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mirror of synced 2024-12-02 19:17:24 +01:00
Switch-Toolbox/Switch_Toolbox_Library/IO/FileWriter.cs
KillzXGaming 89d5b621b2 Giant layout update. Support BRLYT and BCLYT files!
BRLYT can now be edited and saved.
BCLYT can now be edited and saved.
BRLYT shaders greatly improved using ported shaders from WiiLayoutEditor. Plan to expand upon it for more accuacte shader rendering.
Add support for saving per character transforms.
Add support for BNR files.
Fixed flags so orientation can be edited properly.
Fix issues decoding some gamecube textures.
Fix animation timeline breaking at times for multi selecting animations.
2020-02-11 19:19:23 -05:00

207 lines
5.9 KiB
C#

using Syroot.BinaryData;
using System.IO;
using System.Text;
namespace Toolbox.Library.IO
{
public class FileWriter : BinaryDataWriter
{
public void CheckByteOrderMark(uint ByteOrderMark)
{
if (ByteOrderMark == 0xFEFF)
ByteOrder = ByteOrder.BigEndian;
else
ByteOrder = ByteOrder.LittleEndian;
}
public FileWriter(Stream stream, bool leaveOpen = false)
: base(stream, Encoding.ASCII, leaveOpen)
{
}
public FileWriter(Stream stream, Encoding encoding, bool leaveOpen = false)
: base(stream, encoding, leaveOpen)
{
}
public FileWriter(string fileName)
: this(new FileStream(fileName, FileMode.Create, FileAccess.Write, FileShare.Read))
{
}
public FileWriter(byte[] data)
: this(new MemoryStream(data))
{
}
public void WriteHalfFloat(float v) {
Write((Syroot.IOExtension.Half)v);
}
public void Write(Syroot.IOExtension.Half v) {
Write(v.Raw);
}
public void Write(Syroot.Maths.Vector2F v)
{
Write(v.X);
Write(v.Y);
}
public void Write(Syroot.Maths.Vector3F v)
{
Write(v.X);
Write(v.Y);
Write(v.Z);
}
public void Write(Syroot.Maths.Vector4F v)
{
Write(v.X);
Write(v.Y);
Write(v.Z);
Write(v.W);
}
public void Write(STColor color) {
Write(color.ToBytes());
}
public void Write(STColor8 color) {
Write(color.ToBytes());
}
public void Write(STColor16 color) {
Write(color.ToUShorts());
}
public void Write(STColor8[] colors)
{
foreach (var color in colors)
Write(color.ToBytes());
}
public void WriteStruct<T>(T item) => Write(item.StructToBytes(ByteOrder == ByteOrder.BigEndian));
public void WriteSignature(string value)
{
Write(Encoding.ASCII.GetBytes(value));
}
public void WriteString(string value, Encoding encoding = null)
{
Write(value, BinaryStringFormat.ZeroTerminated, encoding ?? Encoding);
}
public void WriteUint64Offset(long target)
{
long pos = Position;
using (TemporarySeek(target, SeekOrigin.Begin))
{
Write(pos);
}
}
public void SetByteOrder(bool IsBigEndian)
{
if (IsBigEndian)
ByteOrder = ByteOrder.BigEndian;
else
ByteOrder = ByteOrder.LittleEndian;
}
public void WriteString(string text, uint fixedSize, Encoding encoding = null)
{
long pos = Position;
WriteString(text, encoding);
SeekBegin(pos + fixedSize);
}
public void Write(object value, long pos)
{
using (TemporarySeek(pos, SeekOrigin.Begin)) {
if (value is uint) Write((uint)value);
else if (value is int) Write((int)value);
else if (value is long) Write((long)value);
else if (value is ulong) Write((ulong)value);
else if (value is ushort) Write((ushort)value);
else if (value is short) Write((short)value);
else if (value is sbyte) Write((sbyte)value);
else if (value is byte) Write((byte)value);
}
}
//Writes the total size of a section as a uint.
public void WriteSectionSizeU32(long position, long startPosition, long endPosition) {
WriteSectionSizeU32(position, endPosition - startPosition);
}
public void WriteSectionSizeU32(long position, long size) {
using (TemporarySeek(position, System.IO.SeekOrigin.Begin))
{
Write((uint)(size));
}
}
//
// RelativeOffsetPosition controls the relative position the offset starts at
//
public void WriteUint32Offset(long target, long relativePosition = 0)
{
long pos = Position;
using (TemporarySeek(target, SeekOrigin.Begin))
{
Write((uint)(pos - relativePosition));
}
}
public void WriteUint16Offset(long target, long relativePosition)
{
long pos = Position;
using (TemporarySeek(target, SeekOrigin.Begin))
{
Write((ushort)(pos - relativePosition));
}
}
public void SeekBegin(uint Offset) { Seek(Offset, SeekOrigin.Begin); }
public void SeekBegin(int Offset) { Seek(Offset, SeekOrigin.Begin); }
public void SeekBegin(long Offset) { Seek(Offset, SeekOrigin.Begin); }
public void Write(OpenTK.Vector2 v)
{
Write(v.X);
Write(v.Y);
}
public void Write(OpenTK.Vector3 v)
{
Write(v.X);
Write(v.Y);
Write(v.Z);
}
public void Write(OpenTK.Vector4 v)
{
Write(v.X);
Write(v.Y);
Write(v.Z);
Write(v.W);
}
/// <summary>
/// Aligns the data by writing bytes (rather than seeking)
/// </summary>
/// <param name="alignment"></param>
/// <param name="value"></param>
public void AlignBytes(int alignment, byte value = 0x00)
{
var startPos = Position;
long position = Seek((-Position % alignment + alignment) % alignment, SeekOrigin.Current);
Seek(startPos, System.IO.SeekOrigin.Begin);
while (Position != position) {
Write(value);
}
}
}
}