// ---- METHODS ------------------------------------------------------------------------------------------------
void IResData.Load(ResFileLoader loader)
{
loader.CheckSignature(_signature);
if (loader.IsSwitch)
{
Switch.VisibilityAnimParser.Read((Switch.Core.ResFileSwitchLoader)loader, this);
}
else
{
Name = loader.LoadString();
Path = loader.LoadString();
_flags = loader.ReadUInt16();
ushort numAnim = 0;
ushort numCurve = 0;
if (loader.ResFile.Version >= 0x03040000)
{
ushort numUserData = loader.ReadUInt16();
FrameCount = loader.ReadInt32();
numAnim = loader.ReadUInt16();
numCurve = loader.ReadUInt16();
BakedSize = loader.ReadUInt32();
}
else
{
FrameCount = loader.ReadInt16();
numAnim = loader.ReadUInt16();
numCurve = loader.ReadUInt16();
ushort numUserData = loader.ReadUInt16();
BakedSize = loader.ReadUInt32();
int padding2 = loader.ReadInt16();
}
BindModel = loader.Load <Model>();
BindIndices = loader.LoadCustom(() => loader.ReadUInt16s(numAnim));
Names = loader.LoadCustom(() => loader.LoadStrings(numAnim)); // Offset to name list.
Curves = loader.LoadList <AnimCurve>(numCurve);
baseDataBytes = new List <byte>();
BaseDataList = loader.LoadCustom(() =>
{
bool[] baseData = new bool[numAnim];
int i = 0;
while (i < numAnim)
{
byte b = loader.ReadByte();
baseDataBytes.Add(b);
for (int j = 0; j < 8 && i < numAnim; j++)
{
baseData[i] = b.GetBit(j);
}
i++;
}
return(baseData);
});
UserData = loader.LoadDict <UserData>();
}
}
// ---- METHODS ------------------------------------------------------------------------------------------------
void IResData.Load(ResFileLoader loader)
{
Name = loader.LoadString();
ushort idx = loader.ReadUInt16();
ParentIndex = loader.ReadUInt16();
SmoothMatrixIndex = loader.ReadInt16();
RigidMatrixIndex = loader.ReadInt16();
BillboardIndex = loader.ReadUInt16();
ushort numUserData = loader.ReadUInt16();
_flags = loader.ReadUInt32();
Scale = loader.ReadVector3F();
Rotation = loader.ReadVector4F();
Position = loader.ReadVector3F();
UserData = loader.LoadDict <UserData>();
}
void IResData.Load(ResFileLoader loader)
{
if (loader.ResFile.Version >= 0x02040000)
{
loader.CheckSignature(_signature);
Name = loader.LoadString();
Path = loader.LoadString();
Flags = loader.ReadEnum <ShaderParamAnimFlags>(true);
ushort numMatAnim = 0;
if (loader.ResFile.Version >= 0x03040000)
{
FrameCount = loader.ReadInt32();
numMatAnim = loader.ReadUInt16();
ushort numUserData = loader.ReadUInt16();
int numParamAnim = loader.ReadInt32();
int numCurve = loader.ReadInt32();
BakedSize = loader.ReadUInt32();
}
else
{
FrameCount = loader.ReadUInt16();
numMatAnim = loader.ReadUInt16();
unk = loader.ReadUInt32();
int numCurve = loader.ReadInt32();
BakedSize = loader.ReadUInt32();
int padding2 = loader.ReadInt32();
}
BindModel = loader.Load <Model>();
BindIndices = loader.LoadCustom(() => loader.ReadUInt16s(numMatAnim));
ShaderParamMatAnims = loader.LoadList <ShaderParamMatAnim>(numMatAnim);
UserData = loader.LoadDict <UserData>();
}
else
{
Flags = loader.ReadEnum <ShaderParamAnimFlags>(true);
FrameCount = loader.ReadInt16();
ushort numMatAnim = loader.ReadUInt16();
ushort numUserData = loader.ReadUInt16();
ushort unk = loader.ReadUInt16();
BakedSize = loader.ReadUInt32();
Name = loader.LoadString();
Path = loader.LoadString();
BindModel = loader.Load <Model>();
BindIndices = loader.LoadCustom(() => loader.ReadUInt16s(numMatAnim));
ShaderParamMatAnims = loader.LoadList <ShaderParamMatAnim>(numMatAnim);
}
}
// ---- METHODS ------------------------------------------------------------------------------------------------
void IResData.Load(ResFileLoader loader)
{
if (loader.IsSwitch)
{
Name = loader.LoadString();
UserData = loader.LoadDictValues <UserData>();
if (loader.ResFile.VersionMajor2 == 8 || loader.ResFile.VersionMajor2 == 9)
{
loader.Seek(16);
}
ushort idx = loader.ReadUInt16();
ParentIndex = loader.ReadInt16();
SmoothMatrixIndex = loader.ReadInt16();
RigidMatrixIndex = loader.ReadInt16();
BillboardIndex = loader.ReadInt16();
ushort numUserData = loader.ReadUInt16();
_flags = loader.ReadUInt32();
Scale = loader.ReadVector3F();
Rotation = loader.ReadVector4F();
Position = loader.ReadVector3F();
}
else
{
Name = loader.LoadString();
ushort idx = loader.ReadUInt16();
ParentIndex = loader.ReadInt16();
SmoothMatrixIndex = loader.ReadInt16();
RigidMatrixIndex = loader.ReadInt16();
BillboardIndex = loader.ReadInt16();
ushort numUserData = loader.ReadUInt16();
_flags = loader.ReadUInt32();
Scale = loader.ReadVector3F();
Rotation = loader.ReadVector4F();
Position = loader.ReadVector3F();
UserData = loader.LoadDict <UserData>();
if (loader.ResFile.Version < 0x03040000)
{
InverseMatrix = loader.ReadMatrix3x4();
}
}
}
// ---- METHODS ------------------------------------------------------------------------------------------------
void IResData.Load(ResFileLoader loader)
{
if (loader.IsSwitch)
{
Name = loader.LoadString();
CurveIndex = loader.ReadInt16();
BeginConstant = loader.ReadUInt16();
SubBindIndex = loader.ReadSByte();
loader.Seek(3); //padding
}
else
{
CurveIndex = loader.ReadSByte();
SubBindIndex = loader.ReadSByte();
loader.Seek(2);
Name = loader.LoadString();
}
}
// ---- METHODS ------------------------------------------------------------------------------------------------
void IResData.Load(ResFileLoader loader)
{
signature = loader.ReadString(4, Encoding.ASCII);
uint materialAnimOffset = 0;
ushort materialCount = 0;
if (signature == "FMAA")
{
if (loader.ResFile.VersionMajor2 == 9)
{
Flags = loader.ReadEnum <MaterialAnimFlags>(true);
loader.ReadUInt16();
}
else
{
((Switch.Core.ResFileSwitchLoader)loader).LoadHeaderBlock();
}
Name = loader.LoadString();
Path = loader.LoadString();
BindModel = loader.Load <Model>(true);
uint BindIndicesOffset = loader.ReadOffset();
materialAnimOffset = loader.ReadOffset();
uint unk = loader.ReadOffset(); //Empty section. Maybe set at runtime
uint TextureNameArrayOffset = loader.ReadOffset();
UserData = loader.LoadDictValues <UserData>();
uint TextureBindArrayOffset = loader.ReadOffset();
if (loader.ResFile.VersionMajor2 != 9)
{
Flags = loader.ReadEnum <MaterialAnimFlags>(true);
}
ushort numUserData = 0;
ushort CurveCount = 0;
if (loader.ResFile.VersionMajor2 == 9)
{
FrameCount = loader.ReadInt32();
BakedSize = loader.ReadUInt32();
numUserData = loader.ReadUInt16();
materialCount = loader.ReadUInt16();
CurveCount = loader.ReadUInt16();
}
else
{
numUserData = loader.ReadUInt16();
materialCount = loader.ReadUInt16();
CurveCount = loader.ReadUInt16();
FrameCount = loader.ReadInt32();
BakedSize = loader.ReadUInt32();
}
ushort ShaderParamAnimCount = loader.ReadUInt16();
ushort TexturePatternAnimCount = loader.ReadUInt16();
ushort VisabiltyAnimCount = loader.ReadUInt16();
ushort TextureCount = loader.ReadUInt16();
if (loader.ResFile.VersionMajor2 == 9)
{
loader.ReadUInt16(); //padding
}
BindIndices = loader.LoadCustom(() => loader.ReadUInt16s(materialCount), BindIndicesOffset);
var textureList = loader.LoadCustom(() => loader.LoadStrings(TextureCount), TextureNameArrayOffset);
TextureBindArray = loader.LoadCustom(() => loader.ReadInt64s(TextureCount), TextureBindArrayOffset);
if (textureList == null)
{
textureList = new List <string>();
}
foreach (var tex in textureList)
{
TextureNames.Add(tex, new TextureRef()
{
Name = tex
});
}
}
else if (signature == "FSHU")
{
if (loader.ResFile.Version >= 0x02040000)
{
Name = loader.LoadString();
Path = loader.LoadString();
Flags = (MaterialAnimFlags)loader.ReadUInt32();
if (loader.ResFile.Version >= 0x03040000)
{
FrameCount = loader.ReadInt32();
materialCount = loader.ReadUInt16();
ushort numUserData = loader.ReadUInt16();
int numParamAnim = loader.ReadInt32();
int numCurve = loader.ReadInt32();
BakedSize = loader.ReadUInt32();
}
else
{
FrameCount = loader.ReadUInt16();
materialCount = loader.ReadUInt16();
UnknownValue = loader.ReadUInt32();
int numCurve = loader.ReadInt32();
BakedSize = loader.ReadUInt32();
int padding2 = loader.ReadInt32();
}
BindModel = loader.Load <Model>();
BindIndices = loader.LoadCustom(() => loader.ReadUInt16s(materialCount));
materialAnimOffset = loader.ReadOffset();
UserData = loader.LoadDict <UserData>();
}
else
{
Flags = (MaterialAnimFlags)loader.ReadUInt32();
FrameCount = loader.ReadInt16();
materialCount = loader.ReadUInt16();
ushort numUserData = loader.ReadUInt16();
ushort unk = loader.ReadUInt16();
BakedSize = loader.ReadUInt32();
Name = loader.LoadString();
Path = loader.LoadString();
BindModel = loader.Load <Model>();
BindIndices = loader.LoadCustom(() => loader.ReadUInt16s(materialCount));
materialAnimOffset = loader.ReadOffset();
}
}
else if (signature == "FTXP")
{
Name = loader.LoadString();
Path = loader.LoadString();
Flags = loader.ReadEnum <MaterialAnimFlags>(true);
ushort numTextureRef = 0;
if (loader.ResFile.Version >= 0x03040000)
{
ushort numUserData = loader.ReadUInt16();
FrameCount = loader.ReadInt32();
numTextureRef = loader.ReadUInt16();
materialCount = loader.ReadUInt16();
int numPatAnim = loader.ReadInt32();
int numCurve = loader.ReadInt32();
BakedSize = loader.ReadUInt32();
}
else
{
FrameCount = loader.ReadUInt16();
numTextureRef = loader.ReadUInt16();
materialCount = loader.ReadUInt16();
ushort numUserData = loader.ReadUInt16();
int numPatAnim = loader.ReadInt16();
int numCurve = loader.ReadInt32();
BakedSize = loader.ReadUInt32();
loader.Seek(4); //padding
}
BindModel = loader.Load <Model>();
BindIndices = loader.LoadCustom(() => loader.ReadUInt16s(materialCount));
materialAnimOffset = loader.ReadOffset();
if (loader.ResFile.Version >= 0x03040000)
{
TextureNames = loader.LoadDict <TextureRef>();
}
else
{
int TextureCount = 0;
foreach (var patternAnim in MaterialAnimDataList)
{
foreach (var curve in patternAnim.Curves)
{
List <uint> frames = new List <uint>();
foreach (float key in curve.Keys)
{
frames.Add((uint)key);
}
TextureCount = (short)frames.Max();
}
}
var TextureRefNames = loader.LoadList <TextureRef>(numTextureRef);
foreach (var texRef in TextureRefNames)
{
TextureNames.Add(texRef.Name, texRef);
}
}
UserData = loader.LoadDict <UserData>();
}
//Load materials and parse based on the signature of the section
MaterialAnimDataList = loader.LoadCustom(() =>
{
List <MaterialAnimData> materialAnims = new List <MaterialAnimData>();
for (int i = 0; i < materialCount; i++)
{
materialAnims.Add(new MaterialAnimData(loader, signature));
}
return(materialAnims);
}, materialAnimOffset);
}
// ---- METHODS ------------------------------------------------------------------------------------------------
void IResData.Load(ResFileLoader loader)
{
loader.CheckSignature(_signature);
Name = loader.LoadString();
Path = loader.LoadString();
Flags = loader.ReadEnum <TexPatternAnimFlags>(true);
ushort numMatAnim = 0;
ushort numTextureRef = 0;
if (loader.ResFile.Version >= 0x03040000)
{
ushort numUserData = loader.ReadUInt16();
FrameCount = loader.ReadInt32();
numTextureRef = loader.ReadUInt16();
numMatAnim = loader.ReadUInt16();
int numPatAnim = loader.ReadInt32();
int numCurve = loader.ReadInt32();
BakedSize = loader.ReadUInt32();
}
else
{
FrameCount = loader.ReadUInt16();
numTextureRef = loader.ReadUInt16();
numMatAnim = loader.ReadUInt16();
ushort numUserData = loader.ReadUInt16();
// loader.Seek(2); //padding
int numPatAnim = loader.ReadInt16();
int numCurve = loader.ReadInt32();
BakedSize = loader.ReadUInt32();
loader.Seek(4); //padding
}
BindModel = loader.Load <Model>();
BindIndices = loader.LoadCustom(() => loader.ReadUInt16s(numMatAnim));
TexPatternMatAnims = loader.LoadList <TexPatternMatAnim>(numMatAnim);
if (loader.ResFile.Version >= 0x03040000)
{
TextureRefs = loader.LoadDict <TextureRef>();
}
else
{
int TextureCount = 0;
foreach (var patternAnim in TexPatternMatAnims)
{
foreach (var curve in patternAnim.Curves)
{
List <uint> frames = new List <uint>();
foreach (float key in curve.Keys)
{
// Console.WriteLine((uint)key);
frames.Add((uint)key);
}
TextureCount = (short)frames.Max();
/*
* for (int i = 0; i < (ushort)curve.Frames.Length; i++)
* {
* if (curve.Scale != 0)
* {
* int test = (int)curve.Keys[i, 0];
* float key = curve.Offset + test * curve.Scale;
* frames.Add((int)key);
* }
* else
* {
* float test = curve.Keys[i, 0];
* int key = curve.Offset + (int)test;
* frames.Add((int)key);
*
* int testCeiling = (int)Math.Ceiling(test);
* int testFloor = (int)Math.Floor(test);
* int testRound = (int)Math.Round(test);
*
* Console.WriteLine("convert int = {0}", (Decimal10x5)test);
* }
* }*/
}
}
Console.WriteLine(Name + " Tex Total " + (TextureCount + 1));
TextureRefNames = loader.LoadList <TextureRef>(numTextureRef);
}
UserData = loader.LoadDict <UserData>();
}
// ---- METHODS ------------------------------------------------------------------------------------------------
void IResData.Load(ResFileLoader loader)
{
_flags = loader.ReadUInt16();
ushort numKey = loader.ReadUInt16();
AnimDataOffset = loader.ReadUInt32();
StartFrame = loader.ReadSingle();
EndFrame = loader.ReadSingle();
Scale = loader.ReadSingle();
Offset = loader.ReadSingle();
if (loader.ResFile.Version >= 0x03040000)
{
Delta = loader.ReadSingle();
}
Frames = loader.LoadCustom(() =>
{
switch (FrameType)
{
case AnimCurveFrameType.Single:
if (CurveType == AnimCurveType.StepInt)
{
float[] dec10x5Frame = new float[numKey];
for (int i = 0; i < numKey; i++)
{
dec10x5Frame[i] = loader.ReadUInt32();
}
return(dec10x5Frame);
}
else
{
return(loader.ReadSingles(numKey));
}
case AnimCurveFrameType.Decimal10x5:
float[] dec10x5Frames = new float[numKey];
for (int i = 0; i < numKey; i++)
{
dec10x5Frames[i] = (float)loader.ReadDecimal10x5();
}
return(dec10x5Frames);
case AnimCurveFrameType.Byte:
float[] byteFrames = new float[numKey];
for (int i = 0; i < numKey; i++)
{
byteFrames[i] = loader.ReadByte();
}
return(byteFrames);
default:
throw new ResException($"Invalid {nameof(FrameType)}.");
}
});
//Bools use bits to store values.
if (CurveType == AnimCurveType.StepBool)
{
int KeyBool = 0;
if (KeyType == AnimCurveKeyType.Single) //Read them as a int instead of a float
{
KeyBool = loader.LoadCustom(() => loader.ReadInt32());
}
else if (KeyType == AnimCurveKeyType.Int16)
{
KeyBool = loader.LoadCustom(() => loader.ReadInt16());
}
else if (KeyType == AnimCurveKeyType.SByte)
{
KeyBool = loader.LoadCustom(() => loader.ReadSByte());
}
KeyStepBoolData = new bool[numKey];
for (int i = 0; i < numKey; i++)
{
bool set = (KeyBool & 0x1) != 0;
KeyBool >>= 1;
KeyStepBoolData[i] = set;
}
}
else
{
Keys = loader.LoadCustom(() =>
{
int elementsPerKey = ElementsPerKey;
float[,] keys = new float[numKey, elementsPerKey];
switch (KeyType)
{
case AnimCurveKeyType.Single:
for (int i = 0; i < numKey; i++)
{
for (int j = 0; j < elementsPerKey; j++)
{
if (CurveType == AnimCurveType.StepInt)
{
keys[i, j] = loader.ReadUInt32();
}
else
{
keys[i, j] = loader.ReadSingle();
}
}
}
break;
case AnimCurveKeyType.Int16:
for (int i = 0; i < numKey; i++)
{
for (int j = 0; j < elementsPerKey; j++)
{
keys[i, j] = loader.ReadInt16();
}
}
break;
case AnimCurveKeyType.SByte:
for (int i = 0; i < numKey; i++)
{
for (int j = 0; j < elementsPerKey; j++)
{
keys[i, j] = loader.ReadSByte();
}
}
break;
default:
throw new ResException($"Invalid {nameof(KeyType)}.");
}
return(keys);
});
}
}
void IResData.Load(ResFileLoader loader)
{
long FrameArrayOffset = 0;
long KeyArrayOffset = 0;
ushort numKey = 0;
if (loader.IsSwitch)
{
FrameArrayOffset = loader.ReadOffset();
KeyArrayOffset = loader.ReadOffset();
_flags = loader.ReadUInt16();
numKey = loader.ReadUInt16();
AnimDataOffset = loader.ReadUInt32();
StartFrame = loader.ReadSingle();
EndFrame = loader.ReadSingle();
Scale = loader.ReadSingle();
Offset = loader.ReadSingle();
Delta = loader.ReadSingle();
int padding = loader.ReadInt32();
}
else
{
_flags = loader.ReadUInt16();
numKey = loader.ReadUInt16();
AnimDataOffset = loader.ReadUInt32();
StartFrame = loader.ReadSingle();
EndFrame = loader.ReadSingle();
Scale = loader.ReadSingle();
Offset = loader.ReadSingle();
if (loader.ResFile.Version >= 0x03040000)
{
Delta = loader.ReadSingle();
}
FrameArrayOffset = loader.ReadOffset();
KeyArrayOffset = loader.ReadOffset();
}
Frames = loader.LoadCustom(() =>
{
switch (FrameType)
{
case AnimCurveFrameType.Single:
return(loader.ReadSingles(numKey));
case AnimCurveFrameType.Decimal10x5:
float[] dec10x5Frames = new float[numKey];
for (int i = 0; i < numKey; i++)
{
dec10x5Frames[i] = (float)loader.ReadDecimal10x5();
}
return(dec10x5Frames);
case AnimCurveFrameType.Byte:
float[] byteFrames = new float[numKey];
for (int i = 0; i < numKey; i++)
{
byteFrames[i] = loader.ReadByte();
}
return(byteFrames);
default:
throw new ResException($"Invalid {nameof(FrameType)}.");
}
}, (uint)FrameArrayOffset);
Keys = loader.LoadCustom(() =>
{
int elementsPerKey = ElementsPerKey;
float[,] keys = new float[numKey, elementsPerKey];
switch (KeyType)
{
case AnimCurveKeyType.Single:
for (int i = 0; i < numKey; i++)
{
for (int j = 0; j < elementsPerKey; j++)
{
if (CurveType == AnimCurveType.StepInt || CurveType == AnimCurveType.StepBool)
{
keys[i, j] = loader.ReadUInt32();
}
else
{
keys[i, j] = loader.ReadSingle();
}
}
}
break;
case AnimCurveKeyType.Int16:
for (int i = 0; i < numKey; i++)
{
for (int j = 0; j < elementsPerKey; j++)
{
keys[i, j] = loader.ReadInt16();
}
}
break;
case AnimCurveKeyType.SByte:
for (int i = 0; i < numKey; i++)
{
for (int j = 0; j < elementsPerKey; j++)
{
keys[i, j] = loader.ReadSByte();
}
}
break;
default:
throw new ResException($"Invalid {nameof(KeyType)}.");
}
return(keys);
}, (uint)KeyArrayOffset);
//Bools use bits to store values.
if (CurveType == AnimCurveType.StepBool)
{
int keyIndex = 0;
KeyStepBoolData = new bool[numKey];
for (int i = 0; i < Keys.Length; i++)
{
if (numKey <= keyIndex)
{
break;
}
int value = (int)Keys[i, 0];
//Bit shift each key value
for (int j = 0; j < 32; j++)
{
if (numKey <= keyIndex)
{
break;
}
bool set = (value & 0x1) != 0;
value >>= 1;
KeyStepBoolData[keyIndex] = set;
keyIndex++;
}
}
}
}
