365 lines
9.6 KiB
C++
365 lines
9.6 KiB
C++
#include "CMaterialCooker.h"
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#include <algorithm>
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CMaterialCooker::CMaterialCooker()
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{
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mpMat = nullptr;
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}
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void CMaterialCooker::WriteMatSetPrime(COutputStream& Out)
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{
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// Gather texture list from the materials before starting
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mTextureIDs.clear();
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u32 NumMats = mpSet->mMaterials.size();
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for (u32 iMat = 0; iMat < NumMats; iMat++)
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{
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CMaterial *pMat = mpSet->mMaterials[iMat];
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u32 NumPasses = pMat->PassCount();
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for (u32 iPass = 0; iPass < NumPasses; iPass++)
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{
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CTexture *pTex = pMat->Pass(iPass)->Texture();
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if (pTex)
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mTextureIDs.push_back(pTex->ResID().ToLong());
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}
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}
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// Sort/remove duplicates
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std::sort(mTextureIDs.begin(), mTextureIDs.end());
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mTextureIDs.erase(std::unique(mTextureIDs.begin(), mTextureIDs.end()), mTextureIDs.end());
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// Write texture IDs
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Out.WriteLong(mTextureIDs.size());
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for (u32 iTex = 0; iTex < mTextureIDs.size(); iTex++)
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Out.WriteLong(mTextureIDs[iTex]);
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// Write material offset filler
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Out.WriteLong(NumMats);
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u32 MatOffsetsStart = Out.Tell();
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for (u32 iMat = 0; iMat < NumMats; iMat++)
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Out.WriteLong(0);
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// Write materials
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u32 MatsStart = Out.Tell();
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std::vector<u32> MatEndOffsets(NumMats);
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for (u32 iMat = 0; iMat < NumMats; iMat++)
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{
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mpMat = mpSet->mMaterials[iMat];
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WriteMaterialPrime(Out);
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MatEndOffsets[iMat] = Out.Tell() - MatsStart;
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}
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// Write material offsets
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u32 MatsEnd = Out.Tell();
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Out.Seek(MatOffsetsStart, SEEK_SET);
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for (u32 iMat = 0; iMat < NumMats; iMat++)
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Out.WriteLong(MatEndOffsets[iMat]);
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// Done!
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Out.Seek(MatsEnd, SEEK_SET);
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}
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void CMaterialCooker::WriteMatSetCorruption(COutputStream&)
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{
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// Not using parameter 1 (COutputStream& - Out)
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// todo
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}
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void CMaterialCooker::WriteMaterialPrime(COutputStream& Out)
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{
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// Gather data from the passes before we start writing
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u32 TexFlags = 0;
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u32 NumKonst = 0;
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std::vector<u32> TexIndices;
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for (u32 iPass = 0; iPass < mpMat->mPasses.size(); iPass++)
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{
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CMaterialPass *pPass = mpMat->Pass(iPass);
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if ((pPass->KColorSel() >= 0xC) || (pPass->KAlphaSel() >= 0x10))
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{
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// Determine the highest Konst index being used
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u32 KColorIndex = pPass->KColorSel() % 4;
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u32 KAlphaIndex = pPass->KAlphaSel() % 4;
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if (KColorIndex >= NumKonst)
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NumKonst = KColorIndex + 1;
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if (KAlphaIndex >= NumKonst)
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NumKonst = KAlphaIndex + 1;
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}
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CTexture *pPassTex = pPass->Texture();
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if (pPassTex != nullptr)
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{
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TexFlags |= (1 << iPass);
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u32 TexID = pPassTex->ResID().ToLong();
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for (u32 iTex = 0; iTex < mTextureIDs.size(); iTex++)
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{
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if (mTextureIDs[iTex] == TexID)
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{
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TexIndices.push_back(iTex);
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break;
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}
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}
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}
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}
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// Get group index
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u32 GroupIndex;
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u64 MatHash = mpMat->HashParameters();
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bool NewHash = true;
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for (u32 iHash = 0; iHash < mMaterialHashes.size(); iHash++)
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{
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if (mMaterialHashes[iHash] == MatHash)
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{
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GroupIndex = iHash;
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NewHash = false;
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break;
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}
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}
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if (NewHash)
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{
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GroupIndex = mMaterialHashes.size();
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mMaterialHashes.push_back(MatHash);
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}
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// Start writing!
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// Generate flags value
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bool HasKonst = (NumKonst > 0);
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u32 Flags;
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if (mVersion <= ePrime)
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Flags = 0x1003;
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else
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Flags = 0x4002;
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Flags |= (HasKonst << 3) | mpMat->Options() | (TexFlags << 16);
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Out.WriteLong(Flags);
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// Texture indices
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Out.WriteLong(TexIndices.size());
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for (u32 iTex = 0; iTex < TexIndices.size(); iTex++)
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Out.WriteLong(TexIndices[iTex]);
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// Vertex description
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EVertexDescription Desc = mpMat->VtxDesc();
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if (mVersion < eEchoes)
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Desc = (EVertexDescription) (Desc & 0x00FFFFFF);
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Out.WriteLong(Desc);
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// Echoes unknowns
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if (mVersion == eEchoes)
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{
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Out.WriteLong(mpMat->EchoesUnknownA());
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Out.WriteLong(mpMat->EchoesUnknownB());
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}
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// Group index
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Out.WriteLong(GroupIndex);
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// Konst
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if (HasKonst)
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{
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Out.WriteLong(NumKonst);
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for (u32 iKonst = 0; iKonst < NumKonst; iKonst++)
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Out.WriteLong( mpMat->Konst(iKonst).AsLongRGBA() );
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}
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// Blend Mode
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// Some modifications are done to convert the GLenum to the corresponding GX enum
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u16 BlendSrcFac = (u16) mpMat->BlendSrcFac();
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u16 BlendDstFac = (u16) mpMat->BlendDstFac();
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if (BlendSrcFac >= 0x300) BlendSrcFac -= 0x2FE;
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if (BlendDstFac >= 0x300) BlendDstFac -= 0x2FE;
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Out.WriteShort(BlendDstFac);
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Out.WriteShort(BlendSrcFac);
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// Color Channels
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Out.WriteLong(1);
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Out.WriteLong(0x3000 | mpMat->IsLightingEnabled());
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// TEV
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u32 NumPasses = mpMat->PassCount();
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Out.WriteLong(NumPasses);
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for (u32 iPass = 0; iPass < NumPasses; iPass++)
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{
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CMaterialPass *pPass = mpMat->Pass(iPass);
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u32 ColorInputFlags = ((pPass->ColorInput(0)) |
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(pPass->ColorInput(1) << 5) |
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(pPass->ColorInput(2) << 10) |
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(pPass->ColorInput(3) << 15));
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u32 AlphaInputFlags = ((pPass->AlphaInput(0)) |
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(pPass->AlphaInput(1) << 5) |
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(pPass->AlphaInput(2) << 10) |
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(pPass->AlphaInput(3) << 15));
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u32 ColorOpFlags = 0x100 | (pPass->ColorOutput() << 9);
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u32 AlphaOpFlags = 0x100 | (pPass->AlphaOutput() << 9);
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Out.WriteLong(ColorInputFlags);
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Out.WriteLong(AlphaInputFlags);
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Out.WriteLong(ColorOpFlags);
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Out.WriteLong(AlphaOpFlags);
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Out.WriteByte(0); // Padding
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Out.WriteByte(pPass->KAlphaSel());
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Out.WriteByte(pPass->KColorSel());
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Out.WriteByte(pPass->RasSel());
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}
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// TEV Tex/UV input selection
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u32 CurTexIdx = 0;
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for (u32 iPass = 0; iPass < NumPasses; iPass++)
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{
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Out.WriteShort(0); // Padding
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if (mpMat->Pass(iPass)->Texture())
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{
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Out.WriteByte((u8) CurTexIdx);
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Out.WriteByte((u8) CurTexIdx);
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CurTexIdx++;
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}
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else
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Out.WriteShort(0xFFFF);
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}
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// TexGen
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u32 NumTexCoords = CurTexIdx; // TexIdx is currently equal to the tex coord count
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Out.WriteLong(NumTexCoords);
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u32 CurTexMtx = 0;
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for (u32 iPass = 0; iPass < NumPasses; iPass++)
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{
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CMaterialPass *pPass = mpMat->Pass(iPass);
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if (pPass->Texture() == nullptr) continue;
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u32 AnimType = pPass->AnimMode();
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u32 CoordSource = pPass->TexCoordSource();
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u32 TexMtxIdx, PostMtxIdx;
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bool Normalize;
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// No animation - set TexMtx and PostMtx to identity, disable normalization
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if (AnimType == eNoUVAnim)
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{
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TexMtxIdx = 30;
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PostMtxIdx = 61;
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Normalize = false;
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}
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// Animation - set parameters as the animation mode needs them
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else
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{
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TexMtxIdx = CurTexMtx;
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if ((AnimType < 2) || (AnimType > 5))
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{
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PostMtxIdx = CurTexMtx;
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Normalize = true;
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}
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else
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{
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PostMtxIdx = 61;
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Normalize = false;
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}
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CurTexMtx += 3;
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}
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u32 TexGenFlags = (CoordSource << 4) | (TexMtxIdx << 9) | (Normalize << 14) | (PostMtxIdx << 15);
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Out.WriteLong(TexGenFlags);
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}
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// Animations
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u32 AnimSizeOffset = Out.Tell();
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u32 NumAnims = CurTexMtx; // CurTexMtx is currently equal to the anim count
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Out.WriteLong(0); // Anim size filler
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u32 AnimsStart = Out.Tell();
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Out.WriteLong(NumAnims);
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for (u32 iPass = 0; iPass < NumPasses; iPass++)
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{
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CMaterialPass *pPass = mpMat->Pass(iPass);
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u32 AnimMode = pPass->AnimMode();
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if (AnimMode == eNoUVAnim) continue;
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Out.WriteLong(AnimMode);
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if ((AnimMode > 1) && (AnimMode != 6))
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{
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Out.WriteFloat(pPass->AnimParam(0));
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Out.WriteFloat(pPass->AnimParam(1));
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if ((AnimMode == 2) || (AnimMode == 4) || (AnimMode == 5))
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{
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Out.WriteFloat(pPass->AnimParam(2));
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Out.WriteFloat(pPass->AnimParam(3));
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}
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}
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}
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u32 AnimsEnd = Out.Tell();
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u32 AnimsSize = AnimsEnd - AnimsStart;
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Out.Seek(AnimSizeOffset, SEEK_SET);
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Out.WriteLong(AnimsSize);
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Out.Seek(AnimsEnd, SEEK_SET);
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// Done!
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}
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void CMaterialCooker::WriteMaterialCorruption(COutputStream&)
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{
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// Not using parameter 1 (COutputStream& - Out)
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// todo
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}
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// ************ STATIC ************
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void CMaterialCooker::WriteCookedMatSet(CMaterialSet *pSet, EGame Version, COutputStream &Out)
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{
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CMaterialCooker Cooker;
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Cooker.mpSet = pSet;
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Cooker.mVersion = Version;
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switch (Version)
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{
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case ePrimeDemo:
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case ePrime:
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case eEchoesDemo:
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case eEchoes:
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Cooker.WriteMatSetPrime(Out);
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break;
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}
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}
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void CMaterialCooker::WriteCookedMaterial(CMaterial *pMat, EGame Version, COutputStream &Out)
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{
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CMaterialCooker Cooker;
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Cooker.mpMat = pMat;
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Cooker.mVersion = Version;
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switch (Version)
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{
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case ePrimeDemo:
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case ePrime:
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case eEchoesDemo:
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case eEchoes:
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Cooker.WriteMaterialPrime(Out);
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break;
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// TODO: Corruption/Uncooked
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}
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}
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