#include "SWHC.hpp" namespace DataSpec::DNAParticle { template <> const char* SWSH::DNAType() { return "SWSH"; } template <> const char* SWSH::DNAType() { return "SWSH"; } template void SWSH::_read(typename BigDNA::ReadYaml::StreamT& 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())) { switch(*reinterpret_cast(elem.first.data())) { case SBIG('PSLT'): x0_PSLT.read(r); break; case SBIG('TIME'): x4_TIME.read(r); break; case SBIG('LRAD'): x8_LRAD.read(r); break; case SBIG('RRAD'): xc_RRAD.read(r); break; case SBIG('LENG'): x10_LENG.read(r); break; case SBIG('COLR'): x14_COLR.read(r); break; case SBIG('SIDE'): x18_SIDE.read(r); break; case SBIG('IROT'): x1c_IROT.read(r); break; case SBIG('ROTM'): x20_ROTM.read(r); break; case SBIG('POFS'): x24_POFS.read(r); break; case SBIG('IVEL'): x28_IVEL.read(r); break; case SBIG('NPOS'): x2c_NPOS.read(r); break; case SBIG('VELM'): x30_VELM.read(r); break; case SBIG('VLM2'): x34_VLM2.read(r); break; case SBIG('SPLN'): x38_SPLN.read(r); break; case SBIG('TEXR'): x3c_TEXR.read(r); break; case SBIG('TSPN'): x40_TSPN.read(r); break; case SBIG('LLRD'): x44_24_LLRD = r.readBool(nullptr); break; case SBIG('CROS'): x44_25_CROS = r.readBool(nullptr); break; case SBIG('VLS1'): x44_26_VLS1 = r.readBool(nullptr); break; case SBIG('VLS2'): x44_27_VLS2 = r.readBool(nullptr); break; case SBIG('SROT'): x44_28_SROT = r.readBool(nullptr); break; case SBIG('WIRE'): x44_29_WIRE = r.readBool(nullptr); break; case SBIG('TEXW'): x44_30_TEXW = r.readBool(nullptr); break; case SBIG('AALP'): x44_31_AALP = r.readBool(nullptr); break; case SBIG('ZBUF'): x45_24_ZBUF = r.readBool(nullptr); break; case SBIG('ORNT'): x45_25_ORNT = r.readBool(nullptr); break; case SBIG('CRND'): x45_26_CRND = r.readBool(nullptr); break; } } } } template void SWSH::_write(typename BigDNA::WriteYaml::StreamT& w) const { if (x0_PSLT) if (auto rec = w.enterSubRecord("PSLT")) x0_PSLT.write(w); if (x4_TIME) if (auto rec = w.enterSubRecord("TIME")) x4_TIME.write(w); if (x8_LRAD) if (auto rec = w.enterSubRecord("LRAD")) x8_LRAD.write(w); if (xc_RRAD) if (auto rec = w.enterSubRecord("RRAD")) xc_RRAD.write(w); if (x10_LENG) if (auto rec = w.enterSubRecord("LENG")) x10_LENG.write(w); if (x14_COLR) if (auto rec = w.enterSubRecord("COLR")) x14_COLR.write(w); if (x18_SIDE) if (auto rec = w.enterSubRecord("SIDE")) x18_SIDE.write(w); if (x1c_IROT) if (auto rec = w.enterSubRecord("IROT")) x1c_IROT.write(w); if (x20_ROTM) if (auto rec = w.enterSubRecord("ROTM")) x20_ROTM.write(w); if (x24_POFS) if (auto rec = w.enterSubRecord("POFS")) x24_POFS.write(w); if (x28_IVEL) if (auto rec = w.enterSubRecord("IVEL")) x28_IVEL.write(w); if (x2c_NPOS) if (auto rec = w.enterSubRecord("NPOS")) x2c_NPOS.write(w); if (x30_VELM) if (auto rec = w.enterSubRecord("VELM")) x30_VELM.write(w); if (x34_VLM2) if (auto rec = w.enterSubRecord("VLM2")) x34_VLM2.write(w); if (x38_SPLN) if (auto rec = w.enterSubRecord("SPLN")) x38_SPLN.write(w); if (x3c_TEXR) if (auto rec = w.enterSubRecord("TEXR")) x3c_TEXR.write(w); if (x40_TSPN) if (auto rec = w.enterSubRecord("TSPN")) x40_TSPN.write(w); if (x44_24_LLRD) w.writeBool("LLRD", true); if (!x44_25_CROS) w.writeBool("CROS", false); if (x44_26_VLS1) w.writeBool("VLS1", true); if (x44_27_VLS2) w.writeBool("VLS2", true); if (x44_28_SROT) w.writeBool("SROT", true); if (x44_29_WIRE) w.writeBool("WIRE", true); if (x44_30_TEXW) w.writeBool("TEXW", true); if (x44_31_AALP) w.writeBool("AALP", true); if (x45_24_ZBUF) w.writeBool("ZBUF", true); if (x45_25_ORNT) w.writeBool("ORNT", true); if (x45_26_CRND) w.writeBool("CRND", true); } template void SWSH::_binarySize(typename BigDNA::BinarySize::StreamT& s) const { s += 4; if (x0_PSLT) { s += 4; x0_PSLT.binarySize(s); } if (x4_TIME) { s += 4; x4_TIME.binarySize(s); } if (x8_LRAD) { s += 4; x8_LRAD.binarySize(s); } if (xc_RRAD) { s += 4; xc_RRAD.binarySize(s); } if (x10_LENG) { s += 4; x10_LENG.binarySize(s); } if (x14_COLR) { s += 4; x14_COLR.binarySize(s); } if (x18_SIDE) { s += 4; x18_SIDE.binarySize(s); } if (x1c_IROT) { s += 4; x1c_IROT.binarySize(s); } if (x20_ROTM) { s += 4; x20_ROTM.binarySize(s); } if (x24_POFS) { s += 4; x24_POFS.binarySize(s); } if (x28_IVEL) { s += 4; x28_IVEL.binarySize(s); } if (x2c_NPOS) { s += 4; x2c_NPOS.binarySize(s); } if (x30_VELM) { s += 4; x30_VELM.binarySize(s); } if (x34_VLM2) { s += 4; x34_VLM2.binarySize(s); } if (x38_SPLN) { s += 4; x38_SPLN.binarySize(s); } if (x3c_TEXR) { s += 4; x3c_TEXR.binarySize(s); } if (x40_TSPN) { s += 4; x40_TSPN.binarySize(s); } if (x44_24_LLRD) s += 9; if (!x44_25_CROS) s += 9; if (x44_26_VLS1) s += 9; if (x44_27_VLS2) s += 9; if (x44_28_SROT) s += 9; if (x44_29_WIRE) s += 9; if (x44_30_TEXW) s += 9; if (x44_31_AALP) s += 9; if (x45_24_ZBUF) s += 9; if (x45_25_ORNT) s += 9; if (x45_26_CRND) s += 9; } template void SWSH::_read(typename BigDNA::Read::StreamT& r) { uint32_t clsId; r.readBytesToBuf(&clsId, 4); if (clsId != SBIG('SWSH')) { LogModule.report(logvisor::Warning, "non SWSH provided to SWSH parser"); return; } r.readBytesToBuf(&clsId, 4); while (clsId != SBIG('_END')) { switch(clsId) { case SBIG('PSLT'): x0_PSLT.read(r); break; case SBIG('TIME'): x4_TIME.read(r); break; case SBIG('LRAD'): x8_LRAD.read(r); break; case SBIG('RRAD'): xc_RRAD.read(r); break; case SBIG('LENG'): x10_LENG.read(r); break; case SBIG('COLR'): x14_COLR.read(r); break; case SBIG('SIDE'): x18_SIDE.read(r); break; case SBIG('IROT'): x1c_IROT.read(r); break; case SBIG('ROTM'): x20_ROTM.read(r); break; case SBIG('POFS'): x24_POFS.read(r); break; case SBIG('IVEL'): x28_IVEL.read(r); break; case SBIG('NPOS'): x2c_NPOS.read(r); break; case SBIG('VELM'): x30_VELM.read(r); break; case SBIG('VLM2'): x34_VLM2.read(r); break; case SBIG('SPLN'): x38_SPLN.read(r); break; case SBIG('TEXR'): x3c_TEXR.read(r); break; case SBIG('TSPN'): x40_TSPN.read(r); break; case SBIG('LLRD'): r.readUint32Big(); x44_24_LLRD = r.readBool(); break; case SBIG('CROS'): r.readUint32Big(); x44_25_CROS = r.readBool(); break; case SBIG('VLS1'): r.readUint32Big(); x44_26_VLS1 = r.readBool(); break; case SBIG('VLS2'): r.readUint32Big(); x44_27_VLS2 = r.readBool(); break; case SBIG('SROT'): r.readUint32Big(); x44_28_SROT = r.readBool(); break; case SBIG('WIRE'): r.readUint32Big(); x44_29_WIRE = r.readBool(); break; case SBIG('TEXW'): r.readUint32Big(); x44_30_TEXW = r.readBool(); break; case SBIG('AALP'): r.readUint32Big(); x44_31_AALP = r.readBool(); break; case SBIG('ZBUF'): r.readUint32Big(); x45_24_ZBUF = r.readBool(); break; case SBIG('ORNT'): r.readUint32Big(); x45_25_ORNT = r.readBool(); break; case SBIG('CRND'): r.readUint32Big(); x45_26_CRND = r.readBool(); break; default: LogModule.report(logvisor::Fatal, "Unknown SWSH class %.4s @%" PRIi64, &clsId, r.position()); break; } r.readBytesToBuf(&clsId, 4); } } template void SWSH::_write(typename BigDNA::Write::StreamT& w) const { w.writeBytes((atInt8*)"SWSH", 4); if (x0_PSLT) { w.writeBytes((atInt8*)"PSLT", 4); x0_PSLT.write(w); } if (x4_TIME) { w.writeBytes((atInt8*)"TIME", 4); x4_TIME.write(w); } if (x8_LRAD) { w.writeBytes((atInt8*)"LRAD", 4); x8_LRAD.write(w); } if (xc_RRAD) { w.writeBytes((atInt8*)"RRAD", 4); xc_RRAD.write(w); } if (x10_LENG) { w.writeBytes((atInt8*)"LENG", 4); x10_LENG.write(w); } if (x14_COLR) { w.writeBytes((atInt8*)"COLR", 4); x14_COLR.write(w); } if (x18_SIDE) { w.writeBytes((atInt8*)"SIDE", 4); x18_SIDE.write(w); } if (x1c_IROT) { w.writeBytes((atInt8*)"IROT", 4); x1c_IROT.write(w); } if (x20_ROTM) { w.writeBytes((atInt8*)"ROTM", 4); x20_ROTM.write(w); } if (x24_POFS) { w.writeBytes((atInt8*)"POFS", 4); x24_POFS.write(w); } if (x28_IVEL) { w.writeBytes((atInt8*)"IVEL", 4); x28_IVEL.write(w); } if (x2c_NPOS) { w.writeBytes((atInt8*)"NPOS", 4); x2c_NPOS.write(w); } if (x30_VELM) { w.writeBytes((atInt8*)"VELM", 4); x30_VELM.write(w); } if (x34_VLM2) { w.writeBytes((atInt8*)"VLM2", 4); x34_VLM2.write(w); } if (x38_SPLN) { w.writeBytes((atInt8*)"SPLN", 4); x38_SPLN.write(w); } if (x3c_TEXR) { w.writeBytes((atInt8*)"TEXR", 4); x3c_TEXR.write(w); } if (x40_TSPN) { w.writeBytes((atInt8*)"TSPN", 4); x40_TSPN.write(w); } if (x44_24_LLRD) w.writeBytes("LLRDCNST\x01", 9); if (!x44_25_CROS) w.writeBytes("CROSCNST\x00", 9); if (x44_26_VLS1) w.writeBytes("VLS1CNST\x01", 9); if (x44_27_VLS2) w.writeBytes("VLS2CNST\x01", 9); if (x44_28_SROT) w.writeBytes("SROTCNST\x01", 9); if (x44_29_WIRE) w.writeBytes("WIRECNST\x01", 9); if (x44_30_TEXW) w.writeBytes("TEXWCNST\x01", 9); if (x44_31_AALP) w.writeBytes("AALPCNST\x01", 9); if (x45_24_ZBUF) w.writeBytes("ZBUFCNST\x01", 9); if (x45_25_ORNT) w.writeBytes("ORNTCNST\x01", 9); if (x45_26_CRND) w.writeBytes("CRNDCNST\x01", 9); w.writeBytes("_END", 4); } AT_SUBSPECIALIZE_DNA_YAML(SWSH) AT_SUBSPECIALIZE_DNA_YAML(SWSH) template void SWSH::gatherDependencies(std::vector& pathsOut) const { if (x3c_TEXR.m_elem) x3c_TEXR.m_elem->gatherDependencies(pathsOut); } template struct SWSH; template struct SWSH; template bool ExtractSWSH(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath) { athena::io::FileWriter writer(outPath.getAbsolutePath()); if (writer.isOpen()) { SWSH swsh; swsh.read(rs); athena::io::ToYAMLStream(swsh, writer); return true; } return false; } template bool ExtractSWSH(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath); template bool ExtractSWSH(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath); template bool WriteSWSH(const SWSH& swsh, const hecl::ProjectPath& outPath) { athena::io::FileWriter w(outPath.getAbsolutePath(), true, false); if (w.hasError()) return false; swsh.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 WriteSWSH(const SWSH& swsh, const hecl::ProjectPath& outPath); template bool WriteSWSH(const SWSH& swsh, const hecl::ProjectPath& outPath); }