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https://github.com/WinampDesktop/winamp.git
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614 lines
17 KiB
C++
614 lines
17 KiB
C++
/*
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* Load_dsym.cpp
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* -------------
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* Purpose: Digital Symphony module loader
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* Notes : Based on information from the DSym_Info file and sigma-delta decompression code from TimPlayer.
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* Authors: OpenMPT Devs
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* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
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*/
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#include "stdafx.h"
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#include "Loaders.h"
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#include "BitReader.h"
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OPENMPT_NAMESPACE_BEGIN
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struct DSymFileHeader
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{
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char magic[8];
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uint8le version; // 0 / 1
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uint8le numChannels; // 1...8
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uint16le numOrders; // 0...4096
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uint16le numTracks; // 0...4096
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uint16le infoLenLo;
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uint8le infoLenHi;
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bool Validate() const
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{
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return !std::memcmp(magic, "\x02\x01\x13\x13\x14\x12\x01\x0B", 8)
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&& version <= 1
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&& numChannels >= 1 && numChannels <= 8
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&& numOrders <= 4096
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&& numTracks <= 4096;
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}
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uint64 GetHeaderMinimumAdditionalSize() const
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{
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return 72u;
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}
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};
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MPT_BINARY_STRUCT(DSymFileHeader, 17)
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static std::vector<std::byte> DecompressDSymLZW(FileReader &file, uint32 size)
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{
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BitReader bitFile(file);
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const auto startPos = bitFile.GetPosition();
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// In the best case, 13 bits decode 8192 bytes, a ratio of approximately 1:5042.
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// Too much for reserving memory in case of malformed files, just choose an arbitrary but realistic upper limit.
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std::vector<std::byte> output;
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output.reserve(std::min(size, std::min(mpt::saturate_cast<uint32>(file.BytesLeft()), Util::MaxValueOfType(size) / 50u) * 50u));
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static constexpr uint16 lzwBits = 13, MaxNodes = 1 << lzwBits;
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static constexpr uint16 ResetDict = 256, EndOfStream = 257;
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struct LZWEntry
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{
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uint16 prev;
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std::byte value;
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};
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std::vector<LZWEntry> dictionary(MaxNodes);
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std::vector<std::byte> match(MaxNodes);
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// Initialize dictionary
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for(int i = 0; i < 256; i++)
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{
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dictionary[i].prev = MaxNodes;
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dictionary[i].value = static_cast<std::byte>(i);
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}
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uint8 codeSize = 9;
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uint16 prevCode = 0;
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uint16 nextIndex = 257;
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while(true)
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{
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// Read next code
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const auto newCode = static_cast<uint16>(bitFile.ReadBits(codeSize));
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if(newCode == EndOfStream || newCode > nextIndex || output.size() >= size)
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break;
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// Reset dictionary
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if(newCode == ResetDict)
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{
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codeSize = 9;
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prevCode = 0;
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nextIndex = 257;
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continue;
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}
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// Output
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auto code = (newCode < nextIndex) ? newCode : prevCode;
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auto writeOffset = MaxNodes;
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do
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{
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match[--writeOffset] = dictionary[code].value;
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code = dictionary[code].prev;
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} while(code < MaxNodes);
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output.insert(output.end(), match.begin() + writeOffset, match.end());
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// Handling for KwKwK problem
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if(newCode == nextIndex)
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output.push_back(match[writeOffset]);
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// Add to dictionary
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if(nextIndex < MaxNodes)
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{
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// Special case for FULLEFFECT, NARCOSIS and NEWDANCE, which end with a dictionary size of 512
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// right before the end-of-stream token, but the code size is expected to be 9
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if(output.size() >= size)
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continue;
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dictionary[nextIndex].value = match[writeOffset];
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dictionary[nextIndex].prev = prevCode;
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nextIndex++;
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if(nextIndex != MaxNodes && nextIndex == (1u << codeSize))
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codeSize++;
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}
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prevCode = newCode;
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}
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MPT_ASSERT(output.size() == size);
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// Align length to 4 bytes
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file.Seek(startPos + ((bitFile.GetPosition() - startPos + 3u) & ~FileReader::off_t(3)));
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return output;
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}
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static std::vector<std::byte> DecompressDSymSigmaDelta(FileReader &file, uint32 size)
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{
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const uint8 maxRunLength = std::max(file.ReadUint8(), uint8(1));
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BitReader bitFile(file);
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const auto startPos = bitFile.GetPosition();
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// In the best case, sigma-delta compression represents each sample point as one bit.
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// As a result, if we have a file length of n, we know that the sample can be at most n*8 sample points long.
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LimitMax(size, std::min(mpt::saturate_cast<uint32>(file.BytesLeft()), Util::MaxValueOfType(size) / 8u) * 8u);
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std::vector<std::byte> output(size);
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uint32 pos = 0;
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uint8 runLength = maxRunLength;
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uint8 numBits = 8;
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uint8 accum = static_cast<uint8>(bitFile.ReadBits(numBits));
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output[pos++] = mpt::byte_cast<std::byte>(accum);
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while(pos < size)
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{
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const uint32 value = bitFile.ReadBits(numBits);
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// Increase bit width
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if(value == 0)
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{
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if(numBits >= 9)
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break;
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numBits++;
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runLength = maxRunLength;
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continue;
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}
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if(value & 1)
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accum -= static_cast<uint8>(value >> 1);
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else
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accum += static_cast<uint8>(value >> 1);
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output[pos++] = mpt::byte_cast<std::byte>(accum);
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// Reset run length if high bit is set
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if((value >> (numBits - 1u)) != 0)
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{
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runLength = maxRunLength;
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continue;
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}
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// Decrease bit width
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if(--runLength == 0)
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{
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if(numBits > 1)
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numBits--;
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runLength = maxRunLength;
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}
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}
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// Align length to 4 bytes
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file.Seek(startPos + ((bitFile.GetPosition() - startPos + 3u) & ~FileReader::off_t(3)));
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return output;
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}
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static bool ReadDSymChunk(FileReader &file, std::vector<std::byte> &data, uint32 size)
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{
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const uint8 packingType = file.ReadUint8();
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if(packingType > 1)
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return false;
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if(packingType)
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{
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try
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{
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data = DecompressDSymLZW(file, size);
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} catch(const BitReader::eof &)
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{
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return false;
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}
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} else
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{
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if(!file.CanRead(size))
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return false;
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file.ReadVector(data, size);
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}
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return data.size() >= size;
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}
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CSoundFile::ProbeResult CSoundFile::ProbeFileHeaderDSym(MemoryFileReader file, const uint64 *pfilesize)
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{
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DSymFileHeader fileHeader;
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if(!file.ReadStruct(fileHeader))
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return ProbeWantMoreData;
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if(!fileHeader.Validate())
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return ProbeFailure;
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return ProbeAdditionalSize(file, pfilesize, fileHeader.GetHeaderMinimumAdditionalSize());
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}
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bool CSoundFile::ReadDSym(FileReader &file, ModLoadingFlags loadFlags)
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{
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DSymFileHeader fileHeader;
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file.Rewind();
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if(!file.ReadStruct(fileHeader) || !fileHeader.Validate())
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return false;
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if(!file.CanRead(mpt::saturate_cast<FileReader::off_t>(fileHeader.GetHeaderMinimumAdditionalSize())))
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return false;
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if(loadFlags == onlyVerifyHeader)
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return true;
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InitializeGlobals(MOD_TYPE_MOD);
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m_SongFlags.set(SONG_IMPORTED | SONG_AMIGALIMITS);
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m_SongFlags.reset(SONG_ISAMIGA);
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m_nChannels = fileHeader.numChannels;
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m_nSamples = 63;
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for(CHANNELINDEX chn = 0; chn < m_nChannels; chn++)
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{
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InitChannel(chn);
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ChnSettings[chn].nPan = (((chn & 3) == 1) || ((chn & 3) == 2)) ? 64 : 192;
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}
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uint8 sampleNameLength[64] = {};
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for(SAMPLEINDEX smp = 1; smp <= m_nSamples; smp++)
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{
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Samples[smp].Initialize(MOD_TYPE_MOD);
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sampleNameLength[smp] = file.ReadUint8();
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if(!(sampleNameLength[smp] & 0x80))
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Samples[smp].nLength = file.ReadUint24LE() << 1;
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}
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file.ReadSizedString<uint8le, mpt::String::spacePadded>(m_songName);
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const auto allowedCommands = file.ReadArray<uint8, 8>();
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std::vector<std::byte> sequenceData;
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if(fileHeader.numOrders)
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{
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const uint32 sequenceSize = fileHeader.numOrders * fileHeader.numChannels * 2u;
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if(!ReadDSymChunk(file, sequenceData, sequenceSize))
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return false;
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}
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const auto sequence = mpt::as_span(reinterpret_cast<uint16le *>(sequenceData.data()), sequenceData.size() / 2u);
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std::vector<std::byte> trackData;
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trackData.reserve(fileHeader.numTracks * 256u);
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// For some reason, patterns are stored in 512K chunks
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for(uint16 offset = 0; offset < fileHeader.numTracks; offset += 2000)
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{
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const uint32 chunkSize = std::min(fileHeader.numTracks - offset, 2000) * 256;
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std::vector<std::byte> chunk;
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if(!ReadDSymChunk(file, chunk, chunkSize))
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return false;
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trackData.insert(trackData.end(), chunk.begin(), chunk.end());
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}
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const auto tracks = mpt::byte_cast<mpt::span<uint8>>(mpt::as_span(trackData));
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Order().resize(fileHeader.numOrders);
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for(ORDERINDEX pat = 0; pat < fileHeader.numOrders; pat++)
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{
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Order()[pat] = pat;
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if(!(loadFlags & loadPatternData) || !Patterns.Insert(pat, 64))
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continue;
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for(CHANNELINDEX chn = 0; chn < m_nChannels; chn++)
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{
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const uint16 track = sequence[pat * m_nChannels + chn];
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if(track >= fileHeader.numTracks)
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continue;
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ModCommand *m = Patterns[pat].GetpModCommand(0, chn);
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for(ROWINDEX row = 0; row < 64; row++, m += m_nChannels)
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{
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const auto data = tracks.subspan(track * 256 + row * 4, 4);
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m->note = data[0] & 0x3F;
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if(m->note)
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m->note += 47 + NOTE_MIN;
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else
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m->note = NOTE_NONE;
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m->instr = (data[0] >> 6) | ((data[1] & 0x0F) << 2);
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const uint8 command = (data[1] >> 6) | ((data[2] & 0x0F) << 2);
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const uint16 param = (data[2] >> 4) | (data[3] << 4);
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if(!(allowedCommands[command >> 3u] & (1u << (command & 7u))))
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continue;
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if(command == 0 && param == 0)
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continue;
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m->command = command;
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m->param = static_cast<uint8>(param);
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m->vol = static_cast<ModCommand::VOL>(param >> 8);
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switch(command)
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{
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case 0x00: // 00 xyz Normal play or Arpeggio + Volume Slide Up
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case 0x01: // 01 xyy Slide Up + Volume Slide Up
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case 0x02: // 01 xyy Slide Up + Volume Slide Up
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case 0x20: // 20 xyz Normal play or Arpeggio + Volume Slide Down
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case 0x21: // 21 xyy Slide Up + Volume Slide Down
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case 0x22: // 22 xyy Slide Down + Volume Slide Down
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m->command &= 0x0F;
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ConvertModCommand(*m);
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if(m->vol)
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m->volcmd = (command < 0x20) ? VOLCMD_VOLSLIDEUP : VOLCMD_VOLSLIDEDOWN;
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break;
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case 0x03: // 03 xyy Tone Portamento
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case 0x04: // 04 xyz Vibrato
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case 0x05: // 05 xyz Tone Portamento + Volume Slide
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case 0x06: // 06 xyz Vibrato + Volume Slide
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case 0x07: // 07 xyz Tremolo
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case 0x0C: // 0C xyy Set Volume
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ConvertModCommand(*m);
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break;
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case 0x09: // 09 xxx Set Sample Offset
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m->command = CMD_OFFSET;
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m->param = static_cast<ModCommand::PARAM>(param >> 1);
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if(param >= 0x200)
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{
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m->volcmd = VOLCMD_OFFSET;
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m->vol >>= 1;
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}
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break;
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case 0x0A: // 0A xyz Volume Slide + Fine Slide Up
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case 0x2A: // 2A xyz Volume Slide + Fine Slide Down
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if(param < 0xFF)
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{
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m->command &= 0x0F;
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ConvertModCommand(*m);
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} else
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{
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m->command = CMD_MODCMDEX;
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m->param = static_cast<ModCommand::PARAM>(((command < 0x20) ? 0x10 : 0x20) | (param >> 8));
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if(param & 0xF0)
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{
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m->volcmd = VOLCMD_VOLSLIDEUP;
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m->vol = static_cast<ModCommand::VOL>((param >> 4) & 0x0F);
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} else
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{
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m->volcmd = VOLCMD_VOLSLIDEDOWN;
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m->vol = static_cast<ModCommand::VOL>(param & 0x0F);
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}
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}
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break;
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case 0x0B: // 0B xxx Position Jump
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case 0x0F: // 0F xxx Set Speed
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m->command = (command == 0x0B) ? CMD_POSITIONJUMP : CMD_SPEED;
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m->param = mpt::saturate_cast<ModCommand::PARAM>(param);
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break;
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case 0x0D: // 0D xyy Pattern Break (not BCD-encoded like in MOD)
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m->command = CMD_PATTERNBREAK;
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if(m->param > 63)
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m->param = 0;
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break;
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case 0x10: // 10 xxy Filter Control (not implemented in Digital Symphony)
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case 0x13: // 13 xxy Glissando Control
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case 0x14: // 14 xxy Set Vibrato Waveform
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case 0x15: // 15 xxy Set Fine Tune
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case 0x17: // 17 xxy Set Tremolo Waveform
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case 0x1F: // 1F xxy Invert Loop
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m->command = CMD_MODCMDEX;
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m->param = (command << 4) | (m->param & 0x0F);
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break;
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case 0x16: // 16 xxx Jump to Loop
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case 0x19: // 19 xxx Retrig Note
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case 0x1C: // 1C xxx Note Cut
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case 0x1D: // 1D xxx Note Delay
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case 0x1E: // 1E xxx Pattern Delay
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m->command = CMD_MODCMDEX;
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m->param = (command << 4) | static_cast<ModCommand::PARAM>(std::min(param, uint16(0x0F)));
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break;
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case 0x11: // 11 xyy Fine Slide Up + Fine Volume Slide Up
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case 0x12: // 12 xyy Fine Slide Down + Fine Volume Slide Up
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case 0x1A: // 1A xyy Fine Slide Up + Fine Volume Slide Down
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case 0x1B: // 1B xyy Fine Slide Down + Fine Volume Slide Down
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m->command = CMD_MODCMDEX;
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if(m->param & 0xFF)
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{
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m->param = static_cast<ModCommand::PARAM>(((command == 0x11 || command == 0x1A) ? 0x10 : 0x20) | (param & 0x0F));
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if(param & 0xF00)
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m->volcmd = (command >= 0x1A) ? VOLCMD_FINEVOLDOWN : VOLCMD_FINEVOLUP;
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} else
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{
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m->param = static_cast<ModCommand::PARAM>(((command >= 0x1A) ? 0xB0 : 0xA0) | (param >> 8));
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}
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break;
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case 0x2F: // 2F xxx Set Tempo
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if(param > 0)
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{
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m->command = CMD_TEMPO;
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m->param = mpt::saturate_cast<ModCommand::PARAM>(std::max(8, param + 4) / 8);
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#ifdef MODPLUG_TRACKER
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m->param = std::max(m->param, ModCommand::PARAM(0x20));
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#endif
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} else
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{
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m->command = CMD_NONE;
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}
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break;
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case 0x2B: // 2B xyy Line Jump
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m->command = CMD_PATTERNBREAK;
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for(CHANNELINDEX brkChn = 0; brkChn < m_nChannels; brkChn++)
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{
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ModCommand &cmd = *(m - chn + brkChn);
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if(cmd.command != CMD_NONE)
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continue;
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cmd.command = CMD_POSITIONJUMP;
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cmd.param = mpt::saturate_cast<ModCommand::PARAM>(pat);
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}
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break;
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case 0x30: // 30 xxy Set Stereo
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m->command = CMD_PANNING8;
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if(param & 7)
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{
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static constexpr uint8 panning[8] = {0x00, 0x00, 0x2B, 0x56, 0x80, 0xAA, 0xD4, 0xFF};
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m->param = panning[param & 7];
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} else if((param >> 4) != 0x80)
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{
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m->param = static_cast<ModCommand::PARAM>(param >> 4);
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if(m->param < 0x80)
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m->param += 0x80;
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else
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m->param = 0xFF - m->param;
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} else
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{
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m->command = CMD_NONE;
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}
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break;
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case 0x32: // 32 xxx Unset Sample Repeat
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m->command = CMD_NONE;
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m->param = 0;
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if(m->note == NOTE_NONE)
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m->note = NOTE_KEYOFF;
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else
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m->command = CMD_KEYOFF;
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break;
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case 0x31: // 31 xxx Song Upcall
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default:
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m->command = CMD_NONE;
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break;
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}
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}
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}
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}
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for(SAMPLEINDEX smp = 1; smp <= m_nSamples; smp++)
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{
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file.ReadString<mpt::String::maybeNullTerminated>(m_szNames[smp], sampleNameLength[smp] & 0x3F);
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if(sampleNameLength[smp] & 0x80)
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continue;
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ModSample &mptSmp = Samples[smp];
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mptSmp.nSustainStart = file.ReadUint24LE() << 1;
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if(const auto loopLen = file.ReadUint24LE() << 1; loopLen > 2)
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{
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mptSmp.nSustainEnd = mptSmp.nSustainStart + loopLen;
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mptSmp.uFlags.set(CHN_SUSTAINLOOP);
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}
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mptSmp.nVolume = std::min(file.ReadUint8(), uint8(64)) * 4u;
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mptSmp.nFineTune = MOD2XMFineTune(file.ReadUint8());
|
|
mptSmp.Set16BitCuePoints();
|
|
|
|
if(!mptSmp.nLength)
|
|
continue;
|
|
|
|
const uint8 packingType = file.ReadUint8();
|
|
switch(packingType)
|
|
{
|
|
case 0: // Modified u-Law
|
|
if(loadFlags & loadSampleData)
|
|
{
|
|
std::vector<std::byte> sampleData;
|
|
if(!file.CanRead(mptSmp.nLength))
|
|
return false;
|
|
file.ReadVector(sampleData, mptSmp.nLength);
|
|
for(auto &b : sampleData)
|
|
{
|
|
uint8 v = mpt::byte_cast<uint8>(b);
|
|
v = (v << 7) | (static_cast<uint8>(~v) >> 1);
|
|
b = mpt::byte_cast<std::byte>(v);
|
|
}
|
|
|
|
FileReader sampleDataFile = FileReader(mpt::as_span(sampleData));
|
|
SampleIO(
|
|
SampleIO::_16bit,
|
|
SampleIO::mono,
|
|
SampleIO::littleEndian,
|
|
SampleIO::uLaw)
|
|
.ReadSample(mptSmp, sampleDataFile);
|
|
} else
|
|
{
|
|
file.Skip(mptSmp.nLength);
|
|
}
|
|
break;
|
|
case 1: // 13-bit LZW applied to linear sample data differences
|
|
{
|
|
std::vector<std::byte> sampleData;
|
|
try
|
|
{
|
|
sampleData = DecompressDSymLZW(file, mptSmp.nLength);
|
|
} catch(const BitReader::eof &)
|
|
{
|
|
return false;
|
|
}
|
|
if(!(loadFlags & loadSampleData))
|
|
break;
|
|
FileReader sampleDataFile = FileReader(mpt::as_span(sampleData));
|
|
SampleIO(
|
|
SampleIO::_8bit,
|
|
SampleIO::mono,
|
|
SampleIO::littleEndian,
|
|
SampleIO::deltaPCM)
|
|
.ReadSample(mptSmp, sampleDataFile);
|
|
}
|
|
break;
|
|
case 2: // 8-bit signed
|
|
case 3: // 16-bit signed
|
|
if(loadFlags & loadSampleData)
|
|
{
|
|
SampleIO(
|
|
(packingType == 2) ? SampleIO::_8bit : SampleIO::_16bit,
|
|
SampleIO::mono,
|
|
SampleIO::littleEndian,
|
|
SampleIO::signedPCM)
|
|
.ReadSample(mptSmp, file);
|
|
} else
|
|
{
|
|
file.Skip(mptSmp.nLength * (packingType - 1));
|
|
}
|
|
break;
|
|
case 4: // Sigma-Delta compression applied to linear sample differences
|
|
case 5: // Sigma-Delta compression applied to logarithmic sample differences
|
|
{
|
|
std::vector<std::byte> sampleData;
|
|
try
|
|
{
|
|
sampleData = DecompressDSymSigmaDelta(file, mptSmp.nLength);
|
|
} catch(const BitReader::eof &)
|
|
{
|
|
return false;
|
|
}
|
|
if(!(loadFlags & loadSampleData))
|
|
break;
|
|
if(packingType == 5)
|
|
{
|
|
static constexpr uint8 xorMask[] = {0x00, 0x7F};
|
|
for(auto &b : sampleData)
|
|
{
|
|
uint8 v = mpt::byte_cast<uint8>(b);
|
|
v ^= xorMask[v >> 7];
|
|
b = mpt::byte_cast<std::byte>(v);
|
|
}
|
|
}
|
|
|
|
FileReader sampleDataFile = FileReader(mpt::as_span(sampleData));
|
|
SampleIO(
|
|
(packingType == 5) ? SampleIO::_16bit : SampleIO::_8bit,
|
|
SampleIO::mono,
|
|
SampleIO::littleEndian,
|
|
(packingType == 5) ? SampleIO::uLaw : SampleIO::unsignedPCM)
|
|
.ReadSample(mptSmp, sampleDataFile);
|
|
}
|
|
break;
|
|
default:
|
|
return false;
|
|
}
|
|
}
|
|
|
|
if(const uint32 infoLen = fileHeader.infoLenLo | (fileHeader.infoLenHi << 16); infoLen > 0)
|
|
{
|
|
std::vector<std::byte> infoData;
|
|
if(!ReadDSymChunk(file, infoData, infoLen))
|
|
return false;
|
|
FileReader infoChunk = FileReader(mpt::as_span(infoData));
|
|
m_songMessage.Read(infoChunk, infoLen, SongMessage::leLF);
|
|
}
|
|
|
|
m_modFormat.formatName = MPT_UFORMAT("Digital Symphony v{}")(fileHeader.version);
|
|
m_modFormat.type = U_("dsym"); // RISC OS doesn't use file extensions but this is a common abbreviation used for this tracker
|
|
m_modFormat.madeWithTracker = U_("Digital Symphony");
|
|
m_modFormat.charset = mpt::Charset::RISC_OS;
|
|
|
|
return true;
|
|
}
|
|
|
|
|
|
OPENMPT_NAMESPACE_END
|