sm64ex-coop/data/dynos_gfx_write.cpp

319 lines
8.7 KiB
C++

#include "dynos.cpp.h"
//
// Pointers
//
typedef Pair<String, u32> PointerData;
static PointerData GetDataFromPointer(const void* aPtr, GfxData* aGfxData) {
// Lights
for (auto& _Node : aGfxData->mLights) {
if (&_Node->mData->l[0] == aPtr) { // Light *, not Lights1 *
return { _Node->mName, 1 };
}
if (&_Node->mData->a == aPtr) { // Ambient *, not Lights1 *
return { _Node->mName, 2 };
}
}
// Textures
for (auto& _Node : aGfxData->mTextures) {
if (_Node == aPtr) {
return { _Node->mName, 0 };
}
}
// Display lists
for (auto& _Node : aGfxData->mDisplayLists) {
if (_Node == aPtr) {
return { _Node->mName, 0 };
}
}
// Geo layouts
for (auto& _Node : aGfxData->mGeoLayouts) {
if (_Node->mData == aPtr) {
return { _Node->mName, 0 };
}
}
// Vertices
String _VtxArrayName = "";
uintptr_t _VtxArrayStart = 0;
for (auto& _Node : aGfxData->mVertices) {
if (_Node->mData == aPtr) {
return { _Node->mName, 0 };
}
if ((uintptr_t)_Node->mData <= (uintptr_t)aPtr &&
(uintptr_t)_Node->mData >= _VtxArrayStart) {
_VtxArrayName = _Node->mName;
_VtxArrayStart = (uintptr_t)_Node->mData;
}
}
return { _VtxArrayName, (u32)((const Vtx*)aPtr - (const Vtx*)_VtxArrayStart) };
}
static void WritePointer(FILE* aFile, const void* aPtr, GfxData* aGfxData) {
// NULL
if (!aPtr) {
WriteBytes<u32>(aFile, 0);
return;
}
// Geo function
s32 _GeoFunctionIndex = DynOS_Geo_GetFunctionIndex(aPtr);
if (_GeoFunctionIndex != -1) {
WriteBytes<u32>(aFile, FUNCTION_CODE);
WriteBytes<s32>(aFile, _GeoFunctionIndex);
return;
}
// Pointer
PointerData _PtrData = GetDataFromPointer(aPtr, aGfxData);
WriteBytes<u32>(aFile, POINTER_CODE);
_PtrData.first.Write(aFile);
WriteBytes<u32>(aFile, _PtrData.second);
}
//
// Lights
//
static void WriteLightData(FILE* aFile, GfxData* aGfxData, DataNode<Lights1> *aNode) {
if (!aNode->mData) return;
// Header
WriteBytes<u8>(aFile, DATA_TYPE_LIGHT);
aNode->mName.Write(aFile);
// Data
WriteBytes<Lights1>(aFile, *aNode->mData);
}
//
// Textures
//
static void WriteTextureData(FILE* aFile, GfxData* aGfxData, DataNode<TexData> *aNode) {
if (!aNode->mData) return;
// Header
WriteBytes<u8>(aFile, DATA_TYPE_TEXTURE);
aNode->mName.Write(aFile);
// Data
aNode->mData->mPngData.Write(aFile);
}
//
// Vertices
//
static void WriteVertexData(FILE* aFile, GfxData* aGfxData, DataNode<Vtx> *aNode) {
if (!aNode->mData) return;
// Header
WriteBytes<u8>(aFile, DATA_TYPE_VERTEX);
aNode->mName.Write(aFile);
// Data
WriteBytes<u32>(aFile, aNode->mSize);
for (u32 i = 0; i != aNode->mSize; ++i) {
WriteBytes<s16>(aFile, aNode->mData[i].n.ob[0]);
WriteBytes<s16>(aFile, aNode->mData[i].n.ob[1]);
WriteBytes<s16>(aFile, aNode->mData[i].n.ob[2]);
WriteBytes<s16>(aFile, aNode->mData[i].n.flag);
WriteBytes<s16>(aFile, aNode->mData[i].n.tc[0]);
WriteBytes<s16>(aFile, aNode->mData[i].n.tc[1]);
WriteBytes<s8> (aFile, aNode->mData[i].n.n[0]);
WriteBytes<s8> (aFile, aNode->mData[i].n.n[1]);
WriteBytes<s8> (aFile, aNode->mData[i].n.n[2]);
WriteBytes<u8> (aFile, aNode->mData[i].n.a);
}
}
//
// Display lists
//
static void WriteDisplayListData(FILE *aFile, GfxData *aGfxData, DataNode<Gfx> *aNode) {
if (!aNode->mData) return;
// Header
WriteBytes<u8>(aFile, DATA_TYPE_DISPLAY_LIST);
aNode->mName.Write(aFile);
// Data
WriteBytes<u32>(aFile, aNode->mSize);
for (u32 i = 0; i != aNode->mSize; ++i) {
Gfx *_Head = &aNode->mData[i];
if (aGfxData->mPointerList.Find((void *) _Head) != -1) {
WriteBytes<u32>(aFile, _Head->words.w0);
WritePointer(aFile, (const void *) _Head->words.w1, aGfxData);
} else {
WriteBytes<u32>(aFile, _Head->words.w0);
WriteBytes<u32>(aFile, _Head->words.w1);
}
}
}
//
// Geo layouts
//
static void WriteGeoLayoutData(FILE *aFile, GfxData *aGfxData, DataNode<GeoLayout> *aNode) {
if (!aNode->mData) return;
// Header
WriteBytes<u8>(aFile, DATA_TYPE_GEO_LAYOUT);
aNode->mName.Write(aFile);
// Data
WriteBytes<u32>(aFile, aNode->mSize);
for (u32 i = 0; i != aNode->mSize; ++i) {
GeoLayout *_Head = &aNode->mData[i];
if (aGfxData->mPointerList.Find((void *) _Head) != -1) {
WritePointer(aFile, (const void *) (*_Head), aGfxData);
} else {
WriteBytes<u32>(aFile, *((u32 *) _Head));
}
}
}
//
// Animation data
//
static void WriteAnimationData(FILE* aFile, GfxData* aGfxData) {
for (auto& _Node : aGfxData->mAnimations) {
// Value buffer
s32 _ValueBufferIdx = aGfxData->mAnimValues.FindIf([&_Node](const AnimBuffer<s16> *aAnimBuffer) { return aAnimBuffer->first == _Node->mData->mValues.first; });
if (_ValueBufferIdx == -1) {
continue;
}
// Index buffer
s32 _IndexBufferIdx = aGfxData->mAnimIndices.FindIf([&_Node](const AnimBuffer<u16> *aAnimBuffer) { return aAnimBuffer->first == _Node->mData->mIndex.first; });
if (_IndexBufferIdx == -1) {
continue;
}
// Unk0A buffer
s32 _Unk0ABufferIdx = aGfxData->mAnimIndices.FindIf([&_Node](const AnimBuffer<u16> *aAnimBuffer) { return aAnimBuffer->first == _Node->mData->mUnk0A.first; });
if (_Unk0ABufferIdx == -1) {
continue;
}
// Header
WriteBytes<u8>(aFile, DATA_TYPE_ANIMATION);
_Node->mName.Write(aFile);
// Data
WriteBytes<s16>(aFile, _Node->mData->mFlags);
WriteBytes<s16>(aFile, _Node->mData->mUnk02);
WriteBytes<s16>(aFile, _Node->mData->mUnk04);
WriteBytes<s16>(aFile, _Node->mData->mUnk06);
WriteBytes<s16>(aFile, _Node->mData->mUnk08);
WriteBytes<s16>(aFile, (aGfxData->mAnimIndices[_Unk0ABufferIdx]->second.Count() / 6) - 1);
WriteBytes<u32>(aFile, _Node->mData->mLength);
aGfxData->mAnimValues[_ValueBufferIdx]->second.Write(aFile);
aGfxData->mAnimIndices[_IndexBufferIdx]->second.Write(aFile);
}
}
//
// Animation table
//
static void WriteAnimationTable(FILE* aFile, GfxData* aGfxData) {
for (auto& _AnimName : aGfxData->mAnimationTable) {
// Header
WriteBytes<u8>(aFile, DATA_TYPE_ANIMATION_TABLE);
// Data
_AnimName.first.Write(aFile);
}
}
//
// Write
//
bool DynOS_Gfx_WriteBinary(const SysPath &aOutputFilename, GfxData *aGfxData) {
FILE *_File = fopen(aOutputFilename.c_str(), "wb");
if (!_File) {
PrintError(" ERROR: Unable to create file \"%s\"", aOutputFilename.c_str());
return false;
}
for (u64 i = 0; i != aGfxData->mLoadIndex; ++i) {
for (auto &_Node : aGfxData->mLights) {
if (_Node->mLoadIndex == i) {
WriteLightData(_File, aGfxData, _Node);
}
}
for (auto &_Node : aGfxData->mTextures) {
if (_Node->mLoadIndex == i) {
WriteTextureData(_File, aGfxData, _Node);
}
}
for (auto &_Node : aGfxData->mVertices) {
if (_Node->mLoadIndex == i) {
WriteVertexData(_File, aGfxData, _Node);
}
}
for (auto &_Node : aGfxData->mDisplayLists) {
if (_Node->mLoadIndex == i) {
WriteDisplayListData(_File, aGfxData, _Node);
}
}
for (auto &_Node : aGfxData->mGeoLayouts) {
if (_Node->mLoadIndex == i) {
WriteGeoLayoutData(_File, aGfxData, _Node);
}
}
}
WriteAnimationData(_File, aGfxData);
WriteAnimationTable(_File, aGfxData);
fclose(_File);
return true;
}
//
// Free
//
void DynOS_Gfx_Free(GfxData* aGfxData) {
if (aGfxData) {
for (auto& _Node : aGfxData->mLights) {
Delete(_Node->mData);
Delete(_Node);
}
for (auto& _Node : aGfxData->mTextures) {
Delete(_Node->mData);
Delete(_Node);
}
for (auto& _Node : aGfxData->mVertices) {
Delete(_Node->mData);
Delete(_Node);
}
for (auto& _Node : aGfxData->mDisplayLists) {
Delete(_Node->mData);
Delete(_Node);
}
for (auto& _Node : aGfxData->mGeoLayouts) {
Delete(_Node->mData);
Delete(_Node);
}
for (auto& _Node : aGfxData->mAnimations) {
Delete(_Node->mData);
Delete(_Node);
}
Delete(aGfxData);
}
}