#include "DPSC.hpp" namespace DataSpec::DNAParticle { template <> const char* DPSM::DNAType() { return "DPSM"; } template <> const char* DPSM::DNAType() { return "DPSM"; } template void DPSM::_read(athena::io::YAMLDocReader& r) { for (const auto& elem : r.getCurNode()->m_mapChildren) { if (elem.first.size() < 4) { LogModule.report(logvisor::Warning, "short FourCC in element '%s'", elem.first.c_str()); continue; } if (auto rec = r.enterSubRecord(elem.first.c_str())) { bool loadFirstDesc = false; uint32_t clsId = *reinterpret_cast(elem.first.c_str()); switch (clsId) { case SBIG('1SZE'): case SBIG('1LFT'): case SBIG('1ROT'): case SBIG('1OFF'): case SBIG('1CLR'): case SBIG('1TEX'): case SBIG('1ADD'): loadFirstDesc = true; case SBIG('2SZE'): case SBIG('2LFT'): case SBIG('2ROT'): case SBIG('2OFF'): case SBIG('2CLR'): case SBIG('2TEX'): case SBIG('2ADD'): if (loadFirstDesc) readQuadDecalInfo(r, clsId, x0_quad); else readQuadDecalInfo(r, clsId, x1c_quad); break; case SBIG('DMDL'): x38_DMDL.read(r); break; case SBIG('DLFT'): x48_DLFT.read(r); break; case SBIG('DMOP'): x4c_DMOP.read(r); break; case SBIG('DMRT'): x50_DMRT.read(r); break; case SBIG('DMSC'): x54_DMSC.read(r); break; case SBIG('DMCL'): x58_DMCL.read(r); break; case SBIG('DMAB'): x5c_24_DMAB = r.readBool(nullptr); break; case SBIG('DMOO'): x5c_25_DMOO = r.readBool(nullptr); break; } } } } template void DPSM::_write(athena::io::YAMLDocWriter& w) const { writeQuadDecalInfo(w, x0_quad, true); writeQuadDecalInfo(w, x1c_quad, false); if (x38_DMDL) if (auto rec = w.enterSubRecord("DMDL")) x38_DMDL.write(w); if (x48_DLFT) if (auto rec = w.enterSubRecord("DLFT")) x48_DLFT.write(w); if (x4c_DMOP) if (auto rec = w.enterSubRecord("DMOP")) x4c_DMOP.write(w); if (x50_DMRT) if (auto rec = w.enterSubRecord("DMRT")) x50_DMRT.write(w); if (x54_DMSC) if (auto rec = w.enterSubRecord("DMSC")) x54_DMSC.write(w); if (x58_DMCL) if (auto rec = w.enterSubRecord("DMCL")) x54_DMSC.write(w); if (x5c_24_DMAB) w.writeBool("DMAB", x5c_24_DMAB); if (x5c_25_DMOO) w.writeBool("DMOO", x5c_25_DMOO); } template template void DPSM::readQuadDecalInfo(Reader& r, uint32_t clsId, typename DPSM::SQuadDescr& quad) { switch (clsId) { case SBIG('1LFT'): case SBIG('2LFT'): quad.x0_LFT.read(r); break; case SBIG('1SZE'): case SBIG('2SZE'): quad.x4_SZE.read(r); break; case SBIG('1ROT'): case SBIG('2ROT'): quad.x8_ROT.read(r); break; case SBIG('1OFF'): case SBIG('2OFF'): quad.xc_OFF.read(r); break; case SBIG('1CLR'): case SBIG('2CLR'): quad.x10_CLR.read(r); break; case SBIG('1TEX'): case SBIG('2TEX'): quad.x14_TEX.read(r); break; case SBIG('1ADD'): case SBIG('2ADD'): quad.x18_ADD.read(r); break; } } template void DPSM::writeQuadDecalInfo(athena::io::YAMLDocWriter& w, const typename DPSM::SQuadDescr& quad, bool first) const { if (quad.x0_LFT) if (auto rec = w.enterSubRecord((first ? "1LFT" : "2LFT"))) quad.x0_LFT.write(w); if (quad.x4_SZE) if (auto rec = w.enterSubRecord((first ? "1SZE" : "2SZE"))) quad.x4_SZE.write(w); if (quad.x8_ROT) if (auto rec = w.enterSubRecord((first ? "1ROT" : "2ROT"))) quad.x8_ROT.write(w); if (quad.xc_OFF) if (auto rec = w.enterSubRecord((first ? "1OFF" : "2OFF"))) quad.xc_OFF.write(w); if (quad.x10_CLR) if (auto rec = w.enterSubRecord((first ? "1CLR" : "2CLR"))) quad.x10_CLR.write(w); if (quad.x14_TEX) if (auto rec = w.enterSubRecord((first ? "1TEX" : "2TEX"))) quad.x14_TEX.write(w); if (quad.x18_ADD) if (auto rec = w.enterSubRecord((first ? "1ADD" : "2ADD"))) quad.x18_ADD.write(w); } template void DPSM::_binarySize(size_t& s) const { s += 4; getQuadDecalBinarySize(s, x0_quad); getQuadDecalBinarySize(s, x1c_quad); if (x38_DMDL) { s += 4; x38_DMDL.binarySize(s); } if (x48_DLFT) { s += 4; x48_DLFT.binarySize(s); } if (x4c_DMOP) { s += 4; x4c_DMOP.binarySize(s); } if (x50_DMRT) { s += 4; x50_DMRT.binarySize(s); } if (x54_DMSC) { s += 4; x54_DMSC.binarySize(s); } if (x58_DMCL) { x58_DMCL.binarySize(s); } if (x5c_24_DMAB) s += 9; if (x5c_25_DMOO) s += 9; } template void DPSM::getQuadDecalBinarySize(size_t& s, const typename DPSM::SQuadDescr& quad) const { if (quad.x0_LFT) { s += 4; quad.x0_LFT.binarySize(s); } if (quad.x4_SZE) { s += 4; quad.x4_SZE.binarySize(s); } if (quad.x8_ROT) { s += 4; quad.x8_ROT.binarySize(s); } if (quad.xc_OFF) { s += 4; quad.xc_OFF.binarySize(s); } if (quad.x10_CLR) { s += 4; quad.x10_CLR.binarySize(s); } if (quad.x14_TEX) { s += 4; quad.x14_TEX.binarySize(s); } if (quad.x18_ADD) { s += 4; quad.x18_ADD.binarySize(s); } } template void DPSM::_read(athena::io::IStreamReader& r) { uint32_t clsId; r.readBytesToBuf(&clsId, 4); if (clsId != SBIG('DPSM')) { LogModule.report(logvisor::Warning, "non DPSM provided to DPSM parser"); return; } bool loadFirstDesc = false; r.readBytesToBuf(&clsId, 4); while (clsId != SBIG('_END')) { switch (clsId) { case SBIG('1SZE'): case SBIG('1LFT'): case SBIG('1ROT'): case SBIG('1OFF'): case SBIG('1CLR'): case SBIG('1TEX'): case SBIG('1ADD'): loadFirstDesc = true; case SBIG('2SZE'): case SBIG('2LFT'): case SBIG('2ROT'): case SBIG('2OFF'): case SBIG('2CLR'): case SBIG('2TEX'): case SBIG('2ADD'): if (loadFirstDesc) readQuadDecalInfo(r, clsId, x0_quad); else readQuadDecalInfo(r, clsId, x1c_quad); break; case SBIG('DMDL'): x38_DMDL.read(r); break; case SBIG('DLFT'): x48_DLFT.read(r); break; case SBIG('DMOP'): x4c_DMOP.read(r); break; case SBIG('DMRT'): x50_DMRT.read(r); break; case SBIG('DMSC'): x54_DMSC.read(r); break; case SBIG('DMCL'): x58_DMCL.read(r); break; case SBIG('DMAB'): r.readUint32(); x5c_24_DMAB = r.readBool(); break; case SBIG('DMOO'): r.readUint32(); x5c_25_DMOO = r.readBool(); break; default: LogModule.report(logvisor::Fatal, "Unknown DPSM class %.4s @%" PRIi64, &clsId, r.position()); break; } r.readBytesToBuf(&clsId, 4); } } template void DPSM::_write(athena::io::IStreamWriter& w) const { w.writeBytes("DPSM", 4); writeQuadDecalInfo(w, x0_quad, true); writeQuadDecalInfo(w, x1c_quad, false); if (x38_DMDL) { w.writeBytes("DMDL", 4); x38_DMDL.write(w); } if (x48_DLFT) { w.writeBytes("DLFT", 4); x48_DLFT.write(w); } if (x4c_DMOP) { w.writeBytes("DMOP", 4); x4c_DMOP.write(w); } if (x50_DMRT) { w.writeBytes("DMRT", 4); x50_DMRT.write(w); } if (x54_DMSC) { w.writeBytes("DMSC", 4); x54_DMSC.write(w); } if (x58_DMCL) { w.writeBytes("DMCL", 4); x58_DMCL.write(w); } if (x5c_24_DMAB) w.writeBytes("DMABCNST\x01", 9); if (x5c_25_DMOO) w.writeBytes("DMOOCNST\x01", 9); w.writeBytes("_END", 4); } template void DPSM::writeQuadDecalInfo(athena::io::IStreamWriter& w, const typename DPSM::SQuadDescr& quad, bool first) const { if (quad.x0_LFT) { w.writeBytes((first ? "1LFT" : "2LFT"), 4); quad.x0_LFT.write(w); } if (quad.x4_SZE) { w.writeBytes((first ? "1SZE" : "2SZE"), 4); quad.x4_SZE.write(w); } if (quad.x8_ROT) { w.writeBytes((first ? "1ROT" : "2ROT"), 4); quad.x8_ROT.write(w); } if (quad.xc_OFF) { w.writeBytes((first ? "1OFF" : "2OFF"), 4); quad.xc_OFF.write(w); } if (quad.x10_CLR) { w.writeBytes((first ? "1CLR" : "2CLR"), 4); quad.x10_CLR.write(w); } if (quad.x14_TEX) { w.writeBytes((first ? "1TEX" : "2TEX"), 4); quad.x14_TEX.write(w); } if (quad.x18_ADD) { w.writeBytes((first ? "1ADD" : "2ADD"), 4); quad.x18_ADD.write(w); } } template void DPSM::gatherDependencies(std::vector& pathsOut) const { if (x0_quad.x14_TEX.m_elem) x0_quad.x14_TEX.m_elem->gatherDependencies(pathsOut); if (x1c_quad.x14_TEX.m_elem) x1c_quad.x14_TEX.m_elem->gatherDependencies(pathsOut); g_curSpec->flattenDependencies(x38_DMDL.id, pathsOut); } AT_SUBSPECIALIZE_DNA_YAML(DPSM) AT_SUBSPECIALIZE_DNA_YAML(DPSM) template struct DPSM; template struct DPSM; template bool ExtractDPSM(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath) { athena::io::FileWriter writer(outPath.getAbsolutePath()); if (writer.isOpen()) { DPSM dpsm; dpsm.read(rs); athena::io::ToYAMLStream(dpsm, writer); return true; } return false; } template bool ExtractDPSM(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath); template bool ExtractDPSM(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath); template bool WriteDPSM(const DPSM& dpsm, const hecl::ProjectPath& outPath) { athena::io::FileWriter w(outPath.getAbsolutePath(), true, false); if (w.hasError()) return false; dpsm.write(w); int64_t rem = w.position() % 32; if (rem) for (int64_t i = 0; i < 32 - rem; ++i) w.writeUByte(0xff); return true; } template bool WriteDPSM(const DPSM& dpsm, const hecl::ProjectPath& outPath); template bool WriteDPSM(const DPSM& dpsm, const hecl::ProjectPath& outPath); } // namespace DataSpec::DNAParticle