metaforce/DataSpec/DNACommon/ELSC.cpp

450 lines
9.9 KiB
C++

#include "ELSC.hpp"
namespace DataSpec::DNAParticle {
template <class IDType>
void ELSM<IDType>::_read(athena::io::IStreamReader& r) {
DNAFourCC clsId;
clsId.read(r);
if (clsId != SBIG('ELSM')) {
LogModule.report(logvisor::Warning, fmt("non ELSM provided to ELSM parser"));
return;
}
clsId.read(r);
while (clsId != SBIG('_END')) {
switch (clsId.toUint32()) {
case SBIG('LIFE'):
x0_LIFE.read(r);
break;
case SBIG('SLIF'):
x4_SLIF.read(r);
break;
case SBIG('GRAT'):
x8_GRAT.read(r);
break;
case SBIG('SCNT'):
xc_SCNT.read(r);
break;
case SBIG('SSEG'):
x10_SSEG.read(r);
break;
case SBIG('COLR'):
x14_COLR.read(r);
break;
case SBIG('IEMT'):
x18_IEMT.read(r);
break;
case SBIG('FEMT'):
x1c_FEMT.read(r);
break;
case SBIG('AMPL'):
x20_AMPL.read(r);
break;
case SBIG('AMPD'):
x24_AMPD.read(r);
break;
case SBIG('LWD1'):
x28_LWD1.read(r);
break;
case SBIG('LWD2'):
x2c_LWD2.read(r);
break;
case SBIG('LWD3'):
x30_LWD3.read(r);
break;
case SBIG('LCL1'):
x34_LCL1.read(r);
break;
case SBIG('LCL2'):
x38_LCL2.read(r);
break;
case SBIG('LCL3'):
x3c_LCL3.read(r);
break;
case SBIG('SSWH'):
x40_SSWH.read(r);
break;
case SBIG('GPSM'):
x50_GPSM.read(r);
break;
case SBIG('EPSM'):
x60_EPSM.read(r);
break;
case SBIG('ZERY'):
x70_ZERY.read(r);
break;
default:
LogModule.report(logvisor::Fatal, fmt("Unknown ELSM class {} @{}"), clsId, r.position());
break;
}
clsId.read(r);
}
}
template <class IDType>
void ELSM<IDType>::_write(athena::io::IStreamWriter& w) const {
w.writeBytes((atInt8*)"ELSM", 4);
if (x0_LIFE) {
w.writeBytes((atInt8*)"LIFE", 4);
x0_LIFE.write(w);
}
if (x4_SLIF) {
w.writeBytes((atInt8*)"SLIF", 4);
x4_SLIF.write(w);
}
if (x8_GRAT) {
w.writeBytes((atInt8*)"GRAT", 4);
x8_GRAT.write(w);
}
if (xc_SCNT) {
w.writeBytes((atInt8*)"SCNT", 4);
xc_SCNT.write(w);
}
if (x10_SSEG) {
w.writeBytes((atInt8*)"SSEG", 4);
x10_SSEG.write(w);
}
if (x14_COLR) {
w.writeBytes((atInt8*)"COLR", 4);
x14_COLR.write(w);
}
if (x18_IEMT) {
w.writeBytes((atInt8*)"IEMT", 4);
x18_IEMT.write(w);
}
if (x1c_FEMT) {
w.writeBytes((atInt8*)"FEMT", 4);
x1c_FEMT.write(w);
}
if (x20_AMPL) {
w.writeBytes((atInt8*)"AMPL", 4);
x20_AMPL.write(w);
}
if (x24_AMPD) {
w.writeBytes((atInt8*)"AMPD", 4);
x24_AMPD.write(w);
}
if (x28_LWD1) {
w.writeBytes((atInt8*)"LWD1", 4);
x28_LWD1.write(w);
}
if (x2c_LWD2) {
w.writeBytes((atInt8*)"LWD2", 4);
x2c_LWD2.write(w);
}
if (x30_LWD3) {
w.writeBytes((atInt8*)"LWD3", 4);
x30_LWD3.write(w);
}
if (x34_LCL1) {
w.writeBytes((atInt8*)"LCL1", 4);
x34_LCL1.write(w);
}
if (x38_LCL2) {
w.writeBytes((atInt8*)"LCL2", 4);
x38_LCL2.write(w);
}
if (x3c_LCL3) {
w.writeBytes((atInt8*)"LCL3", 4);
x3c_LCL3.write(w);
}
if (x40_SSWH) {
w.writeBytes((atInt8*)"SSWH", 4);
x40_SSWH.write(w);
}
if (x50_GPSM) {
w.writeBytes((atInt8*)"GPSM", 4);
x50_GPSM.write(w);
}
if (x60_EPSM) {
w.writeBytes((atInt8*)"EPSM", 4);
x60_EPSM.write(w);
}
if (x70_ZERY) {
w.writeBytes((atInt8*)"ZERY", 4);
x70_ZERY.write(w);
}
w.writeBytes("_END", 4);
}
template <class IDType>
void ELSM<IDType>::_binarySize(size_t& s) const {
s += 4;
if (x0_LIFE) {
s += 4;
x0_LIFE.binarySize(s);
}
if (x4_SLIF) {
s += 4;
x4_SLIF.binarySize(s);
}
if (x8_GRAT) {
s += 4;
x8_GRAT.binarySize(s);
}
if (xc_SCNT) {
s += 4;
xc_SCNT.binarySize(s);
}
if (x10_SSEG) {
s += 4;
x10_SSEG.binarySize(s);
}
if (x14_COLR) {
s += 4;
x14_COLR.binarySize(s);
}
if (x18_IEMT) {
s += 4;
x18_IEMT.binarySize(s);
}
if (x1c_FEMT) {
s += 4;
x1c_FEMT.binarySize(s);
}
if (x20_AMPL) {
s += 4;
x20_AMPL.binarySize(s);
}
if (x24_AMPD) {
s += 4;
x24_AMPD.binarySize(s);
}
if (x28_LWD1) {
s += 4;
x28_LWD1.binarySize(s);
}
if (x2c_LWD2) {
s += 4;
x2c_LWD2.binarySize(s);
}
if (x30_LWD3) {
s += 4;
x30_LWD3.binarySize(s);
}
if (x34_LCL1) {
s += 4;
x34_LCL1.binarySize(s);
}
if (x38_LCL2) {
s += 4;
x38_LCL2.binarySize(s);
}
if (x3c_LCL3) {
s += 4;
x3c_LCL3.binarySize(s);
}
if (x40_SSWH) {
s += 4;
x40_SSWH.binarySize(s);
}
if (x50_GPSM) {
s += 4;
x50_GPSM.binarySize(s);
}
if (x60_EPSM) {
s += 4;
x60_EPSM.binarySize(s);
}
if (x70_ZERY) {
s += 4;
x70_ZERY.binarySize(s);
}
}
template <class IDType>
void ELSM<IDType>::_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<const uint32_t*>(elem.first.data())) {
case SBIG('LIFE'):
x0_LIFE.read(r);
break;
case SBIG('SLIF'):
x4_SLIF.read(r);
break;
case SBIG('GRAT'):
x8_GRAT.read(r);
break;
case SBIG('SCNT'):
xc_SCNT.read(r);
break;
case SBIG('SSEG'):
x10_SSEG.read(r);
break;
case SBIG('COLR'):
x14_COLR.read(r);
break;
case SBIG('IEMT'):
x18_IEMT.read(r);
break;
case SBIG('FEMT'):
x1c_FEMT.read(r);
break;
case SBIG('AMPL'):
x20_AMPL.read(r);
break;
case SBIG('AMPD'):
x24_AMPD.read(r);
break;
case SBIG('LWD1'):
x28_LWD1.read(r);
break;
case SBIG('LWD2'):
x2c_LWD2.read(r);
break;
case SBIG('LWD3'):
x30_LWD3.read(r);
break;
case SBIG('LCL1'):
x34_LCL1.read(r);
break;
case SBIG('LCL2'):
x38_LCL2.read(r);
break;
case SBIG('LCL3'):
x3c_LCL3.read(r);
break;
case SBIG('SSWH'):
x40_SSWH.read(r);
break;
case SBIG('GPSM'):
x50_GPSM.read(r);
break;
case SBIG('EPSM'):
x60_EPSM.read(r);
break;
case SBIG('ZERY'):
x70_ZERY.read(r);
break;
default:
break;
}
}
}
}
template <class IDType>
void ELSM<IDType>::_write(athena::io::YAMLDocWriter& w) const {
if (x0_LIFE)
if (auto rec = w.enterSubRecord("LIFE"))
x0_LIFE.write(w);
if (x4_SLIF)
if (auto rec = w.enterSubRecord("SLIF"))
x4_SLIF.write(w);
if (x8_GRAT)
if (auto rec = w.enterSubRecord("GRAT"))
x8_GRAT.write(w);
if (xc_SCNT)
if (auto rec = w.enterSubRecord("SCNT"))
xc_SCNT.write(w);
if (x10_SSEG)
if (auto rec = w.enterSubRecord("SSEG"))
x10_SSEG.write(w);
if (x14_COLR)
if (auto rec = w.enterSubRecord("COLR"))
x14_COLR.write(w);
if (x18_IEMT)
if (auto rec = w.enterSubRecord("IEMT"))
x18_IEMT.write(w);
if (x1c_FEMT)
if (auto rec = w.enterSubRecord("FEMT"))
x1c_FEMT.write(w);
if (x20_AMPL)
if (auto rec = w.enterSubRecord("AMPL"))
x20_AMPL.write(w);
if (x24_AMPD)
if (auto rec = w.enterSubRecord("AMPD"))
x24_AMPD.write(w);
if (x28_LWD1)
if (auto rec = w.enterSubRecord("LWD1"))
x28_LWD1.write(w);
if (x2c_LWD2)
if (auto rec = w.enterSubRecord("LWD2"))
x2c_LWD2.write(w);
if (x30_LWD3)
if (auto rec = w.enterSubRecord("LWD3"))
x30_LWD3.write(w);
if (x34_LCL1)
if (auto rec = w.enterSubRecord("LCL1"))
x34_LCL1.write(w);
if (x38_LCL2)
if (auto rec = w.enterSubRecord("LCL2"))
x38_LCL2.write(w);
if (x3c_LCL3)
if (auto rec = w.enterSubRecord("LCL3"))
x3c_LCL3.write(w);
if (x40_SSWH)
if (auto rec = w.enterSubRecord("SSWH"))
x40_SSWH.write(w);
if (x50_GPSM)
if (auto rec = w.enterSubRecord("GPSM"))
x50_GPSM.write(w);
if (x60_EPSM)
if (auto rec = w.enterSubRecord("EPSM"))
x60_EPSM.write(w);
if (x70_ZERY)
if (auto rec = w.enterSubRecord("ZERY"))
x70_ZERY.write(w);
}
AT_SUBSPECIALIZE_DNA_YAML(ELSM<UniqueID32>)
AT_SUBSPECIALIZE_DNA_YAML(ELSM<UniqueID64>)
template <>
const char* ELSM<UniqueID32>::DNAType() {
return "urde::ELSM<UniqueID32>";
}
template <>
const char* ELSM<UniqueID64>::DNAType() {
return "urde::ELSM<UniqueID64>";
}
template <class IDType>
void ELSM<IDType>::gatherDependencies(std::vector<hecl::ProjectPath>& pathsOut) const {
g_curSpec->flattenDependencies(x40_SSWH.id, pathsOut);
g_curSpec->flattenDependencies(x50_GPSM.id, pathsOut);
g_curSpec->flattenDependencies(x60_EPSM.id, pathsOut);
}
template struct ELSM<UniqueID32>;
template struct ELSM<UniqueID64>;
template <class IDType>
bool ExtractELSM(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath) {
athena::io::FileWriter writer(outPath.getAbsolutePath());
if (writer.isOpen()) {
ELSM<IDType> elsm;
elsm.read(rs);
athena::io::ToYAMLStream(elsm, writer);
return true;
}
return false;
}
template bool ExtractELSM<UniqueID32>(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath);
template bool ExtractELSM<UniqueID64>(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath);
template <class IDType>
bool WriteELSM(const ELSM<IDType>& elsm, const hecl::ProjectPath& outPath) {
athena::io::FileWriter w(outPath.getAbsolutePath(), true, false);
if (w.hasError())
return false;
elsm.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 WriteELSM<UniqueID32>(const ELSM<UniqueID32>& gpsm, const hecl::ProjectPath& outPath);
template bool WriteELSM<UniqueID64>(const ELSM<UniqueID64>& gpsm, const hecl::ProjectPath& outPath);
} // namespace DataSpec::DNAParticle