sm64coopdx/data/dynos_bin_movtex.cpp

199 lines
7.9 KiB
C++

#include "dynos.cpp.h"
extern "C" {
#include "include/moving_texture_macros.h"
}
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wnarrowing"
/////////////
// Parsing //
/////////////
#define MOVTEX_SIZE_PER_TOKEN 4
#define movtex_constant(x) if (_Arg == #x) { return (s64) (x); }
static s64 ParseMovtexSymbolArg(GfxData* aGfxData, DataNode<Movtex>* aNode, u64& aTokenIndex) {
const String& _Arg = aNode->mTokens[aTokenIndex++];
// texture constants
movtex_constant(TEXTURE_WATER);
movtex_constant(TEXTURE_MIST);
movtex_constant(TEXTURE_JRB_WATER);
movtex_constant(TEXTURE_UNK_WATER);
movtex_constant(TEXTURE_LAVA);
movtex_constant(TEX_QUICKSAND_SSL);
movtex_constant(TEX_PYRAMID_SAND_SSL);
movtex_constant(TEX_YELLOW_TRI_TTC);
movtex_constant(ROTATE_CLOCKWISE);
movtex_constant(ROTATE_COUNTER_CLOCKWISE);
// Other constants
movtex_constant(NULL);
// Integers
s32 x;
if ((_Arg[1] == 'x' && sscanf(_Arg.begin(), "%x", &x) == 1) || (sscanf(_Arg.begin(), "%d", &x) == 1)) {
return (s64) x;
}
// Unknown
PrintError(" ERROR: Unknown movtex arg: %s", _Arg.begin());
return 0;
}
#define movtex_symbol_0(symb) \
if (_Symbol == #symb) { \
Movtex _Mt[] = { symb() }; \
memcpy(aHead, _Mt, sizeof(_Mt)); \
aHead += (sizeof(_Mt) / sizeof(_Mt[0])); \
return; \
}
#define movtex_symbol_1(symb) \
if (_Symbol == #symb) { \
s64 _Arg0 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
Movtex _Mt[] = { symb(_Arg0) }; \
memcpy(aHead, _Mt, sizeof(_Mt)); \
aHead += (sizeof(_Mt) / sizeof(_Mt[0])); \
return; \
}
#define movtex_symbol_2(symb) \
if (_Symbol == #symb) { \
s64 _Arg0 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg1 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
Movtex _Mt[] = { symb(_Arg0, _Arg1) }; \
memcpy(aHead, _Mt, sizeof(_Mt)); \
aHead += (sizeof(_Mt) / sizeof(_Mt[0])); \
return; \
}
#define movtex_symbol_5(symb) \
if (_Symbol == #symb) { \
s64 _Arg0 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg1 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg2 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg3 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg4 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
Movtex _Mt[] = { symb(_Arg0, _Arg1, _Arg2, _Arg3, _Arg4) }; \
memcpy(aHead, _Mt, sizeof(_Mt)); \
aHead += (sizeof(_Mt) / sizeof(_Mt[0])); \
return; \
}
#define movtex_symbol_6(symb) \
if (_Symbol == #symb) { \
s64 _Arg0 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg1 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg2 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg3 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg4 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg5 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
Movtex _Mt[] = { symb(_Arg0, _Arg1, _Arg2, _Arg3, _Arg4, \
_Arg5) }; \
memcpy(aHead, _Mt, sizeof(_Mt)); \
aHead += (sizeof(_Mt) / sizeof(_Mt[0])); \
return; \
}
#define movtex_symbol_8(symb) \
if (_Symbol == #symb) { \
s64 _Arg0 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg1 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg2 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg3 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg4 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg5 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg6 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
s64 _Arg7 = ParseMovtexSymbolArg(aGfxData, aNode, aTokenIndex); \
Movtex _Mt[] = { symb(_Arg0, _Arg1, _Arg2, _Arg3, _Arg4, \
_Arg5, _Arg6, _Arg7) }; \
memcpy(aHead, _Mt, sizeof(_Mt)); \
aHead += (sizeof(_Mt) / sizeof(_Mt[0])); \
return; \
}
static void ParseMovtexSymbol(GfxData* aGfxData, DataNode<Movtex>* aNode, Movtex*& aHead, u64& aTokenIndex, Array<u64>& aSwitchNodes) {
const String& _Symbol = aNode->mTokens[aTokenIndex++];
movtex_symbol_1(MOV_TEX_INIT_LOAD);
movtex_symbol_2(MOV_TEX_4_BOX_TRIS);
movtex_symbol_1(MOV_TEX_DEFINE);
movtex_symbol_1(MOV_TEX_SPD);
movtex_symbol_1(MOV_TEX_ROT_SPEED);
movtex_symbol_1(MOV_TEX_ROT_SCALE);
movtex_symbol_1(MOV_TEX_ROT);
movtex_symbol_1(MOV_TEX_ALPHA);
movtex_symbol_5(MOV_TEX_TRIS);
movtex_symbol_8(MOV_TEX_ROT_TRIS);
movtex_symbol_6(MOV_TEX_LIGHT_TRIS);
movtex_symbol_0(MOV_TEX_END);
movtex_symbol_0(MOV_TEX_ROT_END);
// Unknown
PrintError(" ERROR: Unknown movtex symbol: %s", _Symbol.begin());
}
DataNode<Movtex>* DynOS_Movtex_Parse(GfxData* aGfxData, DataNode<Movtex>* aNode, bool aDisplayPercent) {
if (aNode->mData) return aNode;
// Movtex data
aNode->mData = New<Movtex>(aNode->mTokens.Count() * MOVTEX_SIZE_PER_TOKEN);
Movtex* _Head = aNode->mData;
Array<u64> _SwitchNodes;
for (u64 _TokenIndex = 0; _TokenIndex < aNode->mTokens.Count();) { // Don't increment _TokenIndex here!
ParseMovtexSymbol(aGfxData, aNode, _Head, _TokenIndex, _SwitchNodes);
if (aDisplayPercent && aGfxData->mErrorCount == 0) { PrintNoNewLine("%3d%%\b\b\b\b", (s32) (_TokenIndex * 100) / aNode->mTokens.Count()); }
}
if (aDisplayPercent && aGfxData->mErrorCount == 0) { Print("100%%"); }
aNode->mSize = (u32)(_Head - aNode->mData);
aNode->mLoadIndex = aGfxData->mLoadIndex++;
return aNode;
}
#pragma GCC diagnostic pop
/////////////
// Writing //
/////////////
void DynOS_Movtex_Write(FILE* aFile, GfxData* aGfxData, DataNode<Movtex> *aNode) {
if (!aNode->mData) return;
// Name
WriteBytes<u8>(aFile, DATA_TYPE_MOVTEX);
aNode->mName.Write(aFile);
// Data
WriteBytes<u32>(aFile, aNode->mSize);
for (u32 i = 0; i != aNode->mSize; ++i) {
WriteBytes<Movtex>(aFile, aNode->mData[i]);
}
}
/////////////
// Reading //
/////////////
DataNode<Movtex>* DynOS_Movtex_Load(FILE *aFile, GfxData *aGfxData) {
DataNode<Movtex> *_Node = New<DataNode<Movtex>>();
// Name
_Node->mName.Read(aFile);
// Data
_Node->mSize = ReadBytes<u32>(aFile);
_Node->mData = New<Movtex>(_Node->mSize);
for (u32 i = 0; i != _Node->mSize; ++i) {
_Node->mData[i] = ReadBytes<Movtex>(aFile);
}
// Add it
if (aGfxData != NULL) {
aGfxData->mMovtexs.Add(_Node);
}
return _Node;
}