference. + + if is less than ; otherwise, . + + + Determines if a given reference to a value of type is a null reference. + The reference to check. + The type of the reference. + + if is a null reference; otherwise, . + + + Returns a reference to a value of type that is a null reference. + The type of the reference. + A reference to a value of type that is a null reference. + - Reads a value of type T from the given location. + Reads a value of type from the given location. The location to read from. The type to read. - An object of type T read from the given location. + An object of type read from the given location. - Reads a value of type T from the given location -without assuming architecture dependent alignment of the addresses. + Reads a value of type from the given location without assuming architecture dependent alignment of the addresses. The location to read from. The type to read. - An object of type T read from the given location. + An object of type read from the given location. - Reads a value of type T from the given location -without assuming architecture dependent alignment of the addresses. + Reads a value of type from the given location without assuming architecture dependent alignment of the addresses. The location to read from. The type to read. - An object of type T read from the given location. + An object of type read from the given location. Returns the size of an object of the given type parameter. The type of object whose size is retrieved. - The size of an object of type T. + The size of an object of type . + + + Bypasses definite assignment rules for a given value. + The uninitialized object. + The type of the uninitialized object. Subtracts an element offset from the given reference. The reference to subtract the offset from. The offset to subtract. The type of reference. - A new reference that reflects the subraction of offset from pointer. + A new reference that reflects the subtraction of offset from pointer. + Subtracts an element offset from the given reference. + The reference to subtract the offset from. + The offset to subtract. + The type of reference. + A new reference that reflects the subtraction of offset from pointer. + + Subtracts an element offset from the given reference. The reference to subtract the offset from. The offset to subtract. The type of reference. A new reference that reflects the subraction of offset from pointer. + + Subtracts an element offset from the given void pointer. + The void pointer to subtract the offset from. + The offset to subtract. + The type of the void pointer. + A new void pointer that reflects the subtraction of offset from the specified pointer. + Subtracts a byte offset from the given reference. The reference to subtract the offset from. - + The offset to subtract. + The type of reference. + A new reference that reflects the subtraction of byte offset from pointer. + + + Subtracts a byte offset from the given reference. + The reference to subtract the offset from. + The offset to subtract. The type of reference. A new reference that reflects the subraction of byte offset from pointer. + + Returns a to a boxed value. + The value to unbox. + The type to be unboxed. + + is , and is a non-nullable value type. + + is not a boxed value type. + +-or- + + is not a boxed . + + cannot be found. + A to the boxed value . + - Writes a value of type T to the given location. + Writes a value of type to the given location. The location to write to. The value to write. The type of value to write. - Writes a value of type T to the given location -without assuming architecture dependent alignment of the addresses. + Writes a value of type to the given location without assuming architecture dependent alignment of the addresses. The location to write to. The value to write. The type of value to write. - Writes a value of type T to the given location -without assuming architecture dependent alignment of the addresses. + Writes a value of type to the given location without assuming architecture dependent alignment of the addresses. The location to write to. The value to write. The type of value to write. diff --git a/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/net6.0/System.Runtime.CompilerServices.Unsafe.dll b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/net6.0/System.Runtime.CompilerServices.Unsafe.dll new file mode 100644 index 00000000..999abc7e Binary files /dev/null and b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/net6.0/System.Runtime.CompilerServices.Unsafe.dll differ diff --git a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/ref/netstandard1.0/System.Runtime.CompilerServices.Unsafe.xml b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/net6.0/System.Runtime.CompilerServices.Unsafe.xml similarity index 55% rename from packages/System.Runtime.CompilerServices.Unsafe.4.5.2/ref/netstandard1.0/System.Runtime.CompilerServices.Unsafe.xml rename to packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/net6.0/System.Runtime.CompilerServices.Unsafe.xml index 6a7cfcff..9d794922 100644 --- a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/ref/netstandard1.0/System.Runtime.CompilerServices.Unsafe.xml +++ b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/net6.0/System.Runtime.CompilerServices.Unsafe.xml @@ -1,4 +1,5 @@ - + + System.Runtime.CompilerServices.Unsafe @@ -20,6 +21,20 @@ The type of reference. A new reference that reflects the addition of offset to pointer. + + Adds an element offset to the given reference. + The reference to add the offset to. + The offset to add. + The type of reference. + A new reference that reflects the addition of offset to pointer. + + + Adds an element offset to the given void pointer. + The void pointer to add the offset to. + The offset to add. + The type of void pointer. + A new void pointer that reflects the addition of offset to the specified pointer. + Adds a byte offset to the given reference. The reference to add the offset to. @@ -27,12 +42,20 @@ The type of reference. A new reference that reflects the addition of byte offset to pointer. + + Adds a byte offset to the given reference. + The reference to add the offset to. + The offset to add. + The type of reference. + A new reference that reflects the addition of byte offset to pointer. + Determines whether the specified references point to the same location. The first reference to compare. The second reference to compare. The type of reference. - true if left and right point to the same location; otherwise, false. + + if and point to the same location; otherwise, . Casts the given object to the specified type. @@ -41,11 +64,11 @@ The original object, casted to the given type. - Reinterprets the given reference as a reference to a value of type TTo. + Reinterprets the given reference as a reference to a value of type . The reference to reinterpret. - The type of reference to reinterpret.. + The type of reference to reinterpret. The desired type of the reference. - A reference to a value of type TTo. + A reference to a value of type . Returns a pointer to the given by-ref parameter. @@ -53,31 +76,37 @@ The type of object. A pointer to the given value. + + Reinterprets the given read-only reference as a reference. + The read-only reference to reinterpret. + The type of reference. + A reference to a value of type . + - Reinterprets the given location as a reference to a value of type T. + Reinterprets the given location as a reference to a value of type . The location of the value to reference. The type of the interpreted location. - A reference to a value of type T. + A reference to a value of type . Determines the byte offset from origin to target from the given references. The reference to origin. The reference to target. The type of reference. - Byte offset from origin to target i.e. target - origin. - - - Copies a value of type T to the given location. - The location to copy to. - A reference to the value to copy. - The type of value to copy. + Byte offset from origin to target i.e. - . - Copies a value of type T to the given location. + Copies a value of type to the given location. The location to copy to. A pointer to the value to copy. The type of value to copy. + + Copies a value of type to the given location. + The location to copy to. + A reference to the value to copy. + The type of value to copy. + Copies bytes from the source address to the destination address. The destination address to copy to. @@ -90,16 +119,14 @@ The source address to copy from. The number of bytes to copy. - - Copies bytes from the source address to the destination address -without assuming architecture dependent alignment of the addresses. + + Copies bytes from the source address to the destination address without assuming architecture dependent alignment of the addresses. The destination address to copy to. The source address to copy from. The number of bytes to copy. - - Copies bytes from the source address to the destination address -without assuming architecture dependent alignment of the addresses. + + Copies bytes from the source address to the destination address without assuming architecture dependent alignment of the addresses. The destination address to copy to. The source address to copy from. The number of bytes to copy. @@ -117,81 +144,145 @@ without assuming architecture dependent alignment of the addresses. The number of bytes to initialize. - Initializes a block of memory at the given location with a given initial value -without assuming architecture dependent alignment of the address. + Initializes a block of memory at the given location with a given initial value without assuming architecture dependent alignment of the address. The address of the start of the memory block to initialize. The value to initialize the block to. The number of bytes to initialize. - Initializes a block of memory at the given location with a given initial value -without assuming architecture dependent alignment of the address. + Initializes a block of memory at the given location with a given initial value without assuming architecture dependent alignment of the address. The address of the start of the memory block to initialize. The value to initialize the block to. The number of bytes to initialize. + + Returns a value that indicates whether a specified reference is greater than another specified reference. + The first value to compare. + The second value to compare. + The type of the reference. + + if is greater than ; otherwise, . + + + Returns a value that indicates whether a specified reference is less than another specified reference. + The first value to compare. + The second value to compare. + The type of the reference. + + if is less than ; otherwise, . + + + Determines if a given reference to a value of type is a null reference. + The reference to check. + The type of the reference. + + if is a null reference; otherwise, . + + + Returns a reference to a value of type that is a null reference. + The type of the reference. + A reference to a value of type that is a null reference. + - Reads a value of type T from the given location. + Reads a value of type from the given location. The location to read from. The type to read. - An object of type T read from the given location. + An object of type read from the given location. - Reads a value of type T from the given location -without assuming architecture dependent alignment of the addresses. + Reads a value of type from the given location without assuming architecture dependent alignment of the addresses. The location to read from. The type to read. - An object of type T read from the given location. + An object of type read from the given location. - Reads a value of type T from the given location -without assuming architecture dependent alignment of the addresses. + Reads a value of type from the given location without assuming architecture dependent alignment of the addresses. The location to read from. The type to read. - An object of type T read from the given location. + An object of type read from the given location. Returns the size of an object of the given type parameter. The type of object whose size is retrieved. - The size of an object of type T. + The size of an object of type . + + + Bypasses definite assignment rules for a given value. + The uninitialized object. + The type of the uninitialized object. Subtracts an element offset from the given reference. The reference to subtract the offset from. The offset to subtract. The type of reference. - A new reference that reflects the subraction of offset from pointer. + A new reference that reflects the subtraction of offset from pointer. + Subtracts an element offset from the given reference. + The reference to subtract the offset from. + The offset to subtract. + The type of reference. + A new reference that reflects the subtraction of offset from pointer. + + Subtracts an element offset from the given reference. The reference to subtract the offset from. The offset to subtract. The type of reference. A new reference that reflects the subraction of offset from pointer. + + Subtracts an element offset from the given void pointer. + The void pointer to subtract the offset from. + The offset to subtract. + The type of the void pointer. + A new void pointer that reflects the subtraction of offset from the specified pointer. + Subtracts a byte offset from the given reference. The reference to subtract the offset from. - + The offset to subtract. + The type of reference. + A new reference that reflects the subtraction of byte offset from pointer. + + + Subtracts a byte offset from the given reference. + The reference to subtract the offset from. + The offset to subtract. The type of reference. A new reference that reflects the subraction of byte offset from pointer. + + Returns a to a boxed value. + The value to unbox. + The type to be unboxed. + + is , and is a non-nullable value type. + + is not a boxed value type. + +-or- + + is not a boxed . + + cannot be found. + A to the boxed value . + - Writes a value of type T to the given location. + Writes a value of type to the given location. The location to write to. The value to write. The type of value to write. - Writes a value of type T to the given location -without assuming architecture dependent alignment of the addresses. + Writes a value of type to the given location without assuming architecture dependent alignment of the addresses. The location to write to. The value to write. The type of value to write. - Writes a value of type T to the given location -without assuming architecture dependent alignment of the addresses. + Writes a value of type to the given location without assuming architecture dependent alignment of the addresses. The location to write to. The value to write. The type of value to write. diff --git a/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/netcoreapp3.1/System.Runtime.CompilerServices.Unsafe.dll b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/netcoreapp3.1/System.Runtime.CompilerServices.Unsafe.dll new file mode 100644 index 00000000..103462b3 Binary files /dev/null and b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/netcoreapp3.1/System.Runtime.CompilerServices.Unsafe.dll differ diff --git a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/lib/netstandard2.0/System.Runtime.CompilerServices.Unsafe.xml b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/netcoreapp3.1/System.Runtime.CompilerServices.Unsafe.xml similarity index 55% rename from packages/System.Runtime.CompilerServices.Unsafe.4.5.2/lib/netstandard2.0/System.Runtime.CompilerServices.Unsafe.xml rename to packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/netcoreapp3.1/System.Runtime.CompilerServices.Unsafe.xml index 6a7cfcff..9d794922 100644 --- a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/lib/netstandard2.0/System.Runtime.CompilerServices.Unsafe.xml +++ b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/netcoreapp3.1/System.Runtime.CompilerServices.Unsafe.xml @@ -1,4 +1,5 @@ - + + System.Runtime.CompilerServices.Unsafe @@ -20,6 +21,20 @@ The type of reference. A new reference that reflects the addition of offset to pointer. + + Adds an element offset to the given reference. + The reference to add the offset to. + The offset to add. + The type of reference. + A new reference that reflects the addition of offset to pointer. + + + Adds an element offset to the given void pointer. + The void pointer to add the offset to. + The offset to add. + The type of void pointer. + A new void pointer that reflects the addition of offset to the specified pointer. + Adds a byte offset to the given reference. The reference to add the offset to. @@ -27,12 +42,20 @@ The type of reference. A new reference that reflects the addition of byte offset to pointer. + + Adds a byte offset to the given reference. + The reference to add the offset to. + The offset to add. + The type of reference. + A new reference that reflects the addition of byte offset to pointer. + Determines whether the specified references point to the same location. The first reference to compare. The second reference to compare. The type of reference. - true if left and right point to the same location; otherwise, false. + + if and point to the same location; otherwise, . Casts the given object to the specified type. @@ -41,11 +64,11 @@ The original object, casted to the given type. - Reinterprets the given reference as a reference to a value of type TTo. + Reinterprets the given reference as a reference to a value of type . The reference to reinterpret. - The type of reference to reinterpret.. + The type of reference to reinterpret. The desired type of the reference. - A reference to a value of type TTo. + A reference to a value of type . Returns a pointer to the given by-ref parameter. @@ -53,31 +76,37 @@ The type of object. A pointer to the given value. + + Reinterprets the given read-only reference as a reference. + The read-only reference to reinterpret. + The type of reference. + A reference to a value of type . + - Reinterprets the given location as a reference to a value of type T. + Reinterprets the given location as a reference to a value of type . The location of the value to reference. The type of the interpreted location. - A reference to a value of type T. + A reference to a value of type . Determines the byte offset from origin to target from the given references. The reference to origin. The reference to target. The type of reference. - Byte offset from origin to target i.e. target - origin. - - - Copies a value of type T to the given location. - The location to copy to. - A reference to the value to copy. - The type of value to copy. + Byte offset from origin to target i.e. - . - Copies a value of type T to the given location. + Copies a value of type to the given location. The location to copy to. A pointer to the value to copy. The type of value to copy. + + Copies a value of type to the given location. + The location to copy to. + A reference to the value to copy. + The type of value to copy. + Copies bytes from the source address to the destination address. The destination address to copy to. @@ -90,16 +119,14 @@ The source address to copy from. The number of bytes to copy. - - Copies bytes from the source address to the destination address -without assuming architecture dependent alignment of the addresses. + + Copies bytes from the source address to the destination address without assuming architecture dependent alignment of the addresses. The destination address to copy to. The source address to copy from. The number of bytes to copy. - - Copies bytes from the source address to the destination address -without assuming architecture dependent alignment of the addresses. + + Copies bytes from the source address to the destination address without assuming architecture dependent alignment of the addresses. The destination address to copy to. The source address to copy from. The number of bytes to copy. @@ -117,81 +144,145 @@ without assuming architecture dependent alignment of the addresses. The number of bytes to initialize. - Initializes a block of memory at the given location with a given initial value -without assuming architecture dependent alignment of the address. + Initializes a block of memory at the given location with a given initial value without assuming architecture dependent alignment of the address. The address of the start of the memory block to initialize. The value to initialize the block to. The number of bytes to initialize. - Initializes a block of memory at the given location with a given initial value -without assuming architecture dependent alignment of the address. + Initializes a block of memory at the given location with a given initial value without assuming architecture dependent alignment of the address. The address of the start of the memory block to initialize. The value to initialize the block to. The number of bytes to initialize. + + Returns a value that indicates whether a specified reference is greater than another specified reference. + The first value to compare. + The second value to compare. + The type of the reference. + + if is greater than ; otherwise, . + + + Returns a value that indicates whether a specified reference is less than another specified reference. + The first value to compare. + The second value to compare. + The type of the reference. + + if is less than ; otherwise, . + + + Determines if a given reference to a value of type is a null reference. + The reference to check. + The type of the reference. + + if is a null reference; otherwise, . + + + Returns a reference to a value of type that is a null reference. + The type of the reference. + A reference to a value of type that is a null reference. + - Reads a value of type T from the given location. + Reads a value of type from the given location. The location to read from. The type to read. - An object of type T read from the given location. + An object of type read from the given location. - Reads a value of type T from the given location -without assuming architecture dependent alignment of the addresses. + Reads a value of type from the given location without assuming architecture dependent alignment of the addresses. The location to read from. The type to read. - An object of type T read from the given location. + An object of type read from the given location. - Reads a value of type T from the given location -without assuming architecture dependent alignment of the addresses. + Reads a value of type from the given location without assuming architecture dependent alignment of the addresses. The location to read from. The type to read. - An object of type T read from the given location. + An object of type read from the given location. Returns the size of an object of the given type parameter. The type of object whose size is retrieved. - The size of an object of type T. + The size of an object of type . + + + Bypasses definite assignment rules for a given value. + The uninitialized object. + The type of the uninitialized object. Subtracts an element offset from the given reference. The reference to subtract the offset from. The offset to subtract. The type of reference. - A new reference that reflects the subraction of offset from pointer. + A new reference that reflects the subtraction of offset from pointer. + Subtracts an element offset from the given reference. + The reference to subtract the offset from. + The offset to subtract. + The type of reference. + A new reference that reflects the subtraction of offset from pointer. + + Subtracts an element offset from the given reference. The reference to subtract the offset from. The offset to subtract. The type of reference. A new reference that reflects the subraction of offset from pointer. + + Subtracts an element offset from the given void pointer. + The void pointer to subtract the offset from. + The offset to subtract. + The type of the void pointer. + A new void pointer that reflects the subtraction of offset from the specified pointer. + Subtracts a byte offset from the given reference. The reference to subtract the offset from. - + The offset to subtract. + The type of reference. + A new reference that reflects the subtraction of byte offset from pointer. + + + Subtracts a byte offset from the given reference. + The reference to subtract the offset from. + The offset to subtract. The type of reference. A new reference that reflects the subraction of byte offset from pointer. + + Returns a to a boxed value. + The value to unbox. + The type to be unboxed. + + is , and is a non-nullable value type. + + is not a boxed value type. + +-or- + + is not a boxed . + + cannot be found. + A to the boxed value . + - Writes a value of type T to the given location. + Writes a value of type to the given location. The location to write to. The value to write. The type of value to write. - Writes a value of type T to the given location -without assuming architecture dependent alignment of the addresses. + Writes a value of type to the given location without assuming architecture dependent alignment of the addresses. The location to write to. The value to write. The type of value to write. - Writes a value of type T to the given location -without assuming architecture dependent alignment of the addresses. + Writes a value of type to the given location without assuming architecture dependent alignment of the addresses. The location to write to. The value to write. The type of value to write. diff --git a/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/netstandard2.0/System.Runtime.CompilerServices.Unsafe.dll b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/netstandard2.0/System.Runtime.CompilerServices.Unsafe.dll new file mode 100644 index 00000000..491a80a9 Binary files /dev/null and b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/netstandard2.0/System.Runtime.CompilerServices.Unsafe.dll differ diff --git a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/lib/netcoreapp2.0/System.Runtime.CompilerServices.Unsafe.xml b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/netstandard2.0/System.Runtime.CompilerServices.Unsafe.xml similarity index 55% rename from packages/System.Runtime.CompilerServices.Unsafe.4.5.2/lib/netcoreapp2.0/System.Runtime.CompilerServices.Unsafe.xml rename to packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/netstandard2.0/System.Runtime.CompilerServices.Unsafe.xml index 6a7cfcff..9d794922 100644 --- a/packages/System.Runtime.CompilerServices.Unsafe.4.5.2/lib/netcoreapp2.0/System.Runtime.CompilerServices.Unsafe.xml +++ b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/lib/netstandard2.0/System.Runtime.CompilerServices.Unsafe.xml @@ -1,4 +1,5 @@ - + + System.Runtime.CompilerServices.Unsafe @@ -20,6 +21,20 @@ The type of reference. A new reference that reflects the addition of offset to pointer. + + Adds an element offset to the given reference. + The reference to add the offset to. + The offset to add. + The type of reference. + A new reference that reflects the addition of offset to pointer. + + + Adds an element offset to the given void pointer. + The void pointer to add the offset to. + The offset to add. + The type of void pointer. + A new void pointer that reflects the addition of offset to the specified pointer. + Adds a byte offset to the given reference. The reference to add the offset to. @@ -27,12 +42,20 @@ The type of reference. A new reference that reflects the addition of byte offset to pointer. + + Adds a byte offset to the given reference. + The reference to add the offset to. + The offset to add. + The type of reference. + A new reference that reflects the addition of byte offset to pointer. + Determines whether the specified references point to the same location. The first reference to compare. The second reference to compare. The type of reference. - true if left and right point to the same location; otherwise, false. + + if and point to the same location; otherwise, . Casts the given object to the specified type. @@ -41,11 +64,11 @@ The original object, casted to the given type. - Reinterprets the given reference as a reference to a value of type TTo. + Reinterprets the given reference as a reference to a value of type . The reference to reinterpret. - The type of reference to reinterpret.. + The type of reference to reinterpret. The desired type of the reference. - A reference to a value of type TTo. + A reference to a value of type . Returns a pointer to the given by-ref parameter. @@ -53,31 +76,37 @@ The type of object. A pointer to the given value. + + Reinterprets the given read-only reference as a reference. + The read-only reference to reinterpret. + The type of reference. + A reference to a value of type . + - Reinterprets the given location as a reference to a value of type T. + Reinterprets the given location as a reference to a value of type . The location of the value to reference. The type of the interpreted location. - A reference to a value of type T. + A reference to a value of type . Determines the byte offset from origin to target from the given references. The reference to origin. The reference to target. The type of reference. - Byte offset from origin to target i.e. target - origin. - - - Copies a value of type T to the given location. - The location to copy to. - A reference to the value to copy. - The type of value to copy. + Byte offset from origin to target i.e. - . - Copies a value of type T to the given location. + Copies a value of type to the given location. The location to copy to. A pointer to the value to copy. The type of value to copy. + + Copies a value of type to the given location. + The location to copy to. + A reference to the value to copy. + The type of value to copy. + Copies bytes from the source address to the destination address. The destination address to copy to. @@ -90,16 +119,14 @@ The source address to copy from. The number of bytes to copy. - - Copies bytes from the source address to the destination address -without assuming architecture dependent alignment of the addresses. + + Copies bytes from the source address to the destination address without assuming architecture dependent alignment of the addresses. The destination address to copy to. The source address to copy from. The number of bytes to copy. - - Copies bytes from the source address to the destination address -without assuming architecture dependent alignment of the addresses. + + Copies bytes from the source address to the destination address without assuming architecture dependent alignment of the addresses. The destination address to copy to. The source address to copy from. The number of bytes to copy. @@ -117,81 +144,145 @@ without assuming architecture dependent alignment of the addresses. The number of bytes to initialize. - Initializes a block of memory at the given location with a given initial value -without assuming architecture dependent alignment of the address. + Initializes a block of memory at the given location with a given initial value without assuming architecture dependent alignment of the address. The address of the start of the memory block to initialize. The value to initialize the block to. The number of bytes to initialize. - Initializes a block of memory at the given location with a given initial value -without assuming architecture dependent alignment of the address. + Initializes a block of memory at the given location with a given initial value without assuming architecture dependent alignment of the address. The address of the start of the memory block to initialize. The value to initialize the block to. The number of bytes to initialize. + + Returns a value that indicates whether a specified reference is greater than another specified reference. + The first value to compare. + The second value to compare. + The type of the reference. + + if is greater than ; otherwise, . + + + Returns a value that indicates whether a specified reference is less than another specified reference. + The first value to compare. + The second value to compare. + The type of the reference. + + if is less than ; otherwise, . + + + Determines if a given reference to a value of type is a null reference. + The reference to check. + The type of the reference. + + if is a null reference; otherwise, . + + + Returns a reference to a value of type that is a null reference. + The type of the reference. + A reference to a value of type that is a null reference. + - Reads a value of type T from the given location. + Reads a value of type from the given location. The location to read from. The type to read. - An object of type T read from the given location. + An object of type read from the given location. - Reads a value of type T from the given location -without assuming architecture dependent alignment of the addresses. + Reads a value of type from the given location without assuming architecture dependent alignment of the addresses. The location to read from. The type to read. - An object of type T read from the given location. + An object of type read from the given location. - Reads a value of type T from the given location -without assuming architecture dependent alignment of the addresses. + Reads a value of type from the given location without assuming architecture dependent alignment of the addresses. The location to read from. The type to read. - An object of type T read from the given location. + An object of type read from the given location. Returns the size of an object of the given type parameter. The type of object whose size is retrieved. - The size of an object of type T. + The size of an object of type . + + + Bypasses definite assignment rules for a given value. + The uninitialized object. + The type of the uninitialized object. Subtracts an element offset from the given reference. The reference to subtract the offset from. The offset to subtract. The type of reference. - A new reference that reflects the subraction of offset from pointer. + A new reference that reflects the subtraction of offset from pointer. + Subtracts an element offset from the given reference. + The reference to subtract the offset from. + The offset to subtract. + The type of reference. + A new reference that reflects the subtraction of offset from pointer. + + Subtracts an element offset from the given reference. The reference to subtract the offset from. The offset to subtract. The type of reference. A new reference that reflects the subraction of offset from pointer. + + Subtracts an element offset from the given void pointer. + The void pointer to subtract the offset from. + The offset to subtract. + The type of the void pointer. + A new void pointer that reflects the subtraction of offset from the specified pointer. + Subtracts a byte offset from the given reference. The reference to subtract the offset from. - + The offset to subtract. + The type of reference. + A new reference that reflects the subtraction of byte offset from pointer. + + + Subtracts a byte offset from the given reference. + The reference to subtract the offset from. + The offset to subtract. The type of reference. A new reference that reflects the subraction of byte offset from pointer. + + Returns a to a boxed value. + The value to unbox. + The type to be unboxed. + + is , and is a non-nullable value type. + + is not a boxed value type. + +-or- + + is not a boxed . + + cannot be found. + A to the boxed value . + - Writes a value of type T to the given location. + Writes a value of type to the given location. The location to write to. The value to write. The type of value to write. - Writes a value of type T to the given location -without assuming architecture dependent alignment of the addresses. + Writes a value of type to the given location without assuming architecture dependent alignment of the addresses. The location to write to. The value to write. The type of value to write. - Writes a value of type T to the given location -without assuming architecture dependent alignment of the addresses. + Writes a value of type to the given location without assuming architecture dependent alignment of the addresses. The location to write to. The value to write. The type of value to write. diff --git a/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/useSharedDesignerContext.txt b/packages/System.Runtime.CompilerServices.Unsafe.6.0.0/useSharedDesignerContext.txt new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/.signature.p7s b/packages/System.Threading.Tasks.Extensions.4.5.4/.signature.p7s new file mode 100644 index 00000000..e0ee9f43 Binary files /dev/null and b/packages/System.Threading.Tasks.Extensions.4.5.4/.signature.p7s differ diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/LICENSE.TXT b/packages/System.Threading.Tasks.Extensions.4.5.4/LICENSE.TXT new file mode 100644 index 00000000..984713a4 --- /dev/null +++ b/packages/System.Threading.Tasks.Extensions.4.5.4/LICENSE.TXT @@ -0,0 +1,23 @@ +The MIT License (MIT) + +Copyright (c) .NET Foundation and Contributors + +All rights reserved. + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/System.Threading.Tasks.Extensions.4.5.4.nupkg b/packages/System.Threading.Tasks.Extensions.4.5.4/System.Threading.Tasks.Extensions.4.5.4.nupkg new file mode 100644 index 00000000..a608bc53 Binary files /dev/null and b/packages/System.Threading.Tasks.Extensions.4.5.4/System.Threading.Tasks.Extensions.4.5.4.nupkg differ diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/THIRD-PARTY-NOTICES.TXT b/packages/System.Threading.Tasks.Extensions.4.5.4/THIRD-PARTY-NOTICES.TXT new file mode 100644 index 00000000..db542ca2 --- /dev/null +++ b/packages/System.Threading.Tasks.Extensions.4.5.4/THIRD-PARTY-NOTICES.TXT @@ -0,0 +1,309 @@ +.NET Core uses third-party libraries or other resources that may be +distributed under licenses different than the .NET Core software. + +In the event that we accidentally failed to list a required notice, please +bring it to our attention. Post an issue or email us: + + dotnet@microsoft.com + +The attached notices are provided for information only. + +License notice for Slicing-by-8 +------------------------------- + +http://sourceforge.net/projects/slicing-by-8/ + +Copyright (c) 2004-2006 Intel Corporation - All Rights Reserved + + +This software program is licensed subject to the BSD License, available at +http://www.opensource.org/licenses/bsd-license.html. + + +License notice for Unicode data +------------------------------- + +http://www.unicode.org/copyright.html#License + +Copyright © 1991-2017 Unicode, Inc. All rights reserved. +Distributed under the Terms of Use in http://www.unicode.org/copyright.html. + +Permission is hereby granted, free of charge, to any person obtaining +a copy of the Unicode data files and any associated documentation +(the "Data Files") or Unicode software and any associated documentation +(the "Software") to deal in the Data Files or Software +without restriction, including without limitation the rights to use, +copy, modify, merge, publish, distribute, and/or sell copies of +the Data Files or Software, and to permit persons to whom the Data Files +or Software are furnished to do so, provided that either +(a) this copyright and permission notice appear with all copies +of the Data Files or Software, or +(b) this copyright and permission notice appear in associated +Documentation. + +THE DATA FILES AND SOFTWARE ARE PROVIDED "AS IS", WITHOUT WARRANTY OF +ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE +WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +NONINFRINGEMENT OF THIRD PARTY RIGHTS. +IN NO EVENT SHALL THE COPYRIGHT HOLDER OR HOLDERS INCLUDED IN THIS +NOTICE BE LIABLE FOR ANY CLAIM, OR ANY SPECIAL INDIRECT OR CONSEQUENTIAL +DAMAGES, OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, +DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER +TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR +PERFORMANCE OF THE DATA FILES OR SOFTWARE. + +Except as contained in this notice, the name of a copyright holder +shall not be used in advertising or otherwise to promote the sale, +use or other dealings in these Data Files or Software without prior +written authorization of the copyright holder. + +License notice for Zlib +----------------------- + +https://github.com/madler/zlib +http://zlib.net/zlib_license.html + +/* zlib.h -- interface of the 'zlib' general purpose compression library + version 1.2.11, January 15th, 2017 + + Copyright (C) 1995-2017 Jean-loup Gailly and Mark Adler + + This software is provided 'as-is', without any express or implied + warranty. In no event will the authors be held liable for any damages + arising from the use of this software. + + Permission is granted to anyone to use this software for any purpose, + including commercial applications, and to alter it and redistribute it + freely, subject to the following restrictions: + + 1. The origin of this software must not be misrepresented; you must not + claim that you wrote the original software. If you use this software + in a product, an acknowledgment in the product documentation would be + appreciated but is not required. + 2. Altered source versions must be plainly marked as such, and must not be + misrepresented as being the original software. + 3. This notice may not be removed or altered from any source distribution. + + Jean-loup Gailly Mark Adler + jloup@gzip.org madler@alumni.caltech.edu + +*/ + +License notice for Mono +------------------------------- + +http://www.mono-project.com/docs/about-mono/ + +Copyright (c) .NET Foundation Contributors + +MIT License + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the Software), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF +MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + +License notice for International Organization for Standardization +----------------------------------------------------------------- + +Portions (C) International Organization for Standardization 1986: + Permission to copy in any form is granted for use with + conforming SGML systems and applications as defined in + ISO 8879, provided this notice is included in all copies. + +License notice for Intel +------------------------ + +"Copyright (c) 2004-2006 Intel Corporation - All Rights Reserved + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are met: + +1. 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IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN +THE SOFTWARE. + +Third party notice for W3C +-------------------------- + +"W3C SOFTWARE AND DOCUMENT NOTICE AND LICENSE +Status: This license takes effect 13 May, 2015. +This work is being provided by the copyright holders under the following license. +License +By obtaining and/or copying this work, you (the licensee) agree that you have read, understood, and will comply with the following terms and conditions. +Permission to copy, modify, and distribute this work, with or without modification, for any purpose and without fee or royalty is hereby granted, provided that you include the following on ALL copies of the work or portions thereof, including modifications: +The full text of this NOTICE in a location viewable to users of the redistributed or derivative work. +Any pre-existing intellectual property disclaimers, notices, or terms and conditions. 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Copyright © [YEAR] W3C® (MIT, ERCIM, Keio, Beihang)." +Disclaimers +THIS WORK IS PROVIDED "AS IS," AND COPYRIGHT HOLDERS MAKE NO REPRESENTATIONS OR WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO, WARRANTIES OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE OR THAT THE USE OF THE SOFTWARE OR DOCUMENT WILL NOT INFRINGE ANY THIRD PARTY PATENTS, COPYRIGHTS, TRADEMARKS OR OTHER RIGHTS. +COPYRIGHT HOLDERS WILL NOT BE LIABLE FOR ANY DIRECT, INDIRECT, SPECIAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF ANY USE OF THE SOFTWARE OR DOCUMENT. +The name and trademarks of copyright holders may NOT be used in advertising or publicity pertaining to the work without specific, written prior permission. Title to copyright in this work will at all times remain with copyright holders." + +License notice for Bit Twiddling Hacks +-------------------------------------- + +Bit Twiddling Hacks + +By Sean Eron Anderson +seander@cs.stanford.edu + +Individually, the code snippets here are in the public domain (unless otherwise +noted) — feel free to use them however you please. The aggregate collection and +descriptions are © 1997-2005 Sean Eron Anderson. The code and descriptions are +distributed in the hope that they will be useful, but WITHOUT ANY WARRANTY and +without even the implied warranty of merchantability or fitness for a particular +purpose. + +License notice for Brotli +-------------------------------------- + +Copyright (c) 2009, 2010, 2013-2016 by the Brotli Authors. + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to deal +in the Software without restriction, including without limitation the rights +to use, copy, modify, merge, publish, distribute, sublicense, and/or sell +copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in +all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN +THE SOFTWARE. + +compress_fragment.c: +Copyright (c) 2011, Google Inc. +All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are +met: + + * Redistributions of source code must retain the above copyright +notice, this list of conditions and the following disclaimer. + * Redistributions in binary form must reproduce the above +copyright notice, this list of conditions and the following disclaimer +in the documentation and/or other materials provided with the +distribution. + * Neither the name of Google Inc. nor the names of its +contributors may be used to endorse or promote products derived from +this software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +""AS IS"" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + +decode_fuzzer.c: +Copyright (c) 2015 The Chromium Authors. All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are +met: + + * Redistributions of source code must retain the above copyright +notice, this list of conditions and the following disclaimer. + * Redistributions in binary form must reproduce the above +copyright notice, this list of conditions and the following disclaimer +in the documentation and/or other materials provided with the +distribution. + * Neither the name of Google Inc. nor the names of its +contributors may be used to endorse or promote products derived from +this software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +""AS IS"" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE." + diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/MonoAndroid10/_._ b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/MonoAndroid10/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/MonoTouch10/_._ b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/MonoTouch10/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/net461/System.Threading.Tasks.Extensions.dll b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/net461/System.Threading.Tasks.Extensions.dll new file mode 100644 index 00000000..eeec9285 Binary files /dev/null and b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/net461/System.Threading.Tasks.Extensions.dll differ diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/net461/System.Threading.Tasks.Extensions.xml b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/net461/System.Threading.Tasks.Extensions.xml new file mode 100644 index 00000000..5e02a99d --- /dev/null +++ b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/net461/System.Threading.Tasks.Extensions.xml @@ -0,0 +1,166 @@ + + + System.Threading.Tasks.Extensions + + + + + + + + + + + + + + + + + + + Provides a value type that wraps a and a TResult, only one of which is used. + The result. + + + Initializes a new instance of the class using the supplied task that represents the operation. + The task. + The task argument is null. + + + Initializes a new instance of the class using the supplied result of a successful operation. + The result. + + + Retrieves a object that represents this . + The object that is wrapped in this if one exists, or a new object that represents the result. + + + Configures an awaiter for this value. + true to attempt to marshal the continuation back to the captured context; otherwise, false. + The configured awaiter. + + + Creates a method builder for use with an async method. + The created builder. + + + Determines whether the specified object is equal to the current object. + The object to compare with the current object. + true if the specified object is equal to the current object; otherwise, false. + + + Determines whether the specified object is equal to the current object. + The object to compare with the current object. + true if the specified object is equal to the current object; otherwise, false. + + + Creates an awaiter for this value. + The awaiter. + + + Returns the hash code for this instance. + The hash code for the current object. + + + Gets a value that indicates whether this object represents a canceled operation. + true if this object represents a canceled operation; otherwise, false. + + + Gets a value that indicates whether this object represents a completed operation. + true if this object represents a completed operation; otherwise, false. + + + Gets a value that indicates whether this object represents a successfully completed operation. + true if this object represents a successfully completed operation; otherwise, false. + + + Gets a value that indicates whether this object represents a failed operation. + true if this object represents a failed operation; otherwise, false. + + + Compares two values for equality. + The first value to compare. + The second value to compare. + true if the two values are equal; otherwise, false. + + + Determines whether two values are unequal. + The first value to compare. + The seconed value to compare. + true if the two values are not equal; otherwise, false. + + + Gets the result. + The result. + + + Returns a string that represents the current object. + A string that represents the current object. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + \ No newline at end of file diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netcoreapp2.1/_._ b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netcoreapp2.1/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netstandard1.0/System.Threading.Tasks.Extensions.dll b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netstandard1.0/System.Threading.Tasks.Extensions.dll new file mode 100644 index 00000000..dfc4cdf6 Binary files /dev/null and b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netstandard1.0/System.Threading.Tasks.Extensions.dll differ diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netstandard1.0/System.Threading.Tasks.Extensions.xml b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netstandard1.0/System.Threading.Tasks.Extensions.xml new file mode 100644 index 00000000..5e02a99d --- /dev/null +++ b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netstandard1.0/System.Threading.Tasks.Extensions.xml @@ -0,0 +1,166 @@ + + + System.Threading.Tasks.Extensions + + + + + + + + + + + + + + + + + + + Provides a value type that wraps a and a TResult, only one of which is used. + The result. + + + Initializes a new instance of the class using the supplied task that represents the operation. + The task. + The task argument is null. + + + Initializes a new instance of the class using the supplied result of a successful operation. + The result. + + + Retrieves a object that represents this . + The object that is wrapped in this if one exists, or a new object that represents the result. + + + Configures an awaiter for this value. + true to attempt to marshal the continuation back to the captured context; otherwise, false. + The configured awaiter. + + + Creates a method builder for use with an async method. + The created builder. + + + Determines whether the specified object is equal to the current object. + The object to compare with the current object. + true if the specified object is equal to the current object; otherwise, false. + + + Determines whether the specified object is equal to the current object. + The object to compare with the current object. + true if the specified object is equal to the current object; otherwise, false. + + + Creates an awaiter for this value. + The awaiter. + + + Returns the hash code for this instance. + The hash code for the current object. + + + Gets a value that indicates whether this object represents a canceled operation. + true if this object represents a canceled operation; otherwise, false. + + + Gets a value that indicates whether this object represents a completed operation. + true if this object represents a completed operation; otherwise, false. + + + Gets a value that indicates whether this object represents a successfully completed operation. + true if this object represents a successfully completed operation; otherwise, false. + + + Gets a value that indicates whether this object represents a failed operation. + true if this object represents a failed operation; otherwise, false. + + + Compares two values for equality. + The first value to compare. + The second value to compare. + true if the two values are equal; otherwise, false. + + + Determines whether two values are unequal. + The first value to compare. + The seconed value to compare. + true if the two values are not equal; otherwise, false. + + + Gets the result. + The result. + + + Returns a string that represents the current object. + A string that represents the current object. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + \ No newline at end of file diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netstandard2.0/System.Threading.Tasks.Extensions.dll b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netstandard2.0/System.Threading.Tasks.Extensions.dll new file mode 100644 index 00000000..dfab2347 Binary files /dev/null and b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netstandard2.0/System.Threading.Tasks.Extensions.dll differ diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netstandard2.0/System.Threading.Tasks.Extensions.xml b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netstandard2.0/System.Threading.Tasks.Extensions.xml new file mode 100644 index 00000000..5e02a99d --- /dev/null +++ b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/netstandard2.0/System.Threading.Tasks.Extensions.xml @@ -0,0 +1,166 @@ + + + System.Threading.Tasks.Extensions + + + + + + + + + + + + + + + + + + + Provides a value type that wraps a and a TResult, only one of which is used. + The result. + + + Initializes a new instance of the class using the supplied task that represents the operation. + The task. + The task argument is null. + + + Initializes a new instance of the class using the supplied result of a successful operation. + The result. + + + Retrieves a object that represents this . + The object that is wrapped in this if one exists, or a new object that represents the result. + + + Configures an awaiter for this value. + true to attempt to marshal the continuation back to the captured context; otherwise, false. + The configured awaiter. + + + Creates a method builder for use with an async method. + The created builder. + + + Determines whether the specified object is equal to the current object. + The object to compare with the current object. + true if the specified object is equal to the current object; otherwise, false. + + + Determines whether the specified object is equal to the current object. + The object to compare with the current object. + true if the specified object is equal to the current object; otherwise, false. + + + Creates an awaiter for this value. + The awaiter. + + + Returns the hash code for this instance. + The hash code for the current object. + + + Gets a value that indicates whether this object represents a canceled operation. + true if this object represents a canceled operation; otherwise, false. + + + Gets a value that indicates whether this object represents a completed operation. + true if this object represents a completed operation; otherwise, false. + + + Gets a value that indicates whether this object represents a successfully completed operation. + true if this object represents a successfully completed operation; otherwise, false. + + + Gets a value that indicates whether this object represents a failed operation. + true if this object represents a failed operation; otherwise, false. + + + Compares two values for equality. + The first value to compare. + The second value to compare. + true if the two values are equal; otherwise, false. + + + Determines whether two values are unequal. + The first value to compare. + The seconed value to compare. + true if the two values are not equal; otherwise, false. + + + Gets the result. + The result. + + + Returns a string that represents the current object. + A string that represents the current object. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + \ No newline at end of file diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/portable-net45+win8+wp8+wpa81/System.Threading.Tasks.Extensions.dll b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/portable-net45+win8+wp8+wpa81/System.Threading.Tasks.Extensions.dll new file mode 100644 index 00000000..dfc4cdf6 Binary files /dev/null and b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/portable-net45+win8+wp8+wpa81/System.Threading.Tasks.Extensions.dll differ diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/portable-net45+win8+wp8+wpa81/System.Threading.Tasks.Extensions.xml b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/portable-net45+win8+wp8+wpa81/System.Threading.Tasks.Extensions.xml new file mode 100644 index 00000000..5e02a99d --- /dev/null +++ b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/portable-net45+win8+wp8+wpa81/System.Threading.Tasks.Extensions.xml @@ -0,0 +1,166 @@ + + + System.Threading.Tasks.Extensions + + + + + + + + + + + + + + + + + + + Provides a value type that wraps a and a TResult, only one of which is used. + The result. + + + Initializes a new instance of the class using the supplied task that represents the operation. + The task. + The task argument is null. + + + Initializes a new instance of the class using the supplied result of a successful operation. + The result. + + + Retrieves a object that represents this . + The object that is wrapped in this if one exists, or a new object that represents the result. + + + Configures an awaiter for this value. + true to attempt to marshal the continuation back to the captured context; otherwise, false. + The configured awaiter. + + + Creates a method builder for use with an async method. + The created builder. + + + Determines whether the specified object is equal to the current object. + The object to compare with the current object. + true if the specified object is equal to the current object; otherwise, false. + + + Determines whether the specified object is equal to the current object. + The object to compare with the current object. + true if the specified object is equal to the current object; otherwise, false. + + + Creates an awaiter for this value. + The awaiter. + + + Returns the hash code for this instance. + The hash code for the current object. + + + Gets a value that indicates whether this object represents a canceled operation. + true if this object represents a canceled operation; otherwise, false. + + + Gets a value that indicates whether this object represents a completed operation. + true if this object represents a completed operation; otherwise, false. + + + Gets a value that indicates whether this object represents a successfully completed operation. + true if this object represents a successfully completed operation; otherwise, false. + + + Gets a value that indicates whether this object represents a failed operation. + true if this object represents a failed operation; otherwise, false. + + + Compares two values for equality. + The first value to compare. + The second value to compare. + true if the two values are equal; otherwise, false. + + + Determines whether two values are unequal. + The first value to compare. + The seconed value to compare. + true if the two values are not equal; otherwise, false. + + + Gets the result. + The result. + + + Returns a string that represents the current object. + A string that represents the current object. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + \ No newline at end of file diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/xamarinios10/_._ b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/xamarinios10/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/xamarinmac20/_._ b/packages/System.Threading.Tasks.Extensions.4.5.4/lib/xamarinmac20/_._ new file mode 100644 index 00000000..e69de29b diff --git a/packages/System.Threading.Tasks.Extensions.4.5.4/lib/xamarintvos10/_._ 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