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update enum

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Perfare 2022-06-16 17:45:54 +08:00 committed by VaDiM
parent ded2dcd54e
commit 2fe57a1c5d
16 changed files with 527 additions and 469 deletions
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2
AssetStudio/AssetsManager.cs
View File

@ -156,7 +156,7 @@ namespace AssetStudio
{ {
var assetsFile = new SerializedFile(reader, this); var assetsFile = new SerializedFile(reader, this);
assetsFile.originalPath = originalPath; assetsFile.originalPath = originalPath;
if (!string.IsNullOrEmpty(unityVersion) && assetsFile.header.m_Version < SerializedFileFormatVersion.kUnknown_7) if (!string.IsNullOrEmpty(unityVersion) && assetsFile.header.m_Version < SerializedFileFormatVersion.Unknown_7)
{ {
assetsFile.SetVersion(unityVersion); assetsFile.SetVersion(unityVersion);
} }

7
AssetStudio/BuildTarget.cs
View File

@ -8,7 +8,8 @@ namespace AssetStudio
public enum BuildTarget public enum BuildTarget
{ {
NoTarget = -2, NoTarget = -2,
DashboardWidget = 1, AnyPlayer = -1,
ValidPlayer = 1,
StandaloneOSX = 2, StandaloneOSX = 2,
StandaloneOSXPPC = 3, StandaloneOSXPPC = 3,
StandaloneOSXIntel = 4, StandaloneOSXIntel = 4,
@ -19,8 +20,10 @@ namespace AssetStudio
iOS = 9, iOS = 9,
PS3, PS3,
XBOX360, XBOX360,
Broadcom = 12,
Android = 13, Android = 13,
StandaloneGLESEmu = 14, StandaloneGLESEmu = 14,
StandaloneGLES20Emu = 15,
NaCl = 16, NaCl = 16,
StandaloneLinux = 17, StandaloneLinux = 17,
FlashPlayer = 18, FlashPlayer = 18,
@ -48,6 +51,8 @@ namespace AssetStudio
GameCoreXboxSeries, GameCoreXboxSeries,
GameCoreXboxOne, GameCoreXboxOne,
PS5, PS5,
EmbeddedLinux,
QNX,
UnknownPlatform = 9999 UnknownPlatform = 9999
} }
} }

79
AssetStudio/BundleFile.cs
View File

@ -1,9 +1,36 @@
using K4os.Compression.LZ4; using K4os.Compression.LZ4;
using System;
using System.IO; using System.IO;
using System.Linq; using System.Linq;
namespace AssetStudio namespace AssetStudio
{ {
[Flags]
public enum ArchiveFlags
{
CompressionTypeMask = 0x3f,
BlocksAndDirectoryInfoCombined = 0x40,
BlocksInfoAtTheEnd = 0x80,
OldWebPluginCompatibility = 0x100,
BlockInfoNeedPaddingAtStart = 0x200
}
[Flags]
public enum StorageBlockFlags
{
CompressionTypeMask = 0x3f,
Streamed = 0x40
}
public enum CompressionType
{
None,
Lzma,
Lz4,
Lz4HC,
Lzham
}
public class BundleFile public class BundleFile
{ {
public class Header public class Header
@ -15,14 +42,14 @@ namespace AssetStudio
public long size; public long size;
public uint compressedBlocksInfoSize; public uint compressedBlocksInfoSize;
public uint uncompressedBlocksInfoSize; public uint uncompressedBlocksInfoSize;
public uint flags; public ArchiveFlags flags;
} }
public class StorageBlock public class StorageBlock
{ {
public uint compressedSize; public uint compressedSize;
public uint uncompressedSize; public uint uncompressedSize;
public ushort flags; public StorageBlockFlags flags;
} }
public class Node public class Node
@ -77,7 +104,6 @@ namespace AssetStudio
private void ReadHeaderAndBlocksInfo(EndianBinaryReader reader) private void ReadHeaderAndBlocksInfo(EndianBinaryReader reader)
{ {
var isCompressed = m_Header.signature == "UnityWeb";
if (m_Header.version >= 4) if (m_Header.version >= 4)
{ {
var hash = reader.ReadBytes(16); var hash = reader.ReadBytes(16);
@ -94,7 +120,6 @@ namespace AssetStudio
{ {
compressedSize = reader.ReadUInt32(), compressedSize = reader.ReadUInt32(),
uncompressedSize = reader.ReadUInt32(), uncompressedSize = reader.ReadUInt32(),
flags = (ushort)(isCompressed ? 1 : 0)
}; };
if (i == levelCount - 1) if (i == levelCount - 1)
{ {
@ -131,10 +156,11 @@ namespace AssetStudio
private void ReadBlocksAndDirectory(EndianBinaryReader reader, Stream blocksStream) private void ReadBlocksAndDirectory(EndianBinaryReader reader, Stream blocksStream)
{ {
var isCompressed = m_Header.signature == "UnityWeb";
foreach (var blockInfo in m_BlocksInfo) foreach (var blockInfo in m_BlocksInfo)
{ {
var uncompressedBytes = reader.ReadBytes((int)blockInfo.compressedSize); var uncompressedBytes = reader.ReadBytes((int)blockInfo.compressedSize);
if (blockInfo.flags == 1) if (isCompressed)
{ {
using (var memoryStream = new MemoryStream(uncompressedBytes)) using (var memoryStream = new MemoryStream(uncompressedBytes))
{ {
@ -194,7 +220,7 @@ namespace AssetStudio
m_Header.size = reader.ReadInt64(); m_Header.size = reader.ReadInt64();
m_Header.compressedBlocksInfoSize = reader.ReadUInt32(); m_Header.compressedBlocksInfoSize = reader.ReadUInt32();
m_Header.uncompressedBlocksInfoSize = reader.ReadUInt32(); m_Header.uncompressedBlocksInfoSize = reader.ReadUInt32();
m_Header.flags = reader.ReadUInt32(); m_Header.flags = (ArchiveFlags)reader.ReadUInt32();
if (m_Header.signature != "UnityFS") if (m_Header.signature != "UnityFS")
{ {
reader.ReadByte(); reader.ReadByte();
@ -208,28 +234,28 @@ namespace AssetStudio
{ {
reader.AlignStream(16); reader.AlignStream(16);
} }
var start = reader.Position; if ((m_Header.flags & ArchiveFlags.BlocksInfoAtTheEnd) != 0)
if ((m_Header.flags & 0x80) != 0) //kArchiveBlocksInfoAtTheEnd
{ {
var position = reader.Position; var position = reader.Position;
reader.Position = reader.BaseStream.Length - m_Header.compressedBlocksInfoSize; reader.Position = reader.BaseStream.Length - m_Header.compressedBlocksInfoSize;
blocksInfoBytes = reader.ReadBytes((int)m_Header.compressedBlocksInfoSize); blocksInfoBytes = reader.ReadBytes((int)m_Header.compressedBlocksInfoSize);
reader.Position = position; reader.Position = position;
} }
else //0x40 kArchiveBlocksAndDirectoryInfoCombined else //0x40 BlocksAndDirectoryInfoCombined
{ {
blocksInfoBytes = reader.ReadBytes((int)m_Header.compressedBlocksInfoSize); blocksInfoBytes = reader.ReadBytes((int)m_Header.compressedBlocksInfoSize);
} }
MemoryStream blocksInfoUncompresseddStream; MemoryStream blocksInfoUncompresseddStream;
var uncompressedSize = m_Header.uncompressedBlocksInfoSize; var uncompressedSize = m_Header.uncompressedBlocksInfoSize;
switch (m_Header.flags & 0x3F) //kArchiveCompressionTypeMask var compressionType = (CompressionType)(m_Header.flags & ArchiveFlags.CompressionTypeMask);
switch (compressionType)
{ {
default: //None case CompressionType.None:
{ {
blocksInfoUncompresseddStream = new MemoryStream(blocksInfoBytes); blocksInfoUncompresseddStream = new MemoryStream(blocksInfoBytes);
break; break;
} }
case 1: //LZMA case CompressionType.Lzma:
{ {
blocksInfoUncompresseddStream = new MemoryStream((int)(uncompressedSize)); blocksInfoUncompresseddStream = new MemoryStream((int)(uncompressedSize));
using (var blocksInfoCompressedStream = new MemoryStream(blocksInfoBytes)) using (var blocksInfoCompressedStream = new MemoryStream(blocksInfoBytes))
@ -239,8 +265,8 @@ namespace AssetStudio
blocksInfoUncompresseddStream.Position = 0; blocksInfoUncompresseddStream.Position = 0;
break; break;
} }
case 2: //LZ4 case CompressionType.Lz4:
case 3: //LZ4HC case CompressionType.Lz4HC:
{ {
var uncompressedBytes = new byte[uncompressedSize]; var uncompressedBytes = new byte[uncompressedSize];
var numWrite = LZ4Codec.Decode(blocksInfoBytes, uncompressedBytes); var numWrite = LZ4Codec.Decode(blocksInfoBytes, uncompressedBytes);
@ -251,6 +277,8 @@ namespace AssetStudio
blocksInfoUncompresseddStream = new MemoryStream(uncompressedBytes); blocksInfoUncompresseddStream = new MemoryStream(uncompressedBytes);
break; break;
} }
default:
throw new IOException($"Unsupported compression type {compressionType}");
} }
using (var blocksInfoReader = new EndianBinaryReader(blocksInfoUncompresseddStream)) using (var blocksInfoReader = new EndianBinaryReader(blocksInfoUncompresseddStream))
{ {
@ -263,7 +291,7 @@ namespace AssetStudio
{ {
uncompressedSize = blocksInfoReader.ReadUInt32(), uncompressedSize = blocksInfoReader.ReadUInt32(),
compressedSize = blocksInfoReader.ReadUInt32(), compressedSize = blocksInfoReader.ReadUInt32(),
flags = blocksInfoReader.ReadUInt16() flags = (StorageBlockFlags)blocksInfoReader.ReadUInt16()
}; };
} }
@ -280,30 +308,31 @@ namespace AssetStudio
}; };
} }
} }
//https://issuetracker.unity3d.com/issues/files-within-assetbundles-do-not-start-on-aligned-boundaries-breaking-patching-on-nintendo-switch if ((m_Header.flags & ArchiveFlags.BlockInfoNeedPaddingAtStart) != 0)
var blockSize = m_BlocksInfo.Sum(x => x.compressedSize); {
var padding = reader.BaseStream.Length - start - m_Header.compressedBlocksInfoSize - blockSize; reader.AlignStream(16);
reader.Position += padding; }
} }
private void ReadBlocks(EndianBinaryReader reader, Stream blocksStream) private void ReadBlocks(EndianBinaryReader reader, Stream blocksStream)
{ {
foreach (var blockInfo in m_BlocksInfo) foreach (var blockInfo in m_BlocksInfo)
{ {
switch (blockInfo.flags & 0x3F) //kStorageBlockCompressionTypeMask var compressionType = (CompressionType)(blockInfo.flags & StorageBlockFlags.CompressionTypeMask);
switch (compressionType)
{ {
default: //None case CompressionType.None:
{ {
reader.BaseStream.CopyTo(blocksStream, blockInfo.compressedSize); reader.BaseStream.CopyTo(blocksStream, blockInfo.compressedSize);
break; break;
} }
case 1: //LZMA case CompressionType.Lzma:
{ {
SevenZipHelper.StreamDecompress(reader.BaseStream, blocksStream, blockInfo.compressedSize, blockInfo.uncompressedSize); SevenZipHelper.StreamDecompress(reader.BaseStream, blocksStream, blockInfo.compressedSize, blockInfo.uncompressedSize);
break; break;
} }
case 2: //LZ4 case CompressionType.Lz4:
case 3: //LZ4HC case CompressionType.Lz4HC:
{ {
var compressedSize = (int)blockInfo.compressedSize; var compressedSize = (int)blockInfo.compressedSize;
var compressedBytes = BigArrayPool<byte>.Shared.Rent(compressedSize); var compressedBytes = BigArrayPool<byte>.Shared.Rent(compressedSize);
@ -320,6 +349,8 @@ namespace AssetStudio
BigArrayPool<byte>.Shared.Return(uncompressedBytes); BigArrayPool<byte>.Shared.Return(uncompressedBytes);
break; break;
} }
default:
throw new IOException($"Unsupported compression type {compressionType}");
} }
} }
blocksStream.Position = 0; blocksStream.Position = 0;

8
AssetStudio/Classes/AnimationClip.cs
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@ -909,9 +909,9 @@ namespace AssetStudio
public enum AnimationType public enum AnimationType
{ {
kLegacy = 1, Legacy = 1,
kGeneric = 2, Generic = 2,
kHumanoid = 3 Humanoid = 3
}; };
public sealed class AnimationClip : NamedObject public sealed class AnimationClip : NamedObject
@ -945,7 +945,7 @@ namespace AssetStudio
else if (version[0] >= 4)//4.0 and up else if (version[0] >= 4)//4.0 and up
{ {
m_AnimationType = (AnimationType)reader.ReadInt32(); m_AnimationType = (AnimationType)reader.ReadInt32();
if (m_AnimationType == AnimationType.kLegacy) if (m_AnimationType == AnimationType.Legacy)
m_Legacy = true; m_Legacy = true;
} }
else else

61
AssetStudio/Classes/AudioClip.cs
View File

@ -9,7 +9,7 @@ namespace AssetStudio
public sealed class AudioClip : NamedObject public sealed class AudioClip : NamedObject
{ {
public int m_Format; public int m_Format;
public AudioType m_Type; public FMODSoundType m_Type;
public bool m_3D; public bool m_3D;
public bool m_UseHardware; public bool m_UseHardware;
@ -36,7 +36,7 @@ namespace AssetStudio
if (version[0] < 5) if (version[0] < 5)
{ {
m_Format = reader.ReadInt32(); m_Format = reader.ReadInt32();
m_Type = (AudioType)reader.ReadInt32(); m_Type = (FMODSoundType)reader.ReadInt32();
m_3D = reader.ReadBoolean(); m_3D = reader.ReadBoolean();
m_UseHardware = reader.ReadBoolean(); m_UseHardware = reader.ReadBoolean();
reader.AlignStream(); reader.AlignStream();
@ -92,34 +92,51 @@ namespace AssetStudio
} }
} }
public enum AudioType public enum FMODSoundType
{ {
UNKNOWN, UNKNOWN = 0,
ACC, ACC = 1,
AIFF, AIFF = 2,
ASF = 3,
AT3 = 4,
CDDA = 5,
DLS = 6,
FLAC = 7,
FSB = 8,
GCADPCM = 9,
IT = 10, IT = 10,
MIDI = 11,
MOD = 12, MOD = 12,
MPEG, MPEG = 13,
OGGVORBIS, OGGVORBIS = 14,
PLAYLIST = 15,
RAW = 16,
S3M = 17, S3M = 17,
SF2 = 18,
USER = 19,
WAV = 20, WAV = 20,
XM, XM = 21,
XMA, XMA = 22,
VAG, VAG = 23,
AUDIOQUEUE AUDIOQUEUE = 24,
XWMA = 25,
BCWAV = 26,
AT9 = 27,
VORBIS = 28,
MEDIA_FOUNDATION = 29
} }
public enum AudioCompressionFormat public enum AudioCompressionFormat
{ {
PCM, PCM = 0,
Vorbis, Vorbis = 1,
ADPCM, ADPCM = 2,
MP3, MP3 = 3,
VAG, PSMVAG = 4,
HEVAG, HEVAG = 5,
XMA, XMA = 6,
AAC, AAC = 7,
GCADPCM, GCADPCM = 8,
ATRAC9 ATRAC9 = 9
} }
} }

200
AssetStudio/Classes/Mesh.cs
View File

@ -396,14 +396,14 @@ namespace AssetStudio
} }
} }
public enum GfxPrimitiveType : int public enum GfxPrimitiveType
{ {
kPrimitiveTriangles = 0, Triangles = 0,
kPrimitiveTriangleStrip = 1, TriangleStrip = 1,
kPrimitiveQuads = 2, Quads = 2,
kPrimitiveLines = 3, Lines = 3,
kPrimitiveLineStrip = 4, LineStrip = 4,
kPrimitivePoints = 5, Points = 5
}; };
public class SubMesh public class SubMesh
@ -1060,7 +1060,7 @@ namespace AssetStudio
} }
var indexCount = m_SubMesh.indexCount; var indexCount = m_SubMesh.indexCount;
var topology = m_SubMesh.topology; var topology = m_SubMesh.topology;
if (topology == GfxPrimitiveType.kPrimitiveTriangles) if (topology == GfxPrimitiveType.Triangles)
{ {
for (int i = 0; i < indexCount; i += 3) for (int i = 0; i < indexCount; i += 3)
{ {
@ -1069,7 +1069,7 @@ namespace AssetStudio
m_Indices.Add(m_IndexBuffer[firstIndex + i + 2]); m_Indices.Add(m_IndexBuffer[firstIndex + i + 2]);
} }
} }
else if (version[0] < 4 || topology == GfxPrimitiveType.kPrimitiveTriangleStrip) else if (version[0] < 4 || topology == GfxPrimitiveType.TriangleStrip)
{ {
// de-stripify : // de-stripify :
uint triIndex = 0; uint triIndex = 0;
@ -1100,7 +1100,7 @@ namespace AssetStudio
//fix indexCount //fix indexCount
m_SubMesh.indexCount = triIndex; m_SubMesh.indexCount = triIndex;
} }
else if (topology == GfxPrimitiveType.kPrimitiveQuads) else if (topology == GfxPrimitiveType.Quads)
{ {
for (int q = 0; q < indexCount; q += 4) for (int q = 0; q < indexCount; q += 4)
{ {
@ -1193,44 +1193,44 @@ namespace AssetStudio
{ {
public enum VertexChannelFormat public enum VertexChannelFormat
{ {
kChannelFormatFloat, Float,
kChannelFormatFloat16, Float16,
kChannelFormatColor, Color,
kChannelFormatByte, Byte,
kChannelFormatUInt32 UInt32
} }
public enum VertexFormat2017 public enum VertexFormat2017
{ {
kVertexFormatFloat, Float,
kVertexFormatFloat16, Float16,
kVertexFormatColor, Color,
kVertexFormatUNorm8, UNorm8,
kVertexFormatSNorm8, SNorm8,
kVertexFormatUNorm16, UNorm16,
kVertexFormatSNorm16, SNorm16,
kVertexFormatUInt8, UInt8,
kVertexFormatSInt8, SInt8,
kVertexFormatUInt16, UInt16,
kVertexFormatSInt16, SInt16,
kVertexFormatUInt32, UInt32,
kVertexFormatSInt32 SInt32
} }
public enum VertexFormat public enum VertexFormat
{ {
kVertexFormatFloat, Float,
kVertexFormatFloat16, Float16,
kVertexFormatUNorm8, UNorm8,
kVertexFormatSNorm8, SNorm8,
kVertexFormatUNorm16, UNorm16,
kVertexFormatSNorm16, SNorm16,
kVertexFormatUInt8, UInt8,
kVertexFormatSInt8, SInt8,
kVertexFormatUInt16, UInt16,
kVertexFormatSInt16, SInt16,
kVertexFormatUInt32, UInt32,
kVertexFormatSInt32 SInt32
} }
public static VertexFormat ToVertexFormat(int format, int[] version) public static VertexFormat ToVertexFormat(int format, int[] version)
@ -1239,16 +1239,16 @@ namespace AssetStudio
{ {
switch ((VertexChannelFormat)format) switch ((VertexChannelFormat)format)
{ {
case VertexChannelFormat.kChannelFormatFloat: case VertexChannelFormat.Float:
return VertexFormat.kVertexFormatFloat; return VertexFormat.Float;
case VertexChannelFormat.kChannelFormatFloat16: case VertexChannelFormat.Float16:
return VertexFormat.kVertexFormatFloat16; return VertexFormat.Float16;
case VertexChannelFormat.kChannelFormatColor: //in 4.x is size 4 case VertexChannelFormat.Color: //in 4.x is size 4
return VertexFormat.kVertexFormatUNorm8; return VertexFormat.UNorm8;
case VertexChannelFormat.kChannelFormatByte: case VertexChannelFormat.Byte:
return VertexFormat.kVertexFormatUInt8; return VertexFormat.UInt8;
case VertexChannelFormat.kChannelFormatUInt32: //in 5.x case VertexChannelFormat.UInt32: //in 5.x
return VertexFormat.kVertexFormatUInt32; return VertexFormat.UInt32;
default: default:
throw new ArgumentOutOfRangeException(nameof(format), format, null); throw new ArgumentOutOfRangeException(nameof(format), format, null);
} }
@ -1257,31 +1257,31 @@ namespace AssetStudio
{ {
switch ((VertexFormat2017)format) switch ((VertexFormat2017)format)
{ {
case VertexFormat2017.kVertexFormatFloat: case VertexFormat2017.Float:
return VertexFormat.kVertexFormatFloat; return VertexFormat.Float;
case VertexFormat2017.kVertexFormatFloat16: case VertexFormat2017.Float16:
return VertexFormat.kVertexFormatFloat16; return VertexFormat.Float16;
case VertexFormat2017.kVertexFormatColor: case VertexFormat2017.Color:
case VertexFormat2017.kVertexFormatUNorm8: case VertexFormat2017.UNorm8:
return VertexFormat.kVertexFormatUNorm8; return VertexFormat.UNorm8;
case VertexFormat2017.kVertexFormatSNorm8: case VertexFormat2017.SNorm8:
return VertexFormat.kVertexFormatSNorm8; return VertexFormat.SNorm8;
case VertexFormat2017.kVertexFormatUNorm16: case VertexFormat2017.UNorm16:
return VertexFormat.kVertexFormatUNorm16; return VertexFormat.UNorm16;
case VertexFormat2017.kVertexFormatSNorm16: case VertexFormat2017.SNorm16:
return VertexFormat.kVertexFormatSNorm16; return VertexFormat.SNorm16;
case VertexFormat2017.kVertexFormatUInt8: case VertexFormat2017.UInt8:
return VertexFormat.kVertexFormatUInt8; return VertexFormat.UInt8;
case VertexFormat2017.kVertexFormatSInt8: case VertexFormat2017.SInt8:
return VertexFormat.kVertexFormatSInt8; return VertexFormat.SInt8;
case VertexFormat2017.kVertexFormatUInt16: case VertexFormat2017.UInt16:
return VertexFormat.kVertexFormatUInt16; return VertexFormat.UInt16;
case VertexFormat2017.kVertexFormatSInt16: case VertexFormat2017.SInt16:
return VertexFormat.kVertexFormatSInt16; return VertexFormat.SInt16;
case VertexFormat2017.kVertexFormatUInt32: case VertexFormat2017.UInt32:
return VertexFormat.kVertexFormatUInt32; return VertexFormat.UInt32;
case VertexFormat2017.kVertexFormatSInt32: case VertexFormat2017.SInt32:
return VertexFormat.kVertexFormatSInt32; return VertexFormat.SInt32;
default: default:
throw new ArgumentOutOfRangeException(nameof(format), format, null); throw new ArgumentOutOfRangeException(nameof(format), format, null);
} }
@ -1297,20 +1297,20 @@ namespace AssetStudio
{ {
switch (format) switch (format)
{ {
case VertexFormat.kVertexFormatFloat: case VertexFormat.Float:
case VertexFormat.kVertexFormatUInt32: case VertexFormat.UInt32:
case VertexFormat.kVertexFormatSInt32: case VertexFormat.SInt32:
return 4u; return 4u;
case VertexFormat.kVertexFormatFloat16: case VertexFormat.Float16:
case VertexFormat.kVertexFormatUNorm16: case VertexFormat.UNorm16:
case VertexFormat.kVertexFormatSNorm16: case VertexFormat.SNorm16:
case VertexFormat.kVertexFormatUInt16: case VertexFormat.UInt16:
case VertexFormat.kVertexFormatSInt16: case VertexFormat.SInt16:
return 2u; return 2u;
case VertexFormat.kVertexFormatUNorm8: case VertexFormat.UNorm8:
case VertexFormat.kVertexFormatSNorm8: case VertexFormat.SNorm8:
case VertexFormat.kVertexFormatUInt8: case VertexFormat.UInt8:
case VertexFormat.kVertexFormatSInt8: case VertexFormat.SInt8:
return 1u; return 1u;
default: default:
throw new ArgumentOutOfRangeException(nameof(format), format, null); throw new ArgumentOutOfRangeException(nameof(format), format, null);
@ -1319,7 +1319,7 @@ namespace AssetStudio
public static bool IsIntFormat(VertexFormat format) public static bool IsIntFormat(VertexFormat format)
{ {
return format >= VertexFormat.kVertexFormatUInt8; return format >= VertexFormat.UInt8;
} }
public static float[] BytesToFloatArray(byte[] inputBytes, VertexFormat format) public static float[] BytesToFloatArray(byte[] inputBytes, VertexFormat format)
@ -1331,22 +1331,22 @@ namespace AssetStudio
{ {
switch (format) switch (format)
{ {
case VertexFormat.kVertexFormatFloat: case VertexFormat.Float:
result[i] = BitConverter.ToSingle(inputBytes, i * 4); result[i] = BitConverter.ToSingle(inputBytes, i * 4);
break; break;
case VertexFormat.kVertexFormatFloat16: case VertexFormat.Float16:
result[i] = Half.ToHalf(inputBytes, i * 2); result[i] = Half.ToHalf(inputBytes, i * 2);
break; break;
case VertexFormat.kVertexFormatUNorm8: case VertexFormat.UNorm8:
result[i] = inputBytes[i] / 255f; result[i] = inputBytes[i] / 255f;
break; break;
case VertexFormat.kVertexFormatSNorm8: case VertexFormat.SNorm8:
result[i] = Math.Max((sbyte)inputBytes[i] / 127f, -1f); result[i] = Math.Max((sbyte)inputBytes[i] / 127f, -1f);
break; break;
case VertexFormat.kVertexFormatUNorm16: case VertexFormat.UNorm16:
result[i] = BitConverter.ToUInt16(inputBytes, i * 2) / 65535f; result[i] = BitConverter.ToUInt16(inputBytes, i * 2) / 65535f;
break; break;
case VertexFormat.kVertexFormatSNorm16: case VertexFormat.SNorm16:
result[i] = Math.Max(BitConverter.ToInt16(inputBytes, i * 2) / 32767f, -1f); result[i] = Math.Max(BitConverter.ToInt16(inputBytes, i * 2) / 32767f, -1f);
break; break;
} }
@ -1363,16 +1363,16 @@ namespace AssetStudio
{ {
switch (format) switch (format)
{ {
case VertexFormat.kVertexFormatUInt8: case VertexFormat.UInt8:
case VertexFormat.kVertexFormatSInt8: case VertexFormat.SInt8:
result[i] = inputBytes[i]; result[i] = inputBytes[i];
break; break;
case VertexFormat.kVertexFormatUInt16: case VertexFormat.UInt16:
case VertexFormat.kVertexFormatSInt16: case VertexFormat.SInt16:
result[i] = BitConverter.ToInt16(inputBytes, i * 2); result[i] = BitConverter.ToInt16(inputBytes, i * 2);
break; break;
case VertexFormat.kVertexFormatUInt32: case VertexFormat.UInt32:
case VertexFormat.kVertexFormatSInt32: case VertexFormat.SInt32:
result[i] = BitConverter.ToInt32(inputBytes, i * 4); result[i] = BitConverter.ToInt32(inputBytes, i * 4);
break; break;
} }

2
AssetStudio/Classes/PPtr.cs
View File

@ -13,7 +13,7 @@ namespace AssetStudio
public PPtr(ObjectReader reader) public PPtr(ObjectReader reader)
{ {
m_FileID = reader.ReadInt32(); m_FileID = reader.ReadInt32();
m_PathID = reader.m_Version < SerializedFileFormatVersion.kUnknown_14 ? reader.ReadInt32() : reader.ReadInt64(); m_PathID = reader.m_Version < SerializedFileFormatVersion.Unknown_14 ? reader.ReadInt32() : reader.ReadInt64();
assetsFile = reader.assetsFile; assetsFile = reader.assetsFile;
} }

161
AssetStudio/Classes/Shader.cs
View File

@ -56,15 +56,14 @@ namespace AssetStudio
} }
public enum TextureDimension public enum TextureDimension
{ {
kTexDimUnknown = -1, Unknown = -1,
kTexDimNone = 0, None = 0,
kTexDimAny = 1, Any = 1,
kTexDim2D = 2, Tex2D = 2,
kTexDim3D = 3, Tex3D = 3,
kTexDimCUBE = 4, Cube = 4,
kTexDim2DArray = 5, Tex2DArray = 5,
kTexDimCubeArray = 6, CubeArray = 6
kTexDimForce32Bit = 2147483647
}; };
public class SerializedTextureProperty public class SerializedTextureProperty
@ -81,11 +80,12 @@ namespace AssetStudio
public enum SerializedPropertyType public enum SerializedPropertyType
{ {
kColor = 0, Color = 0,
kVector = 1, Vector = 1,
kFloat = 2, Float = 2,
kRange = 3, Range = 3,
kTexture = 4 Texture = 4,
Int = 5
}; };
public class SerializedProperty public class SerializedProperty
@ -195,11 +195,11 @@ namespace AssetStudio
public enum FogMode public enum FogMode
{ {
kFogUnknown = -1, Unknown = -1,
kFogDisabled = 0, Disabled = 0,
kFogLinear = 1, Linear = 1,
kFogExp = 2, Exp = 2,
kFogExp2 = 3 Exp2 = 3
}; };
public class SerializedShaderState public class SerializedShaderState
@ -453,38 +453,39 @@ namespace AssetStudio
public enum ShaderGpuProgramType public enum ShaderGpuProgramType
{ {
kShaderGpuProgramUnknown = 0, Unknown = 0,
kShaderGpuProgramGLLegacy = 1, GLLegacy = 1,
kShaderGpuProgramGLES31AEP = 2, GLES31AEP = 2,
kShaderGpuProgramGLES31 = 3, GLES31 = 3,
kShaderGpuProgramGLES3 = 4, GLES3 = 4,
kShaderGpuProgramGLES = 5, GLES = 5,
kShaderGpuProgramGLCore32 = 6, GLCore32 = 6,
kShaderGpuProgramGLCore41 = 7, GLCore41 = 7,
kShaderGpuProgramGLCore43 = 8, GLCore43 = 8,
kShaderGpuProgramDX9VertexSM20 = 9, DX9VertexSM20 = 9,
kShaderGpuProgramDX9VertexSM30 = 10, DX9VertexSM30 = 10,
kShaderGpuProgramDX9PixelSM20 = 11, DX9PixelSM20 = 11,
kShaderGpuProgramDX9PixelSM30 = 12, DX9PixelSM30 = 12,
kShaderGpuProgramDX10Level9Vertex = 13, DX10Level9Vertex = 13,
kShaderGpuProgramDX10Level9Pixel = 14, DX10Level9Pixel = 14,
kShaderGpuProgramDX11VertexSM40 = 15, DX11VertexSM40 = 15,
kShaderGpuProgramDX11VertexSM50 = 16, DX11VertexSM50 = 16,
kShaderGpuProgramDX11PixelSM40 = 17, DX11PixelSM40 = 17,
kShaderGpuProgramDX11PixelSM50 = 18, DX11PixelSM50 = 18,
kShaderGpuProgramDX11GeometrySM40 = 19, DX11GeometrySM40 = 19,
kShaderGpuProgramDX11GeometrySM50 = 20, DX11GeometrySM50 = 20,
kShaderGpuProgramDX11HullSM50 = 21, DX11HullSM50 = 21,
kShaderGpuProgramDX11DomainSM50 = 22, DX11DomainSM50 = 22,
kShaderGpuProgramMetalVS = 23, MetalVS = 23,
kShaderGpuProgramMetalFS = 24, MetalFS = 24,
kShaderGpuProgramSPIRV = 25, SPIRV = 25,
kShaderGpuProgramConsoleVS = 26, ConsoleVS = 26,
kShaderGpuProgramConsoleFS = 27, ConsoleFS = 27,
kShaderGpuProgramConsoleHS = 28, ConsoleHS = 28,
kShaderGpuProgramConsoleDS = 29, ConsoleDS = 29,
kShaderGpuProgramConsoleGS = 30, ConsoleGS = 30,
kShaderGpuProgramRayTracing = 31, RayTracing = 31,
PS5NGGC = 32
}; };
public class SerializedProgramParameters public class SerializedProgramParameters
@ -713,9 +714,9 @@ namespace AssetStudio
public enum PassType public enum PassType
{ {
kPassTypeNormal = 0, Normal = 0,
kPassTypeUse = 1, Use = 1,
kPassTypeGrab = 2 Grab = 2
}; };
public class SerializedPass public class SerializedPass
@ -922,32 +923,32 @@ namespace AssetStudio
public enum ShaderCompilerPlatform public enum ShaderCompilerPlatform
{ {
kShaderCompPlatformNone = -1, None = -1,
kShaderCompPlatformGL = 0, GL = 0,
kShaderCompPlatformD3D9 = 1, D3D9 = 1,
kShaderCompPlatformXbox360 = 2, Xbox360 = 2,
kShaderCompPlatformPS3 = 3, PS3 = 3,
kShaderCompPlatformD3D11 = 4, D3D11 = 4,
kShaderCompPlatformGLES20 = 5, GLES20 = 5,
kShaderCompPlatformNaCl = 6, NaCl = 6,
kShaderCompPlatformFlash = 7, Flash = 7,
kShaderCompPlatformD3D11_9x = 8, D3D11_9x = 8,
kShaderCompPlatformGLES3Plus = 9, GLES3Plus = 9,
kShaderCompPlatformPSP2 = 10, PSP2 = 10,
kShaderCompPlatformPS4 = 11, PS4 = 11,
kShaderCompPlatformXboxOne = 12, XboxOne = 12,
kShaderCompPlatformPSM = 13, PSM = 13,
kShaderCompPlatformMetal = 14, Metal = 14,
kShaderCompPlatformOpenGLCore = 15, OpenGLCore = 15,
kShaderCompPlatformN3DS = 16, N3DS = 16,
kShaderCompPlatformWiiU = 17, WiiU = 17,
kShaderCompPlatformVulkan = 18, Vulkan = 18,
kShaderCompPlatformSwitch = 19, Switch = 19,
kShaderCompPlatformXboxOneD3D12 = 20, XboxOneD3D12 = 20,
kShaderCompPlatformGameCoreXboxOne = 21, GameCoreXboxOne = 21,
kShaderCompPlatformGameCoreScarlett = 22, GameCoreScarlett = 22,
kShaderCompPlatformPS5 = 23, PS5 = 23,
kShaderCompPlatformPS5NGGC = 24, PS5NGGC = 24
}; };
public class Shader : NamedObject public class Shader : NamedObject

18
AssetStudio/Classes/Sprite.cs
View File

@ -18,23 +18,23 @@ namespace AssetStudio
public enum SpritePackingRotation public enum SpritePackingRotation
{ {
kSPRNone = 0, None = 0,
kSPRFlipHorizontal = 1, FlipHorizontal = 1,
kSPRFlipVertical = 2, FlipVertical = 2,
kSPRRotate180 = 3, Rotate180 = 3,
kSPRRotate90 = 4 Rotate90 = 4
}; };
public enum SpritePackingMode public enum SpritePackingMode
{ {
kSPMTight = 0, Tight = 0,
kSPMRectangle Rectangle
}; };
public enum SpriteMeshType public enum SpriteMeshType
{ {
kSpriteMeshTypeFullRect, FullRect,
kSpriteMeshTypeTight Tight
}; };
public class SpriteSettings public class SpriteSettings

9
AssetStudio/Classes/Texture2D.cs
View File

@ -151,8 +151,10 @@ namespace AssetStudio
RGB24, RGB24,
RGBA32, RGBA32,
ARGB32, ARGB32,
RGB565 = 7, ARGBFloat,
R16 = 9, RGB565,
BGR24,
R16,
DXT1, DXT1,
DXT3, DXT3,
DXT5, DXT5,
@ -166,7 +168,8 @@ namespace AssetStudio
RGBAFloat, RGBAFloat,
YUY2, YUY2,
RGB9e5Float, RGB9e5Float,
BC6H = 24, RGBFloat,
BC6H,
BC7, BC7,
BC4, BC4,
BC5, BC5,

56
AssetStudio/SerializedFile.cs
View File

@ -45,7 +45,7 @@ namespace AssetStudio
header.m_Version = (SerializedFileFormatVersion)reader.ReadUInt32(); header.m_Version = (SerializedFileFormatVersion)reader.ReadUInt32();
header.m_DataOffset = reader.ReadUInt32(); header.m_DataOffset = reader.ReadUInt32();
if (header.m_Version >= SerializedFileFormatVersion.kUnknown_9) if (header.m_Version >= SerializedFileFormatVersion.Unknown_9)
{ {
header.m_Endianess = reader.ReadByte(); header.m_Endianess = reader.ReadByte();
header.m_Reserved = reader.ReadBytes(3); header.m_Reserved = reader.ReadBytes(3);
@ -57,7 +57,7 @@ namespace AssetStudio
m_FileEndianess = reader.ReadByte(); m_FileEndianess = reader.ReadByte();
} }
if (header.m_Version >= SerializedFileFormatVersion.kLargeFilesSupport) if (header.m_Version >= SerializedFileFormatVersion.LargeFilesSupport)
{ {
header.m_MetadataSize = reader.ReadUInt32(); header.m_MetadataSize = reader.ReadUInt32();
header.m_FileSize = reader.ReadInt64(); header.m_FileSize = reader.ReadInt64();
@ -70,12 +70,12 @@ namespace AssetStudio
{ {
reader.Endian = EndianType.LittleEndian; reader.Endian = EndianType.LittleEndian;
} }
if (header.m_Version >= SerializedFileFormatVersion.kUnknown_7) if (header.m_Version >= SerializedFileFormatVersion.Unknown_7)
{ {
unityVersion = reader.ReadStringToNull(); unityVersion = reader.ReadStringToNull();
SetVersion(unityVersion); SetVersion(unityVersion);
} }
if (header.m_Version >= SerializedFileFormatVersion.kUnknown_8) if (header.m_Version >= SerializedFileFormatVersion.Unknown_8)
{ {
m_TargetPlatform = (BuildTarget)reader.ReadInt32(); m_TargetPlatform = (BuildTarget)reader.ReadInt32();
if (!Enum.IsDefined(typeof(BuildTarget), m_TargetPlatform)) if (!Enum.IsDefined(typeof(BuildTarget), m_TargetPlatform))
@ -83,7 +83,7 @@ namespace AssetStudio
m_TargetPlatform = BuildTarget.UnknownPlatform; m_TargetPlatform = BuildTarget.UnknownPlatform;
} }
} }
if (header.m_Version >= SerializedFileFormatVersion.kHasTypeTreeHashes) if (header.m_Version >= SerializedFileFormatVersion.HasTypeTreeHashes)
{ {
m_EnableTypeTree = reader.ReadBoolean(); m_EnableTypeTree = reader.ReadBoolean();
} }
@ -96,7 +96,7 @@ namespace AssetStudio
m_Types.Add(ReadSerializedType(false)); m_Types.Add(ReadSerializedType(false));
} }
if (header.m_Version >= SerializedFileFormatVersion.kUnknown_7 && header.m_Version < SerializedFileFormatVersion.kUnknown_14) if (header.m_Version >= SerializedFileFormatVersion.Unknown_7 && header.m_Version < SerializedFileFormatVersion.Unknown_14)
{ {
bigIDEnabled = reader.ReadInt32(); bigIDEnabled = reader.ReadInt32();
} }
@ -113,7 +113,7 @@ namespace AssetStudio
{ {
objectInfo.m_PathID = reader.ReadInt64(); objectInfo.m_PathID = reader.ReadInt64();
} }
else if (header.m_Version < SerializedFileFormatVersion.kUnknown_14) else if (header.m_Version < SerializedFileFormatVersion.Unknown_14)
{ {
objectInfo.m_PathID = reader.ReadInt32(); objectInfo.m_PathID = reader.ReadInt32();
} }
@ -123,7 +123,7 @@ namespace AssetStudio
objectInfo.m_PathID = reader.ReadInt64(); objectInfo.m_PathID = reader.ReadInt64();
} }
if (header.m_Version >= SerializedFileFormatVersion.kLargeFilesSupport) if (header.m_Version >= SerializedFileFormatVersion.LargeFilesSupport)
objectInfo.byteStart = reader.ReadInt64(); objectInfo.byteStart = reader.ReadInt64();
else else
objectInfo.byteStart = reader.ReadUInt32(); objectInfo.byteStart = reader.ReadUInt32();
@ -131,7 +131,7 @@ namespace AssetStudio
objectInfo.byteStart += header.m_DataOffset; objectInfo.byteStart += header.m_DataOffset;
objectInfo.byteSize = reader.ReadUInt32(); objectInfo.byteSize = reader.ReadUInt32();
objectInfo.typeID = reader.ReadInt32(); objectInfo.typeID = reader.ReadInt32();
if (header.m_Version < SerializedFileFormatVersion.kRefactoredClassId) if (header.m_Version < SerializedFileFormatVersion.RefactoredClassId)
{ {
objectInfo.classID = reader.ReadUInt16(); objectInfo.classID = reader.ReadUInt16();
objectInfo.serializedType = m_Types.Find(x => x.classID == objectInfo.typeID); objectInfo.serializedType = m_Types.Find(x => x.classID == objectInfo.typeID);
@ -142,24 +142,24 @@ namespace AssetStudio
objectInfo.serializedType = type; objectInfo.serializedType = type;
objectInfo.classID = type.classID; objectInfo.classID = type.classID;
} }
if (header.m_Version < SerializedFileFormatVersion.kHasScriptTypeIndex) if (header.m_Version < SerializedFileFormatVersion.HasScriptTypeIndex)
{ {
objectInfo.isDestroyed = reader.ReadUInt16(); objectInfo.isDestroyed = reader.ReadUInt16();
} }
if (header.m_Version >= SerializedFileFormatVersion.kHasScriptTypeIndex && header.m_Version < SerializedFileFormatVersion.kRefactorTypeData) if (header.m_Version >= SerializedFileFormatVersion.HasScriptTypeIndex && header.m_Version < SerializedFileFormatVersion.RefactorTypeData)
{ {
var m_ScriptTypeIndex = reader.ReadInt16(); var m_ScriptTypeIndex = reader.ReadInt16();
if (objectInfo.serializedType != null) if (objectInfo.serializedType != null)
objectInfo.serializedType.m_ScriptTypeIndex = m_ScriptTypeIndex; objectInfo.serializedType.m_ScriptTypeIndex = m_ScriptTypeIndex;
} }
if (header.m_Version == SerializedFileFormatVersion.kSupportsStrippedObject || header.m_Version == SerializedFileFormatVersion.kRefactoredClassId) if (header.m_Version == SerializedFileFormatVersion.SupportsStrippedObject || header.m_Version == SerializedFileFormatVersion.RefactoredClassId)
{ {
objectInfo.stripped = reader.ReadByte(); objectInfo.stripped = reader.ReadByte();
} }
m_Objects.Add(objectInfo); m_Objects.Add(objectInfo);
} }
if (header.m_Version >= SerializedFileFormatVersion.kHasScriptTypeIndex) if (header.m_Version >= SerializedFileFormatVersion.HasScriptTypeIndex)
{ {
int scriptCount = reader.ReadInt32(); int scriptCount = reader.ReadInt32();
m_ScriptTypes = new List<LocalSerializedObjectIdentifier>(scriptCount); m_ScriptTypes = new List<LocalSerializedObjectIdentifier>(scriptCount);
@ -167,7 +167,7 @@ namespace AssetStudio
{ {
var m_ScriptType = new LocalSerializedObjectIdentifier(); var m_ScriptType = new LocalSerializedObjectIdentifier();
m_ScriptType.localSerializedFileIndex = reader.ReadInt32(); m_ScriptType.localSerializedFileIndex = reader.ReadInt32();
if (header.m_Version < SerializedFileFormatVersion.kUnknown_14) if (header.m_Version < SerializedFileFormatVersion.Unknown_14)
{ {
m_ScriptType.localIdentifierInFile = reader.ReadInt32(); m_ScriptType.localIdentifierInFile = reader.ReadInt32();
} }
@ -185,11 +185,11 @@ namespace AssetStudio
for (int i = 0; i < externalsCount; i++) for (int i = 0; i < externalsCount; i++)
{ {
var m_External = new FileIdentifier(); var m_External = new FileIdentifier();
if (header.m_Version >= SerializedFileFormatVersion.kUnknown_6) if (header.m_Version >= SerializedFileFormatVersion.Unknown_6)
{ {
var tempEmpty = reader.ReadStringToNull(); var tempEmpty = reader.ReadStringToNull();
} }
if (header.m_Version >= SerializedFileFormatVersion.kUnknown_5) if (header.m_Version >= SerializedFileFormatVersion.Unknown_5)
{ {
m_External.guid = new Guid(reader.ReadBytes(16)); m_External.guid = new Guid(reader.ReadBytes(16));
m_External.type = reader.ReadInt32(); m_External.type = reader.ReadInt32();
@ -199,7 +199,7 @@ namespace AssetStudio
m_Externals.Add(m_External); m_Externals.Add(m_External);
} }
if (header.m_Version >= SerializedFileFormatVersion.kSupportsRefObject) if (header.m_Version >= SerializedFileFormatVersion.SupportsRefObject)
{ {
int refTypesCount = reader.ReadInt32(); int refTypesCount = reader.ReadInt32();
m_RefTypes = new List<SerializedType>(refTypesCount); m_RefTypes = new List<SerializedType>(refTypesCount);
@ -209,7 +209,7 @@ namespace AssetStudio
} }
} }
if (header.m_Version >= SerializedFileFormatVersion.kUnknown_5) if (header.m_Version >= SerializedFileFormatVersion.Unknown_5)
{ {
userInformation = reader.ReadStringToNull(); userInformation = reader.ReadStringToNull();
} }
@ -235,23 +235,23 @@ namespace AssetStudio
type.classID = reader.ReadInt32(); type.classID = reader.ReadInt32();
if (header.m_Version >= SerializedFileFormatVersion.kRefactoredClassId) if (header.m_Version >= SerializedFileFormatVersion.RefactoredClassId)
{ {
type.m_IsStrippedType = reader.ReadBoolean(); type.m_IsStrippedType = reader.ReadBoolean();
} }
if (header.m_Version >= SerializedFileFormatVersion.kRefactorTypeData) if (header.m_Version >= SerializedFileFormatVersion.RefactorTypeData)
{ {
type.m_ScriptTypeIndex = reader.ReadInt16(); type.m_ScriptTypeIndex = reader.ReadInt16();
} }
if (header.m_Version >= SerializedFileFormatVersion.kHasTypeTreeHashes) if (header.m_Version >= SerializedFileFormatVersion.HasTypeTreeHashes)
{ {
if (isRefType && type.m_ScriptTypeIndex >= 0) if (isRefType && type.m_ScriptTypeIndex >= 0)
{ {
type.m_ScriptID = reader.ReadBytes(16); type.m_ScriptID = reader.ReadBytes(16);
} }
else if ((header.m_Version < SerializedFileFormatVersion.kRefactoredClassId && type.classID < 0) || (header.m_Version >= SerializedFileFormatVersion.kRefactoredClassId && type.classID == 114)) else if ((header.m_Version < SerializedFileFormatVersion.RefactoredClassId && type.classID < 0) || (header.m_Version >= SerializedFileFormatVersion.RefactoredClassId && type.classID == 114))
{ {
type.m_ScriptID = reader.ReadBytes(16); type.m_ScriptID = reader.ReadBytes(16);
} }
@ -262,7 +262,7 @@ namespace AssetStudio
{ {
type.m_Type = new TypeTree(); type.m_Type = new TypeTree();
type.m_Type.m_Nodes = new List<TypeTreeNode>(); type.m_Type.m_Nodes = new List<TypeTreeNode>();
if (header.m_Version >= SerializedFileFormatVersion.kUnknown_12 || header.m_Version == SerializedFileFormatVersion.kUnknown_10) if (header.m_Version >= SerializedFileFormatVersion.Unknown_12 || header.m_Version == SerializedFileFormatVersion.Unknown_10)
{ {
TypeTreeBlobRead(type.m_Type); TypeTreeBlobRead(type.m_Type);
} }
@ -270,7 +270,7 @@ namespace AssetStudio
{ {
ReadTypeTree(type.m_Type); ReadTypeTree(type.m_Type);
} }
if (header.m_Version >= SerializedFileFormatVersion.kStoresTypeDependencies) if (header.m_Version >= SerializedFileFormatVersion.StoresTypeDependencies)
{ {
if (isRefType) if (isRefType)
{ {
@ -296,17 +296,17 @@ namespace AssetStudio
typeTreeNode.m_Type = reader.ReadStringToNull(); typeTreeNode.m_Type = reader.ReadStringToNull();
typeTreeNode.m_Name = reader.ReadStringToNull(); typeTreeNode.m_Name = reader.ReadStringToNull();
typeTreeNode.m_ByteSize = reader.ReadInt32(); typeTreeNode.m_ByteSize = reader.ReadInt32();
if (header.m_Version == SerializedFileFormatVersion.kUnknown_2) if (header.m_Version == SerializedFileFormatVersion.Unknown_2)
{ {
var variableCount = reader.ReadInt32(); var variableCount = reader.ReadInt32();
} }
if (header.m_Version != SerializedFileFormatVersion.kUnknown_3) if (header.m_Version != SerializedFileFormatVersion.Unknown_3)
{ {
typeTreeNode.m_Index = reader.ReadInt32(); typeTreeNode.m_Index = reader.ReadInt32();
} }
typeTreeNode.m_TypeFlags = reader.ReadInt32(); typeTreeNode.m_TypeFlags = reader.ReadInt32();
typeTreeNode.m_Version = reader.ReadInt32(); typeTreeNode.m_Version = reader.ReadInt32();
if (header.m_Version != SerializedFileFormatVersion.kUnknown_3) if (header.m_Version != SerializedFileFormatVersion.Unknown_3)
{ {
typeTreeNode.m_MetaFlag = reader.ReadInt32(); typeTreeNode.m_MetaFlag = reader.ReadInt32();
} }
@ -334,7 +334,7 @@ namespace AssetStudio
typeTreeNode.m_ByteSize = reader.ReadInt32(); typeTreeNode.m_ByteSize = reader.ReadInt32();
typeTreeNode.m_Index = reader.ReadInt32(); typeTreeNode.m_Index = reader.ReadInt32();
typeTreeNode.m_MetaFlag = reader.ReadInt32(); typeTreeNode.m_MetaFlag = reader.ReadInt32();
if (header.m_Version >= SerializedFileFormatVersion.kTypeTreeNodeWithTypeFlags) if (header.m_Version >= SerializedFileFormatVersion.TypeTreeNodeWithTypeFlags)
{ {
typeTreeNode.m_RefTypeHash = reader.ReadUInt64(); typeTreeNode.m_RefTypeHash = reader.ReadUInt64();
} }

42
AssetStudio/SerializedFileFormatVersion.cs
View File

@ -8,80 +8,80 @@ namespace AssetStudio
{ {
public enum SerializedFileFormatVersion public enum SerializedFileFormatVersion
{ {
kUnsupported = 1, Unsupported = 1,
kUnknown_2 = 2, Unknown_2 = 2,
kUnknown_3 = 3, Unknown_3 = 3,
/// <summary> /// <summary>
/// 1.2.0 to 2.0.0 /// 1.2.0 to 2.0.0
/// </summary> /// </summary>
kUnknown_5 = 5, Unknown_5 = 5,
/// <summary> /// <summary>
/// 2.1.0 to 2.6.1 /// 2.1.0 to 2.6.1
/// </summary> /// </summary>
kUnknown_6 = 6, Unknown_6 = 6,
/// <summary> /// <summary>
/// 3.0.0b /// 3.0.0b
/// </summary> /// </summary>
kUnknown_7 = 7, Unknown_7 = 7,
/// <summary> /// <summary>
/// 3.0.0 to 3.4.2 /// 3.0.0 to 3.4.2
/// </summary> /// </summary>
kUnknown_8 = 8, Unknown_8 = 8,
/// <summary> /// <summary>
/// 3.5.0 to 4.7.2 /// 3.5.0 to 4.7.2
/// </summary> /// </summary>
kUnknown_9 = 9, Unknown_9 = 9,
/// <summary> /// <summary>
/// 5.0.0aunk1 /// 5.0.0aunk1
/// </summary> /// </summary>
kUnknown_10 = 10, Unknown_10 = 10,
/// <summary> /// <summary>
/// 5.0.0aunk2 /// 5.0.0aunk2
/// </summary> /// </summary>
kHasScriptTypeIndex = 11, HasScriptTypeIndex = 11,
/// <summary> /// <summary>
/// 5.0.0aunk3 /// 5.0.0aunk3
/// </summary> /// </summary>
kUnknown_12 = 12, Unknown_12 = 12,
/// <summary> /// <summary>
/// 5.0.0aunk4 /// 5.0.0aunk4
/// </summary> /// </summary>
kHasTypeTreeHashes = 13, HasTypeTreeHashes = 13,
/// <summary> /// <summary>
/// 5.0.0unk /// 5.0.0unk
/// </summary> /// </summary>
kUnknown_14 = 14, Unknown_14 = 14,
/// <summary> /// <summary>
/// 5.0.1 to 5.4.0 /// 5.0.1 to 5.4.0
/// </summary> /// </summary>
kSupportsStrippedObject = 15, SupportsStrippedObject = 15,
/// <summary> /// <summary>
/// 5.5.0a /// 5.5.0a
/// </summary> /// </summary>
kRefactoredClassId = 16, RefactoredClassId = 16,
/// <summary> /// <summary>
/// 5.5.0unk to 2018.4 /// 5.5.0unk to 2018.4
/// </summary> /// </summary>
kRefactorTypeData = 17, RefactorTypeData = 17,
/// <summary> /// <summary>
/// 2019.1a /// 2019.1a
/// </summary> /// </summary>
kRefactorShareableTypeTreeData = 18, RefactorShareableTypeTreeData = 18,
/// <summary> /// <summary>
/// 2019.1unk /// 2019.1unk
/// </summary> /// </summary>
kTypeTreeNodeWithTypeFlags = 19, TypeTreeNodeWithTypeFlags = 19,
/// <summary> /// <summary>
/// 2019.2 /// 2019.2
/// </summary> /// </summary>
kSupportsRefObject = 20, SupportsRefObject = 20,
/// <summary> /// <summary>
/// 2019.3 to 2019.4 /// 2019.3 to 2019.4
/// </summary> /// </summary>
kStoresTypeDependencies = 21, StoresTypeDependencies = 21,
/// <summary> /// <summary>
/// 2020.1 to x /// 2020.1 to x
/// </summary> /// </summary>
kLargeFilesSupport = 22 LargeFilesSupport = 22
} }
} }

26
AssetStudioGUI/AssetStudioGUIForm.cs
View File

@ -826,40 +826,40 @@ namespace AssetStudioGUI
{ {
switch (m_AudioClip.m_Type) switch (m_AudioClip.m_Type)
{ {
case AudioType.ACC: case FMODSoundType.ACC:
assetItem.InfoText += "Acc"; assetItem.InfoText += "Acc";
break; break;
case AudioType.AIFF: case FMODSoundType.AIFF:
assetItem.InfoText += "AIFF"; assetItem.InfoText += "AIFF";
break; break;
case AudioType.IT: case FMODSoundType.IT:
assetItem.InfoText += "Impulse tracker"; assetItem.InfoText += "Impulse tracker";
break; break;
case AudioType.MOD: case FMODSoundType.MOD:
assetItem.InfoText += "Protracker / Fasttracker MOD"; assetItem.InfoText += "Protracker / Fasttracker MOD";
break; break;
case AudioType.MPEG: case FMODSoundType.MPEG:
assetItem.InfoText += "MP2/MP3 MPEG"; assetItem.InfoText += "MP2/MP3 MPEG";
break; break;
case AudioType.OGGVORBIS: case FMODSoundType.OGGVORBIS:
assetItem.InfoText += "Ogg vorbis"; assetItem.InfoText += "Ogg vorbis";
break; break;
case AudioType.S3M: case FMODSoundType.S3M:
assetItem.InfoText += "ScreamTracker 3"; assetItem.InfoText += "ScreamTracker 3";
break; break;
case AudioType.WAV: case FMODSoundType.WAV:
assetItem.InfoText += "Microsoft WAV"; assetItem.InfoText += "Microsoft WAV";
break; break;
case AudioType.XM: case FMODSoundType.XM:
assetItem.InfoText += "FastTracker 2 XM"; assetItem.InfoText += "FastTracker 2 XM";
break; break;
case AudioType.XMA: case FMODSoundType.XMA:
assetItem.InfoText += "Xbox360 XMA"; assetItem.InfoText += "Xbox360 XMA";
break; break;
case AudioType.VAG: case FMODSoundType.VAG:
assetItem.InfoText += "PlayStation Portable ADPCM"; assetItem.InfoText += "PlayStation Portable ADPCM";
break; break;
case AudioType.AUDIOQUEUE: case FMODSoundType.AUDIOQUEUE:
assetItem.InfoText += "iPhone"; assetItem.InfoText += "iPhone";
break; break;
default: default:
@ -883,7 +883,7 @@ namespace AssetStudioGUI
case AudioCompressionFormat.MP3: case AudioCompressionFormat.MP3:
assetItem.InfoText += "MP3"; assetItem.InfoText += "MP3";
break; break;
case AudioCompressionFormat.VAG: case AudioCompressionFormat.PSMVAG:
assetItem.InfoText += "PlayStation Portable ADPCM"; assetItem.InfoText += "PlayStation Portable ADPCM";
break; break;
case AudioCompressionFormat.HEVAG: case AudioCompressionFormat.HEVAG:

40
AssetStudioUtility/AudioClipConverter.cs
View File

@ -94,29 +94,29 @@ namespace AssetStudio
{ {
switch (m_AudioClip.m_Type) switch (m_AudioClip.m_Type)
{ {
case AudioType.ACC: case FMODSoundType.ACC:
return ".m4a"; return ".m4a";
case AudioType.AIFF: case FMODSoundType.AIFF:
return ".aif"; return ".aif";
case AudioType.IT: case FMODSoundType.IT:
return ".it"; return ".it";
case AudioType.MOD: case FMODSoundType.MOD:
return ".mod"; return ".mod";
case AudioType.MPEG: case FMODSoundType.MPEG:
return ".mp3"; return ".mp3";
case AudioType.OGGVORBIS: case FMODSoundType.OGGVORBIS:
return ".ogg"; return ".ogg";
case AudioType.S3M: case FMODSoundType.S3M:
return ".s3m"; return ".s3m";
case AudioType.WAV: case FMODSoundType.WAV:
return ".wav"; return ".wav";
case AudioType.XM: case FMODSoundType.XM:
return ".xm"; return ".xm";
case AudioType.XMA: case FMODSoundType.XMA:
return ".wav"; return ".wav";
case AudioType.VAG: case FMODSoundType.VAG:
return ".vag"; return ".vag";
case AudioType.AUDIOQUEUE: case FMODSoundType.AUDIOQUEUE:
return ".fsb"; return ".fsb";
} }
@ -133,7 +133,7 @@ namespace AssetStudio
return ".fsb"; return ".fsb";
case AudioCompressionFormat.MP3: case AudioCompressionFormat.MP3:
return ".fsb"; return ".fsb";
case AudioCompressionFormat.VAG: case AudioCompressionFormat.PSMVAG:
return ".fsb"; return ".fsb";
case AudioCompressionFormat.HEVAG: case AudioCompressionFormat.HEVAG:
return ".fsb"; return ".fsb";
@ -159,13 +159,13 @@ namespace AssetStudio
{ {
switch (m_AudioClip.m_Type) switch (m_AudioClip.m_Type)
{ {
case AudioType.AIFF: case FMODSoundType.AIFF:
case AudioType.IT: case FMODSoundType.IT:
case AudioType.MOD: case FMODSoundType.MOD:
case AudioType.S3M: case FMODSoundType.S3M:
case AudioType.XM: case FMODSoundType.XM:
case AudioType.XMA: case FMODSoundType.XMA:
case AudioType.AUDIOQUEUE: case FMODSoundType.AUDIOQUEUE:
return true; return true;
default: default:
return false; return false;

275
AssetStudioUtility/ShaderConverter.cs
View File

@ -109,17 +109,17 @@ namespace AssetStudio
var sb = new StringBuilder(); var sb = new StringBuilder();
switch (m_Passe.m_Type) switch (m_Passe.m_Type)
{ {
case PassType.kPassTypeNormal: case PassType.Normal:
sb.Append(" Pass "); sb.Append(" Pass ");
break; break;
case PassType.kPassTypeUse: case PassType.Use:
sb.Append(" UsePass "); sb.Append(" UsePass ");
break; break;
case PassType.kPassTypeGrab: case PassType.Grab:
sb.Append(" GrabPass "); sb.Append(" GrabPass ");
break; break;
} }
if (m_Passe.m_Type == PassType.kPassTypeUse) if (m_Passe.m_Type == PassType.Use)
{ {
sb.Append($"\"{m_Passe.m_UseName}\"\n"); sb.Append($"\"{m_Passe.m_UseName}\"\n");
} }
@ -127,7 +127,7 @@ namespace AssetStudio
{ {
sb.Append("{\n"); sb.Append("{\n");
if (m_Passe.m_Type == PassType.kPassTypeGrab) if (m_Passe.m_Type == PassType.Grab)
{ {
if (!string.IsNullOrEmpty(m_Passe.m_TextureName)) if (!string.IsNullOrEmpty(m_Passe.m_TextureName))
{ {
@ -358,7 +358,7 @@ namespace AssetStudio
sb.Append(" }\n"); sb.Append(" }\n");
} }
if (m_State.fogMode != FogMode.kFogUnknown || if (m_State.fogMode != FogMode.Unknown ||
m_State.fogColor.x.val != 0f || m_State.fogColor.x.val != 0f ||
m_State.fogColor.y.val != 0f || m_State.fogColor.y.val != 0f ||
m_State.fogColor.z.val != 0f || m_State.fogColor.z.val != 0f ||
@ -368,21 +368,21 @@ namespace AssetStudio
m_State.fogEnd.val != 0f) m_State.fogEnd.val != 0f)
{ {
sb.Append(" Fog {\n"); sb.Append(" Fog {\n");
if (m_State.fogMode != FogMode.kFogUnknown) if (m_State.fogMode != FogMode.Unknown)
{ {
sb.Append(" Mode "); sb.Append(" Mode ");
switch (m_State.fogMode) switch (m_State.fogMode)
{ {
case FogMode.kFogDisabled: case FogMode.Disabled:
sb.Append("Off"); sb.Append("Off");
break; break;
case FogMode.kFogLinear: case FogMode.Linear:
sb.Append("Linear"); sb.Append("Linear");
break; break;
case FogMode.kFogExp: case FogMode.Exp:
sb.Append("Exp"); sb.Append("Exp");
break; break;
case FogMode.kFogExp2: case FogMode.Exp2:
sb.Append("Exp2"); sb.Append("Exp2");
break; break;
} }
@ -674,37 +674,37 @@ namespace AssetStudio
sb.Append($"{m_Prop.m_Name} (\"{m_Prop.m_Description}\", "); sb.Append($"{m_Prop.m_Name} (\"{m_Prop.m_Description}\", ");
switch (m_Prop.m_Type) switch (m_Prop.m_Type)
{ {
case SerializedPropertyType.kColor: case SerializedPropertyType.Color:
sb.Append("Color"); sb.Append("Color");
break; break;
case SerializedPropertyType.kVector: case SerializedPropertyType.Vector:
sb.Append("Vector"); sb.Append("Vector");
break; break;
case SerializedPropertyType.kFloat: case SerializedPropertyType.Float:
sb.Append("Float"); sb.Append("Float");
break; break;
case SerializedPropertyType.kRange: case SerializedPropertyType.Range:
sb.Append($"Range({m_Prop.m_DefValue[1]}, {m_Prop.m_DefValue[2]})"); sb.Append($"Range({m_Prop.m_DefValue[1]}, {m_Prop.m_DefValue[2]})");
break; break;
case SerializedPropertyType.kTexture: case SerializedPropertyType.Texture:
switch (m_Prop.m_DefTexture.m_TexDim) switch (m_Prop.m_DefTexture.m_TexDim)
{ {
case TextureDimension.kTexDimAny: case TextureDimension.Any:
sb.Append("any"); sb.Append("any");
break; break;
case TextureDimension.kTexDim2D: case TextureDimension.Tex2D:
sb.Append("2D"); sb.Append("2D");
break; break;
case TextureDimension.kTexDim3D: case TextureDimension.Tex3D:
sb.Append("3D"); sb.Append("3D");
break; break;
case TextureDimension.kTexDimCUBE: case TextureDimension.Cube:
sb.Append("Cube"); sb.Append("Cube");
break; break;
case TextureDimension.kTexDim2DArray: case TextureDimension.Tex2DArray:
sb.Append("2DArray"); sb.Append("2DArray");
break; break;
case TextureDimension.kTexDimCubeArray: case TextureDimension.CubeArray:
sb.Append("CubeArray"); sb.Append("CubeArray");
break; break;
} }
@ -713,15 +713,15 @@ namespace AssetStudio
sb.Append(") = "); sb.Append(") = ");
switch (m_Prop.m_Type) switch (m_Prop.m_Type)
{ {
case SerializedPropertyType.kColor: case SerializedPropertyType.Color:
case SerializedPropertyType.kVector: case SerializedPropertyType.Vector:
sb.Append($"({m_Prop.m_DefValue[0]},{m_Prop.m_DefValue[1]},{m_Prop.m_DefValue[2]},{m_Prop.m_DefValue[3]})"); sb.Append($"({m_Prop.m_DefValue[0]},{m_Prop.m_DefValue[1]},{m_Prop.m_DefValue[2]},{m_Prop.m_DefValue[3]})");
break; break;
case SerializedPropertyType.kFloat: case SerializedPropertyType.Float:
case SerializedPropertyType.kRange: case SerializedPropertyType.Range:
sb.Append(m_Prop.m_DefValue[0]); sb.Append(m_Prop.m_DefValue[0]);
break; break;
case SerializedPropertyType.kTexture: case SerializedPropertyType.Texture:
sb.Append($"\"{m_Prop.m_DefTexture.m_DefaultName}\" {{ }}"); sb.Append($"\"{m_Prop.m_DefTexture.m_DefaultName}\" {{ }}");
break; break;
default: default:
@ -735,64 +735,65 @@ namespace AssetStudio
{ {
switch (platform) switch (platform)
{ {
case ShaderCompilerPlatform.kShaderCompPlatformGL: case ShaderCompilerPlatform.GL:
return programType == ShaderGpuProgramType.kShaderGpuProgramGLLegacy; return programType == ShaderGpuProgramType.GLLegacy;
case ShaderCompilerPlatform.kShaderCompPlatformD3D9: case ShaderCompilerPlatform.D3D9:
return programType == ShaderGpuProgramType.kShaderGpuProgramDX9VertexSM20 return programType == ShaderGpuProgramType.DX9VertexSM20
|| programType == ShaderGpuProgramType.kShaderGpuProgramDX9VertexSM30 || programType == ShaderGpuProgramType.DX9VertexSM30
|| programType == ShaderGpuProgramType.kShaderGpuProgramDX9PixelSM20 || programType == ShaderGpuProgramType.DX9PixelSM20
|| programType == ShaderGpuProgramType.kShaderGpuProgramDX9PixelSM30; || programType == ShaderGpuProgramType.DX9PixelSM30;
case ShaderCompilerPlatform.kShaderCompPlatformXbox360: case ShaderCompilerPlatform.Xbox360:
case ShaderCompilerPlatform.kShaderCompPlatformPS3: case ShaderCompilerPlatform.PS3:
case ShaderCompilerPlatform.kShaderCompPlatformPSP2: case ShaderCompilerPlatform.PSP2:
case ShaderCompilerPlatform.kShaderCompPlatformPS4: case ShaderCompilerPlatform.PS4:
case ShaderCompilerPlatform.kShaderCompPlatformXboxOne: case ShaderCompilerPlatform.XboxOne:
case ShaderCompilerPlatform.kShaderCompPlatformN3DS: case ShaderCompilerPlatform.N3DS:
case ShaderCompilerPlatform.kShaderCompPlatformWiiU: case ShaderCompilerPlatform.WiiU:
case ShaderCompilerPlatform.kShaderCompPlatformSwitch: case ShaderCompilerPlatform.Switch:
case ShaderCompilerPlatform.kShaderCompPlatformXboxOneD3D12: case ShaderCompilerPlatform.XboxOneD3D12:
case ShaderCompilerPlatform.kShaderCompPlatformGameCoreXboxOne: case ShaderCompilerPlatform.GameCoreXboxOne:
case ShaderCompilerPlatform.kShaderCompPlatformGameCoreScarlett: case ShaderCompilerPlatform.GameCoreScarlett:
case ShaderCompilerPlatform.kShaderCompPlatformPS5: case ShaderCompilerPlatform.PS5:
case ShaderCompilerPlatform.kShaderCompPlatformPS5NGGC: return programType == ShaderGpuProgramType.ConsoleVS
return programType == ShaderGpuProgramType.kShaderGpuProgramConsoleVS || programType == ShaderGpuProgramType.ConsoleFS
|| programType == ShaderGpuProgramType.kShaderGpuProgramConsoleFS || programType == ShaderGpuProgramType.ConsoleHS
|| programType == ShaderGpuProgramType.kShaderGpuProgramConsoleHS || programType == ShaderGpuProgramType.ConsoleDS
|| programType == ShaderGpuProgramType.kShaderGpuProgramConsoleDS || programType == ShaderGpuProgramType.ConsoleGS;
|| programType == ShaderGpuProgramType.kShaderGpuProgramConsoleGS; case ShaderCompilerPlatform.PS5NGGC:
case ShaderCompilerPlatform.kShaderCompPlatformD3D11: return programType == ShaderGpuProgramType.PS5NGGC;
return programType == ShaderGpuProgramType.kShaderGpuProgramDX11VertexSM40 case ShaderCompilerPlatform.D3D11:
|| programType == ShaderGpuProgramType.kShaderGpuProgramDX11VertexSM50 return programType == ShaderGpuProgramType.DX11VertexSM40
|| programType == ShaderGpuProgramType.kShaderGpuProgramDX11PixelSM40 || programType == ShaderGpuProgramType.DX11VertexSM50
|| programType == ShaderGpuProgramType.kShaderGpuProgramDX11PixelSM50 || programType == ShaderGpuProgramType.DX11PixelSM40
|| programType == ShaderGpuProgramType.kShaderGpuProgramDX11GeometrySM40 || programType == ShaderGpuProgramType.DX11PixelSM50
|| programType == ShaderGpuProgramType.kShaderGpuProgramDX11GeometrySM50 || programType == ShaderGpuProgramType.DX11GeometrySM40
|| programType == ShaderGpuProgramType.kShaderGpuProgramDX11HullSM50 || programType == ShaderGpuProgramType.DX11GeometrySM50
|| programType == ShaderGpuProgramType.kShaderGpuProgramDX11DomainSM50; || programType == ShaderGpuProgramType.DX11HullSM50
case ShaderCompilerPlatform.kShaderCompPlatformGLES20: || programType == ShaderGpuProgramType.DX11DomainSM50;
return programType == ShaderGpuProgramType.kShaderGpuProgramGLES; case ShaderCompilerPlatform.GLES20:
case ShaderCompilerPlatform.kShaderCompPlatformNaCl: //Obsolete return programType == ShaderGpuProgramType.GLES;
case ShaderCompilerPlatform.NaCl: //Obsolete
throw new NotSupportedException(); throw new NotSupportedException();
case ShaderCompilerPlatform.kShaderCompPlatformFlash: //Obsolete case ShaderCompilerPlatform.Flash: //Obsolete
throw new NotSupportedException(); throw new NotSupportedException();
case ShaderCompilerPlatform.kShaderCompPlatformD3D11_9x: case ShaderCompilerPlatform.D3D11_9x:
return programType == ShaderGpuProgramType.kShaderGpuProgramDX10Level9Vertex return programType == ShaderGpuProgramType.DX10Level9Vertex
|| programType == ShaderGpuProgramType.kShaderGpuProgramDX10Level9Pixel; || programType == ShaderGpuProgramType.DX10Level9Pixel;
case ShaderCompilerPlatform.kShaderCompPlatformGLES3Plus: case ShaderCompilerPlatform.GLES3Plus:
return programType == ShaderGpuProgramType.kShaderGpuProgramGLES31AEP return programType == ShaderGpuProgramType.GLES31AEP
|| programType == ShaderGpuProgramType.kShaderGpuProgramGLES31 || programType == ShaderGpuProgramType.GLES31
|| programType == ShaderGpuProgramType.kShaderGpuProgramGLES3; || programType == ShaderGpuProgramType.GLES3;
case ShaderCompilerPlatform.kShaderCompPlatformPSM: //Unknown case ShaderCompilerPlatform.PSM: //Unknown
throw new NotSupportedException(); throw new NotSupportedException();
case ShaderCompilerPlatform.kShaderCompPlatformMetal: case ShaderCompilerPlatform.Metal:
return programType == ShaderGpuProgramType.kShaderGpuProgramMetalVS return programType == ShaderGpuProgramType.MetalVS
|| programType == ShaderGpuProgramType.kShaderGpuProgramMetalFS; || programType == ShaderGpuProgramType.MetalFS;
case ShaderCompilerPlatform.kShaderCompPlatformOpenGLCore: case ShaderCompilerPlatform.OpenGLCore:
return programType == ShaderGpuProgramType.kShaderGpuProgramGLCore32 return programType == ShaderGpuProgramType.GLCore32
|| programType == ShaderGpuProgramType.kShaderGpuProgramGLCore41 || programType == ShaderGpuProgramType.GLCore41
|| programType == ShaderGpuProgramType.kShaderGpuProgramGLCore43; || programType == ShaderGpuProgramType.GLCore43;
case ShaderCompilerPlatform.kShaderCompPlatformVulkan: case ShaderCompilerPlatform.Vulkan:
return programType == ShaderGpuProgramType.kShaderGpuProgramSPIRV; return programType == ShaderGpuProgramType.SPIRV;
default: default:
throw new NotSupportedException(); throw new NotSupportedException();
} }
@ -802,55 +803,55 @@ namespace AssetStudio
{ {
switch (platform) switch (platform)
{ {
case ShaderCompilerPlatform.kShaderCompPlatformGL: case ShaderCompilerPlatform.GL:
return "openGL"; return "openGL";
case ShaderCompilerPlatform.kShaderCompPlatformD3D9: case ShaderCompilerPlatform.D3D9:
return "d3d9"; return "d3d9";
case ShaderCompilerPlatform.kShaderCompPlatformXbox360: case ShaderCompilerPlatform.Xbox360:
return "xbox360"; return "xbox360";
case ShaderCompilerPlatform.kShaderCompPlatformPS3: case ShaderCompilerPlatform.PS3:
return "ps3"; return "ps3";
case ShaderCompilerPlatform.kShaderCompPlatformD3D11: case ShaderCompilerPlatform.D3D11:
return "d3d11"; return "d3d11";
case ShaderCompilerPlatform.kShaderCompPlatformGLES20: case ShaderCompilerPlatform.GLES20:
return "gles"; return "gles";
case ShaderCompilerPlatform.kShaderCompPlatformNaCl: case ShaderCompilerPlatform.NaCl:
return "glesdesktop"; return "glesdesktop";
case ShaderCompilerPlatform.kShaderCompPlatformFlash: case ShaderCompilerPlatform.Flash:
return "flash"; return "flash";
case ShaderCompilerPlatform.kShaderCompPlatformD3D11_9x: case ShaderCompilerPlatform.D3D11_9x:
return "d3d11_9x"; return "d3d11_9x";
case ShaderCompilerPlatform.kShaderCompPlatformGLES3Plus: case ShaderCompilerPlatform.GLES3Plus:
return "gles3"; return "gles3";
case ShaderCompilerPlatform.kShaderCompPlatformPSP2: case ShaderCompilerPlatform.PSP2:
return "psp2"; return "psp2";
case ShaderCompilerPlatform.kShaderCompPlatformPS4: case ShaderCompilerPlatform.PS4:
return "ps4"; return "ps4";
case ShaderCompilerPlatform.kShaderCompPlatformXboxOne: case ShaderCompilerPlatform.XboxOne:
return "xboxone"; return "xboxone";
case ShaderCompilerPlatform.kShaderCompPlatformPSM: case ShaderCompilerPlatform.PSM:
return "psm"; return "psm";
case ShaderCompilerPlatform.kShaderCompPlatformMetal: case ShaderCompilerPlatform.Metal:
return "metal"; return "metal";
case ShaderCompilerPlatform.kShaderCompPlatformOpenGLCore: case ShaderCompilerPlatform.OpenGLCore:
return "glcore"; return "glcore";
case ShaderCompilerPlatform.kShaderCompPlatformN3DS: case ShaderCompilerPlatform.N3DS:
return "n3ds"; return "n3ds";
case ShaderCompilerPlatform.kShaderCompPlatformWiiU: case ShaderCompilerPlatform.WiiU:
return "wiiu"; return "wiiu";
case ShaderCompilerPlatform.kShaderCompPlatformVulkan: case ShaderCompilerPlatform.Vulkan:
return "vulkan"; return "vulkan";
case ShaderCompilerPlatform.kShaderCompPlatformSwitch: case ShaderCompilerPlatform.Switch:
return "switch"; return "switch";
case ShaderCompilerPlatform.kShaderCompPlatformXboxOneD3D12: case ShaderCompilerPlatform.XboxOneD3D12:
return "xboxone_d3d12"; return "xboxone_d3d12";
case ShaderCompilerPlatform.kShaderCompPlatformGameCoreXboxOne: case ShaderCompilerPlatform.GameCoreXboxOne:
return "xboxone"; return "xboxone";
case ShaderCompilerPlatform.kShaderCompPlatformGameCoreScarlett: case ShaderCompilerPlatform.GameCoreScarlett:
return "xbox_scarlett"; return "xbox_scarlett";
case ShaderCompilerPlatform.kShaderCompPlatformPS5: case ShaderCompilerPlatform.PS5:
return "ps5"; return "ps5";
case ShaderCompilerPlatform.kShaderCompPlatformPS5NGGC: case ShaderCompilerPlatform.PS5NGGC:
return "ps5_nggc"; return "ps5_nggc";
default: default:
return "unknown"; return "unknown";
@ -996,36 +997,36 @@ namespace AssetStudio
{ {
switch (m_ProgramType) switch (m_ProgramType)
{ {
case ShaderGpuProgramType.kShaderGpuProgramGLLegacy: case ShaderGpuProgramType.GLLegacy:
case ShaderGpuProgramType.kShaderGpuProgramGLES31AEP: case ShaderGpuProgramType.GLES31AEP:
case ShaderGpuProgramType.kShaderGpuProgramGLES31: case ShaderGpuProgramType.GLES31:
case ShaderGpuProgramType.kShaderGpuProgramGLES3: case ShaderGpuProgramType.GLES3:
case ShaderGpuProgramType.kShaderGpuProgramGLES: case ShaderGpuProgramType.GLES:
case ShaderGpuProgramType.kShaderGpuProgramGLCore32: case ShaderGpuProgramType.GLCore32:
case ShaderGpuProgramType.kShaderGpuProgramGLCore41: case ShaderGpuProgramType.GLCore41:
case ShaderGpuProgramType.kShaderGpuProgramGLCore43: case ShaderGpuProgramType.GLCore43:
sb.Append(Encoding.UTF8.GetString(m_ProgramCode)); sb.Append(Encoding.UTF8.GetString(m_ProgramCode));
break; break;
case ShaderGpuProgramType.kShaderGpuProgramDX9VertexSM20: case ShaderGpuProgramType.DX9VertexSM20:
case ShaderGpuProgramType.kShaderGpuProgramDX9VertexSM30: case ShaderGpuProgramType.DX9VertexSM30:
case ShaderGpuProgramType.kShaderGpuProgramDX9PixelSM20: case ShaderGpuProgramType.DX9PixelSM20:
case ShaderGpuProgramType.kShaderGpuProgramDX9PixelSM30: case ShaderGpuProgramType.DX9PixelSM30:
{ {
/*var shaderBytecode = new ShaderBytecode(m_ProgramCode); /*var shaderBytecode = new ShaderBytecode(m_ProgramCode);
sb.Append(shaderBytecode.Disassemble());*/ sb.Append(shaderBytecode.Disassemble());*/
sb.Append("// shader disassembly not supported on DXBC"); sb.Append("// shader disassembly not supported on DXBC");
break; break;
} }
case ShaderGpuProgramType.kShaderGpuProgramDX10Level9Vertex: case ShaderGpuProgramType.DX10Level9Vertex:
case ShaderGpuProgramType.kShaderGpuProgramDX10Level9Pixel: case ShaderGpuProgramType.DX10Level9Pixel:
case ShaderGpuProgramType.kShaderGpuProgramDX11VertexSM40: case ShaderGpuProgramType.DX11VertexSM40:
case ShaderGpuProgramType.kShaderGpuProgramDX11VertexSM50: case ShaderGpuProgramType.DX11VertexSM50:
case ShaderGpuProgramType.kShaderGpuProgramDX11PixelSM40: case ShaderGpuProgramType.DX11PixelSM40:
case ShaderGpuProgramType.kShaderGpuProgramDX11PixelSM50: case ShaderGpuProgramType.DX11PixelSM50:
case ShaderGpuProgramType.kShaderGpuProgramDX11GeometrySM40: case ShaderGpuProgramType.DX11GeometrySM40:
case ShaderGpuProgramType.kShaderGpuProgramDX11GeometrySM50: case ShaderGpuProgramType.DX11GeometrySM50:
case ShaderGpuProgramType.kShaderGpuProgramDX11HullSM50: case ShaderGpuProgramType.DX11HullSM50:
case ShaderGpuProgramType.kShaderGpuProgramDX11DomainSM50: case ShaderGpuProgramType.DX11DomainSM50:
{ {
/*int start = 6; /*int start = 6;
if (m_Version == 201509030) // 5.3 if (m_Version == 201509030) // 5.3
@ -1039,8 +1040,8 @@ namespace AssetStudio
sb.Append("// shader disassembly not supported on DXBC"); sb.Append("// shader disassembly not supported on DXBC");
break; break;
} }
case ShaderGpuProgramType.kShaderGpuProgramMetalVS: case ShaderGpuProgramType.MetalVS:
case ShaderGpuProgramType.kShaderGpuProgramMetalFS: case ShaderGpuProgramType.MetalFS:
using (var reader = new BinaryReader(new MemoryStream(m_ProgramCode))) using (var reader = new BinaryReader(new MemoryStream(m_ProgramCode)))
{ {
var fourCC = reader.ReadUInt32(); var fourCC = reader.ReadUInt32();
@ -1054,7 +1055,7 @@ namespace AssetStudio
sb.Append(Encoding.UTF8.GetString(buff)); sb.Append(Encoding.UTF8.GetString(buff));
} }
break; break;
case ShaderGpuProgramType.kShaderGpuProgramSPIRV: case ShaderGpuProgramType.SPIRV:
try try
{ {
sb.Append(SpirVShaderConverter.Convert(m_ProgramCode)); sb.Append(SpirVShaderConverter.Convert(m_ProgramCode));
@ -1064,11 +1065,11 @@ namespace AssetStudio
sb.Append($"// disassembly error {e.Message}\n"); sb.Append($"// disassembly error {e.Message}\n");
} }
break; break;
case ShaderGpuProgramType.kShaderGpuProgramConsoleVS: case ShaderGpuProgramType.ConsoleVS:
case ShaderGpuProgramType.kShaderGpuProgramConsoleFS: case ShaderGpuProgramType.ConsoleFS:
case ShaderGpuProgramType.kShaderGpuProgramConsoleHS: case ShaderGpuProgramType.ConsoleHS:
case ShaderGpuProgramType.kShaderGpuProgramConsoleDS: case ShaderGpuProgramType.ConsoleDS:
case ShaderGpuProgramType.kShaderGpuProgramConsoleGS: case ShaderGpuProgramType.ConsoleGS:
sb.Append(Encoding.UTF8.GetString(m_ProgramCode)); sb.Append(Encoding.UTF8.GetString(m_ProgramCode));
break; break;
default: default:

10
AssetStudioUtility/SpriteHelper.cs
View File

@ -58,23 +58,23 @@ namespace AssetStudio
//RotateAndFlip //RotateAndFlip
switch (settingsRaw.packingRotation) switch (settingsRaw.packingRotation)
{ {
case SpritePackingRotation.kSPRFlipHorizontal: case SpritePackingRotation.FlipHorizontal:
spriteImage.Mutate(x => x.Flip(FlipMode.Horizontal)); spriteImage.Mutate(x => x.Flip(FlipMode.Horizontal));
break; break;
case SpritePackingRotation.kSPRFlipVertical: case SpritePackingRotation.FlipVertical:
spriteImage.Mutate(x => x.Flip(FlipMode.Vertical)); spriteImage.Mutate(x => x.Flip(FlipMode.Vertical));
break; break;
case SpritePackingRotation.kSPRRotate180: case SpritePackingRotation.Rotate180:
spriteImage.Mutate(x => x.Rotate(180)); spriteImage.Mutate(x => x.Rotate(180));
break; break;
case SpritePackingRotation.kSPRRotate90: case SpritePackingRotation.Rotate90:
spriteImage.Mutate(x => x.Rotate(270)); spriteImage.Mutate(x => x.Rotate(270));
break; break;
} }
} }
//Tight //Tight
if (settingsRaw.packingMode == SpritePackingMode.kSPMTight) if (settingsRaw.packingMode == SpritePackingMode.Tight)
{ {
try try
{ {