#include "WPSC.hpp" namespace DataSpec::DNAParticle { template void WPSM::_read(athena::io::YAMLDocReader& r) { for (const auto& elem : r.getCurNode()->m_mapChildren) { if (elem.first.size() < 4) { LogModule.report(logvisor::Warning, fmt("short FourCC in element '{}'"), elem.first); continue; } if (auto rec = r.enterSubRecord(elem.first.c_str())) { switch (*reinterpret_cast(elem.first.data())) { case SBIG('IORN'): x0_IORN.read(r); break; case SBIG('IVEC'): x4_IVEC.read(r); break; case SBIG('PSOV'): x8_PSOV.read(r); break; case SBIG('PSVM'): xc_PSVM.read(r); break; case SBIG('VMD2'): x10_VMD2.read(r); break; case SBIG('PSLT'): x14_PSLT.read(r); break; case SBIG('PSCL'): x18_PSCL.read(r); break; case SBIG('PCOL'): x1c_PCOL.read(r); break; case SBIG('POFS'): x20_POFS.read(r); break; case SBIG('OFST'): x24_OFST.read(r); break; case SBIG('APSO'): x28_APSO.read(r); break; case SBIG('HOMG'): x29_HOMG.read(r); break; case SBIG('AP11'): x2a_AP11.read(r); break; case SBIG('AP21'): x2b_AP21.read(r); break; case SBIG('AS11'): x2c_AS11.read(r); break; case SBIG('AS12'): x2d_AS12.read(r); break; case SBIG('AS13'): x2e_AS13.read(r); break; case SBIG('TRAT'): x30_TRAT.read(r); break; case SBIG('APSM'): x34_APSM.read(r); break; case SBIG('APS2'): x44_APS2.read(r); break; case SBIG('ASW1'): x54_ASW1.read(r); break; case SBIG('ASW2'): x64_ASW2.read(r); break; case SBIG('ASW3'): x74_ASW3.read(r); break; case SBIG('OHEF'): x84_OHEF.read(r); break; case SBIG('COLR'): x94_COLR.read(r); break; case SBIG('EWTR'): xa4_EWTR.read(r); break; case SBIG('LWTR'): xa5_LWTR.read(r); break; case SBIG('SWTR'): xa6_SWTR.read(r); break; case SBIG('PJFX'): xa8_PJFX = r.readUint32(nullptr); break; case SBIG('RNGE'): xac_RNGE.read(r); break; case SBIG('FOFF'): xb0_FOFF.read(r); break; case SBIG('FC60'): xunk_FC60.read(r); break; case SBIG('SPS1'): xunk_SPS2.read(r); break; case SBIG('SPS2'): xunk_SPS2.read(r); break; } } } } template void WPSM::_write(athena::io::YAMLDocWriter& w) const { if (x0_IORN) if (auto rec = w.enterSubRecord("IORN")) x0_IORN.write(w); if (x4_IVEC) if (auto rec = w.enterSubRecord("IVEC")) x4_IVEC.write(w); if (x8_PSOV) if (auto rec = w.enterSubRecord("PSOV")) x8_PSOV.write(w); if (xc_PSVM) if (auto rec = w.enterSubRecord("PSVM")) xc_PSVM.write(w); if (x10_VMD2) if (auto rec = w.enterSubRecord("VMD2")) x10_VMD2.write(w); if (x14_PSLT) if (auto rec = w.enterSubRecord("PSLT")) x14_PSLT.write(w); if (x18_PSCL) if (auto rec = w.enterSubRecord("PSCL")) x18_PSCL.write(w); if (x1c_PCOL) if (auto rec = w.enterSubRecord("PCOL")) x1c_PCOL.write(w); if (x20_POFS) if (auto rec = w.enterSubRecord("POFS")) x20_POFS.write(w); if (x24_OFST) if (auto rec = w.enterSubRecord("OFST")) x24_OFST.write(w); if (x28_APSO) if (auto rec = w.enterSubRecord("APSO")) x28_APSO.write(w); if (x29_HOMG) if (auto rec = w.enterSubRecord("HOMG")) x29_HOMG.write(w); if (x2a_AP11) if (auto rec = w.enterSubRecord("AP11")) x2a_AP11.write(w); if (x2b_AP21) if (auto rec = w.enterSubRecord("AP21")) x2b_AP21.write(w); if (x2c_AS11) if (auto rec = w.enterSubRecord("AS11")) x2c_AS11.write(w); if (x2d_AS12) if (auto rec = w.enterSubRecord("AS12")) x2d_AS12.write(w); if (x2e_AS13) if (auto rec = w.enterSubRecord("AS13")) x2e_AS13.write(w); if (x30_TRAT) if (auto rec = w.enterSubRecord("TRAT")) x30_TRAT.write(w); if (x34_APSM) if (auto rec = w.enterSubRecord("APSM")) x34_APSM.write(w); if (x44_APS2) if (auto rec = w.enterSubRecord("APS2")) x44_APS2.write(w); if (x54_ASW1) if (auto rec = w.enterSubRecord("ASW1")) x54_ASW1.write(w); if (x64_ASW2) if (auto rec = w.enterSubRecord("ASW2")) x64_ASW2.write(w); if (x74_ASW3) if (auto rec = w.enterSubRecord("ASW3")) x74_ASW3.write(w); if (x84_OHEF) if (auto rec = w.enterSubRecord("OHEF")) x84_OHEF.write(w); if (x94_COLR) if (auto rec = w.enterSubRecord("COLR")) x94_COLR.write(w); if (!xa4_EWTR) if (auto rec = w.enterSubRecord("EWTR")) xa4_EWTR.write(w); if (!xa5_LWTR) if (auto rec = w.enterSubRecord("LWTR")) xa5_LWTR.write(w); if (!xa6_SWTR) if (auto rec = w.enterSubRecord("SWTR")) xa6_SWTR.write(w); if (xa8_PJFX != UINT32_MAX) w.writeUint32("PJFX", xa8_PJFX); if (xac_RNGE) if (auto rec = w.enterSubRecord("RNGE")) xac_RNGE.write(w); if (xb0_FOFF) if (auto rec = w.enterSubRecord("FOFF")) xb0_FOFF.write(w); if (xunk_FC60) if (auto rec = w.enterSubRecord("FC60")) xunk_FC60.write(w); if (xunk_SPS1) if (auto rec = w.enterSubRecord("SPS1")) xunk_SPS1.write(w); if (xunk_SPS1) if (auto rec = w.enterSubRecord("SPS2")) xunk_SPS2.write(w); } template void WPSM::_binarySize(size_t& __isz) const { __isz += 4; if (x0_IORN) { __isz += 4; x0_IORN.binarySize(__isz); } if (x4_IVEC) { __isz += 4; x4_IVEC.binarySize(__isz); } if (x8_PSOV) { __isz += 4; x8_PSOV.binarySize(__isz); } if (xc_PSVM) { __isz += 4; xc_PSVM.binarySize(__isz); } if (x10_VMD2) { __isz += 4; x10_VMD2.binarySize(__isz); } if (x14_PSLT) { __isz += 4; x14_PSLT.binarySize(__isz); } if (x18_PSCL) { __isz += 4; x18_PSCL.binarySize(__isz); } if (x1c_PCOL) { __isz += 4; x1c_PCOL.binarySize(__isz); } if (x20_POFS) { __isz += 4; x20_POFS.binarySize(__isz); } if (x24_OFST) { __isz += 4; x24_OFST.binarySize(__isz); } if (x28_APSO) { __isz += 4; x28_APSO.binarySize(__isz); } if (x29_HOMG) { __isz += 4; x29_HOMG.binarySize(__isz); } if (x2a_AP11) { __isz += 4; x2a_AP11.binarySize(__isz); } if (x2b_AP21) { __isz += 4; x2b_AP21.binarySize(__isz); } if (x2c_AS11) { __isz += 4; x2c_AS11.binarySize(__isz); } if (x2d_AS12) { __isz += 4; x2d_AS12.binarySize(__isz); } if (x2e_AS13) { __isz += 4; x2e_AS13.binarySize(__isz); } if (x30_TRAT) { __isz += 4; x30_TRAT.binarySize(__isz); } if (x34_APSM) { __isz += 4; x34_APSM.binarySize(__isz); } if (x44_APS2) { __isz += 4; x44_APS2.binarySize(__isz); } if (x54_ASW1) { __isz += 4; x54_ASW1.binarySize(__isz); } if (x64_ASW2) { __isz += 4; x64_ASW2.binarySize(__isz); } if (x74_ASW3) { __isz += 4; x74_ASW3.binarySize(__isz); } if (x84_OHEF) { __isz += 4; x84_OHEF.binarySize(__isz); } if (x94_COLR) { __isz += 4; x94_COLR.binarySize(__isz); } if (!xa4_EWTR) { __isz += 4; xa4_EWTR.binarySize(__isz); } if (!xa5_LWTR) { __isz += 4; xa5_LWTR.binarySize(__isz); } if (!xa6_SWTR) { __isz += 4; xa6_SWTR.binarySize(__isz); } if (xa8_PJFX != UINT32_MAX) __isz += 12; if (xac_RNGE) { __isz += 4; xac_RNGE.binarySize(__isz); } if (xb0_FOFF) { __isz += 4; xb0_FOFF.binarySize(__isz); } if (xunk_FC60) { __isz += 4; xunk_FC60.binarySize(__isz); } if (xunk_SPS1) { __isz += 4; xunk_SPS1.binarySize(__isz); } if (xunk_SPS2) { __isz += 4; xunk_SPS2.binarySize(__isz); } } template void WPSM::_read(athena::io::IStreamReader& r) { DNAFourCC clsId; clsId.read(r); if (clsId != SBIG('WPSM')) { LogModule.report(logvisor::Warning, fmt("non WPSM provided to WPSM parser")); return; } clsId.read(r); while (clsId != SBIG('_END')) { switch (clsId.toUint32()) { case SBIG('IORN'): x0_IORN.read(r); break; case SBIG('IVEC'): x4_IVEC.read(r); break; case SBIG('PSOV'): x8_PSOV.read(r); break; case SBIG('PSVM'): xc_PSVM.read(r); break; case SBIG('VMD2'): x10_VMD2.read(r); break; case SBIG('PSLT'): x14_PSLT.read(r); break; case SBIG('PSCL'): x18_PSCL.read(r); break; case SBIG('PCOL'): x1c_PCOL.read(r); break; case SBIG('POFS'): x20_POFS.read(r); break; case SBIG('OFST'): x24_OFST.read(r); break; case SBIG('APSO'): r.readUint32(); x28_APSO = r.readBool(); break; case SBIG('HOMG'): x29_HOMG.read(r); break; case SBIG('AP11'): x2a_AP11.read(r); break; case SBIG('AP21'): x2b_AP21.read(r); break; case SBIG('AS11'): x2c_AS11.read(r); break; case SBIG('AS12'): x2d_AS12.read(r); break; case SBIG('AS13'): x2e_AS13.read(r); break; case SBIG('TRAT'): x30_TRAT.read(r); break; case SBIG('APSM'): x34_APSM.read(r); break; case SBIG('APS2'): x44_APS2.read(r); break; case SBIG('ASW1'): x54_ASW1.read(r); break; case SBIG('ASW2'): x64_ASW2.read(r); break; case SBIG('ASW3'): x74_ASW3.read(r); break; case SBIG('OHEF'): x84_OHEF.read(r); break; case SBIG('COLR'): x94_COLR.read(r); break; case SBIG('EWTR'): r.readUint32(); xa4_EWTR = r.readBool(); break; case SBIG('LWTR'): r.readUint32(); xa5_LWTR = r.readBool(); break; case SBIG('SWTR'): r.readUint32(); xa6_SWTR = r.readBool(); break; case SBIG('PJFX'): { uint32_t fcc; r.readBytesToBuf(&fcc, 4); if (fcc != SBIG('NONE')) xa8_PJFX = r.readUint32Big(); } break; case SBIG('RNGE'): xac_RNGE.read(r); break; case SBIG('FOFF'): xb0_FOFF.read(r); break; case SBIG('FC60'): xunk_FC60.read(r); break; case SBIG('SPS1'): xunk_SPS1.read(r); break; case SBIG('SPS2'): xunk_SPS2.read(r); break; default: LogModule.report(logvisor::Fatal, fmt("Unknown WPSM class {} @{}"), clsId, r.position()); break; } clsId.read(r); } } template void WPSM::_write(athena::io::IStreamWriter& w) const { w.writeBytes("WPSM", 4); if (x0_IORN) { w.writeBytes("IORN", 4); x0_IORN.write(w); } if (x4_IVEC) { w.writeBytes("IVEC", 4); x4_IVEC.write(w); } if (x8_PSOV) { w.writeBytes("PSOV", 4); x8_PSOV.write(w); } if (xc_PSVM) { w.writeBytes("PSVM", 4); xc_PSVM.write(w); } if (x10_VMD2) { w.writeBytes("VMD2", 4); x10_VMD2.write(w); } if (x14_PSLT) { w.writeBytes("PSLT", 4); x14_PSLT.write(w); } if (x18_PSCL) { w.writeBytes("PSCL", 4); x18_PSCL.write(w); } if (x1c_PCOL) { w.writeBytes("PCOL", 4); x1c_PCOL.write(w); } if (x20_POFS) { w.writeBytes("POFS", 4); x20_POFS.write(w); } if (x24_OFST) { w.writeBytes("OFST", 4); x24_OFST.write(w); } if (x28_APSO) { w.writeBytes("APSO", 4); x28_APSO.write(w); } if (x29_HOMG) { w.writeBytes("HOMG", 4); x29_HOMG.write(w); } if (x2a_AP11) { w.writeBytes("AP11", 4); x2a_AP11.write(w); } if (x2b_AP21) { w.writeBytes("AP21", 4); x2b_AP21.write(w); } if (x2c_AS11) { w.writeBytes("AS11", 4); x2c_AS11.write(w); } if (x2d_AS12) { w.writeBytes("AS12", 4); x2d_AS12.write(w); } if (x2e_AS13) { w.writeBytes("AS13", 4); x2e_AS13.write(w); } if (x30_TRAT) { w.writeBytes("TRAT", 4); x30_TRAT.write(w); } if (x34_APSM) { w.writeBytes("APSM", 4); x34_APSM.write(w); } if (x44_APS2) { w.writeBytes("APS2", 4); x44_APS2.write(w); } if (x54_ASW1) { w.writeBytes("ASW1", 4); x54_ASW1.write(w); } if (x64_ASW2) { w.writeBytes("ASW2", 4); x64_ASW2.write(w); } if (x74_ASW3) { w.writeBytes("ASW3", 4); x74_ASW3.write(w); } if (x84_OHEF) { w.writeBytes("OHEF", 4); x84_OHEF.write(w); } if (x94_COLR) { w.writeBytes("COLR", 4); x94_COLR.write(w); } if (!xa4_EWTR) { w.writeBytes("EWTR", 4); xa4_EWTR.write(w); } if (!xa5_LWTR) { w.writeBytes("LWTR", 4); xa5_LWTR.write(w); } if (!xa6_SWTR) { w.writeBytes("SWTR", 4); xa6_SWTR.write(w); } if (xa8_PJFX != UINT32_MAX) { w.writeBytes("PJFXCNST", 8); w.writeUint32(xa8_PJFX); } if (xac_RNGE) { w.writeBytes("RNGE", 4); xac_RNGE.write(w); } if (xb0_FOFF) { w.writeBytes("FOFF", 4); xb0_FOFF.write(w); } if (xunk_FC60) { w.writeBytes("FC60", 4); xunk_FC60.write(w); } if (xunk_SPS1) { w.writeBytes("SPS1", 4); xunk_SPS1.write(w); } if (xunk_SPS2) { w.writeBytes("SPS2", 4); xunk_SPS2.write(w); } w.writeBytes("_END", 4); } AT_SUBSPECIALIZE_DNA_YAML(WPSM) AT_SUBSPECIALIZE_DNA_YAML(WPSM) template <> const char* WPSM::DNAType() { return "WPSM"; } template <> const char* WPSM::DNAType() { return "WPSM"; } template void WPSM::gatherDependencies(std::vector& pathsOut) const { g_curSpec->flattenDependencies(x34_APSM.id, pathsOut); g_curSpec->flattenDependencies(x44_APS2.id, pathsOut); g_curSpec->flattenDependencies(x54_ASW1.id, pathsOut); g_curSpec->flattenDependencies(x64_ASW2.id, pathsOut); g_curSpec->flattenDependencies(x74_ASW3.id, pathsOut); g_curSpec->flattenDependencies(x84_OHEF.id, pathsOut); g_curSpec->flattenDependencies(x94_COLR.id, pathsOut); } template struct WPSM; template struct WPSM; template bool ExtractWPSM(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath) { athena::io::FileWriter writer(outPath.getAbsolutePath()); if (writer.isOpen()) { WPSM wpsm; wpsm.read(rs); athena::io::ToYAMLStream(wpsm, writer); return true; } return false; } template bool ExtractWPSM(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath); template bool ExtractWPSM(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath); template bool WriteWPSM(const WPSM& wpsm, const hecl::ProjectPath& outPath) { athena::io::FileWriter w(outPath.getAbsolutePath(), true, false); if (w.hasError()) return false; wpsm.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 WriteWPSM(const WPSM& wpsm, const hecl::ProjectPath& outPath); template bool WriteWPSM(const WPSM& wpsm, const hecl::ProjectPath& outPath); } // namespace DataSpec::DNAParticle