metaforce/DataSpec/SpecMP2.cpp

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#include <utility>
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#include "SpecBase.hpp"
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#include "DNAMP2/DNAMP2.hpp"
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#include "DNAMP2/MLVL.hpp"
#include "DNAMP2/STRG.hpp"
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#include "DNAMP2/AGSC.hpp"
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#include "DNAMP2/PATH.hpp"
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#include "DNAMP2/MAPA.hpp"
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#include "DNAMP1/CSNG.hpp"
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#include "DNACommon/MAPU.hpp"
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#include "DNACommon/PATH.hpp"
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#include "DNACommon/TXTR.hpp"
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#include "hecl/ClientProcess.hpp"
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#include "hecl/Blender/Connection.hpp"
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#include "hecl/MultiProgressPrinter.hpp"
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#include "Runtime/RetroTypes.hpp"
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#include "nod/nod.hpp"
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namespace DataSpec {
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using namespace std::literals;
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static logvisor::Module Log("urde::SpecMP2");
extern hecl::Database::DataSpecEntry SpecEntMP2;
extern hecl::Database::DataSpecEntry SpecEntMP2ORIG;
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struct TextureCache {
static void Generate(PAKRouter<DNAMP2::PAKBridge>& pakRouter, hecl::Database::Project& project, const hecl::ProjectPath& pakPath) {
hecl::ProjectPath texturePath(pakPath, _SYS_STR("texture_cache.yaml"));
hecl::ProjectPath catalogPath(pakPath, _SYS_STR("!catalog.yaml"));
texturePath.makeDirChain(false);
if (const auto fp = hecl::FopenUnique(catalogPath.getAbsolutePath().data(), _SYS_STR("a"))) {
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fmt::print(fp.get(), FMT_STRING("TextureCache: {}\n"), texturePath.getRelativePathUTF8());
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}
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Log.report(logvisor::Level::Info, FMT_STRING("Gathering Texture metadata (this can take up to 10 seconds)..."));
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std::unordered_map<UniqueID32, TXTR::Meta> metaMap;
pakRouter.enumerateResources([&](const DNAMP2::PAK::Entry* ent) {
if (ent->type == FOURCC('TXTR') && metaMap.find(ent->id) == metaMap.end()) {
PAKEntryReadStream rs = pakRouter.beginReadStreamForId(ent->id);
metaMap[ent->id] = TXTR::GetMetaData(rs);
}
return true;
});
athena::io::YAMLDocWriter yamlW("MP2TextureCache");
for (const auto& pair : metaMap) {
hecl::ProjectPath path = pakRouter.getWorking(pair.first);
auto rec = yamlW.enterSubRecord(path.getRelativePathUTF8());
pair.second.write(yamlW);
}
athena::io::FileWriter fileW(texturePath.getAbsolutePath());
yamlW.finish(&fileW);
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Log.report(logvisor::Level::Info, FMT_STRING("Done..."));
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}
static void Cook(const hecl::ProjectPath& inPath, const hecl::ProjectPath& outPath) {
hecl::Database::Project& project = inPath.getProject();
athena::io::YAMLDocReader r;
athena::io::FileReader fr(inPath.getAbsolutePath());
if (!fr.isOpen() || !r.parse(&fr))
return;
std::vector<std::pair<UniqueID32, TXTR::Meta>> metaPairs;
metaPairs.reserve(r.getRootNode()->m_mapChildren.size());
for (const auto& node : r.getRootNode()->m_mapChildren) {
hecl::ProjectPath projectPath(project, node.first);
auto rec = r.enterSubRecord(node.first.c_str());
TXTR::Meta meta;
meta.read(r);
metaPairs.emplace_back(projectPath.parsedHash32(), meta);
}
std::sort(metaPairs.begin(), metaPairs.end(), [](const auto& a, const auto& b) -> bool {
return a.first < b.first;
});
athena::io::FileWriter w(outPath.getAbsolutePath());
w.writeUint32Big(metaPairs.size());
for (const auto& pair : metaPairs) {
pair.first.write(w);
pair.second.write(w);
}
}
};
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struct SpecMP2 : SpecBase {
bool checkStandaloneID(const char* id) const override {
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if (!memcmp(id, "G2M", 3))
return true;
return false;
}
std::vector<const nod::Node*> m_nonPaks;
std::vector<DNAMP2::PAKBridge> m_paks;
std::map<std::string, DNAMP2::PAKBridge*, hecl::CaseInsensitiveCompare> m_orderedPaks;
hecl::ProjectPath m_workPath;
hecl::ProjectPath m_cookPath;
PAKRouter<DNAMP2::PAKBridge> m_pakRouter;
SpecMP2(const hecl::Database::DataSpecEntry* specEntry, hecl::Database::Project& project, bool pc)
: SpecBase(specEntry, project, pc)
, m_workPath(project.getProjectWorkingPath(), _SYS_STR("MP2"))
, m_cookPath(project.getProjectCookedPath(SpecEntMP2), _SYS_STR("MP2"))
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, m_pakRouter(*this, m_workPath, m_cookPath) {
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setThreadProject();
}
void buildPaks(nod::Node& root, const std::vector<hecl::SystemString>& args, ExtractReport& rep) {
m_nonPaks.clear();
m_paks.clear();
for (const nod::Node& child : root) {
bool isPak = false;
auto name = child.getName();
std::string lowerName(name);
std::transform(lowerName.begin(), lowerName.end(), lowerName.begin(), tolower);
if (name.size() > 4) {
std::string::iterator extit = lowerName.end() - 4;
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if (std::string(extit, lowerName.end()) == ".pak") {
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/* This is a pak */
isPak = true;
std::string lowerBase(lowerName.begin(), extit);
/* Needs filter */
bool good = true;
if (args.size()) {
good = false;
if (!lowerName.compare(0, 7, "metroid")) {
hecl::SystemChar idxChar = lowerName[7];
for (const hecl::SystemString& arg : args) {
if (arg.size() == 1 && iswdigit(arg[0]))
if (arg[0] == idxChar)
good = true;
}
} else
good = true;
if (!good) {
for (const hecl::SystemString& arg : args) {
std::string lowerArg(hecl::SystemUTF8Conv(arg).str());
std::transform(lowerArg.begin(), lowerArg.end(), lowerArg.begin(), tolower);
if (!lowerArg.compare(0, lowerBase.size(), lowerBase))
good = true;
}
}
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}
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m_paks.emplace_back(child, good);
}
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}
if (!isPak)
m_nonPaks.push_back(&child);
}
/* Sort PAKs alphabetically */
m_orderedPaks.clear();
for (DNAMP2::PAKBridge& dpak : m_paks)
m_orderedPaks[std::string(dpak.getName())] = &dpak;
/* Assemble extract report */
for (const auto& item : m_orderedPaks) {
if (!item.second->m_doExtract) {
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continue;
}
ExtractReport& childRep = rep.childOpts.emplace_back();
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hecl::SystemStringConv nameView(item.first);
childRep.name = hecl::SystemString(nameView.sys_str());
childRep.desc = item.second->getLevelString();
}
}
bool checkFromStandaloneDisc(nod::DiscBase& disc, const hecl::SystemString& regstr,
const std::vector<hecl::SystemString>& args, std::vector<ExtractReport>& reps) override {
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nod::IPartition* partition = disc.getDataPartition();
std::unique_ptr<uint8_t[]> dolBuf = partition->getDOLBuf();
const char* buildInfo = (char*)memmem(dolBuf.get(), partition->getDOLSize(), "MetroidBuildInfo", 16) + 19;
if (!buildInfo)
return false;
/* Root Report */
ExtractReport& rep = reps.emplace_back();
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rep.name = _SYS_STR("MP2");
rep.desc = _SYS_STR("Metroid Prime 2 ") + regstr;
std::string buildStr(buildInfo);
hecl::SystemStringConv buildView(buildStr);
rep.desc += _SYS_STR(" (") + buildView + _SYS_STR(")");
/* Iterate PAKs and build level options */
nod::Node& root = partition->getFSTRoot();
buildPaks(root, args, rep);
return true;
}
bool checkFromTrilogyDisc(nod::DiscBase& disc, const hecl::SystemString& regstr,
const std::vector<hecl::SystemString>& args, std::vector<ExtractReport>& reps) override {
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std::vector<hecl::SystemString> mp2args;
bool doExtract = false;
if (args.size()) {
/* Needs filter */
for (const hecl::SystemString& arg : args) {
hecl::SystemString lowerArg = arg;
hecl::ToLower(lowerArg);
if (!lowerArg.compare(0, 3, _SYS_STR("mp2"))) {
doExtract = true;
mp2args.reserve(args.size());
size_t slashPos = arg.find(_SYS_STR('/'));
if (slashPos == hecl::SystemString::npos)
slashPos = arg.find(_SYS_STR('\\'));
if (slashPos != hecl::SystemString::npos)
mp2args.emplace_back(hecl::SystemString(arg.begin() + slashPos + 1, arg.end()));
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}
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}
} else
doExtract = true;
if (!doExtract)
return false;
nod::IPartition* partition = disc.getDataPartition();
nod::Node& root = partition->getFSTRoot();
nod::Node::DirectoryIterator dolIt = root.find("rs5mp2_p.dol");
if (dolIt == root.end()) {
dolIt = root.find("rs5mp2jpn_p.dol");
if (dolIt == root.end())
return false;
}
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std::unique_ptr<uint8_t[]> dolBuf = dolIt->getBuf();
const char* buildInfo = (char*)memmem(dolBuf.get(), dolIt->size(), "MetroidBuildInfo", 16) + 19;
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/* Root Report */
ExtractReport& rep = reps.emplace_back();
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rep.name = _SYS_STR("MP2");
rep.desc = _SYS_STR("Metroid Prime 2 ") + regstr;
if (buildInfo) {
std::string buildStr(buildInfo);
hecl::SystemStringConv buildView(buildStr);
rep.desc += _SYS_STR(" (") + buildView + _SYS_STR(")");
}
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/* Iterate PAKs and build level options */
nod::Node::DirectoryIterator mp2It = root.find("MP2");
if (mp2It == root.end()) {
mp2It = root.find("MP2JPN");
if (mp2It == root.end())
return false;
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}
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buildPaks(*mp2It, mp2args, rep);
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return true;
}
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bool extractFromDisc(nod::DiscBase& disc, bool force, const hecl::MultiProgressPrinter& progress) override {
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nod::ExtractionContext ctx = {force, nullptr};
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m_workPath.makeDir();
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progress.startNewLine();
progress.print(_SYS_STR("Indexing PAKs"), _SYS_STR(""), 0.0);
m_pakRouter.build(m_paks,
[&progress](float factor) { progress.print(_SYS_STR("Indexing PAKs"), _SYS_STR(""), factor); });
progress.print(_SYS_STR("Indexing PAKs"), _SYS_STR(""), 1.0);
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hecl::ProjectPath outPath(m_project.getProjectWorkingPath(), _SYS_STR("out"));
outPath.makeDir();
disc.getDataPartition()->extractSysFiles(outPath.getAbsolutePath(), ctx);
hecl::ProjectPath mp2OutPath(outPath, m_standalone ? _SYS_STR("files") : _SYS_STR("files/MP2"));
mp2OutPath.makeDirChain(true);
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progress.startNewLine();
progress.print(_SYS_STR("MP2 Root"), _SYS_STR(""), 0.0);
int prog = 0;
ctx.progressCB = [&prog, &progress](std::string_view name, float) {
hecl::SystemStringConv nameView(name);
progress.print(_SYS_STR("MP2 Root"), nameView.c_str(), prog);
};
for (const nod::Node* node : m_nonPaks) {
node->extractToDirectory(mp2OutPath.getAbsolutePath(), ctx);
prog++;
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}
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progress.print(_SYS_STR("MP2 Root"), _SYS_STR(""), 1.0);
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hecl::ClientProcess process;
progress.startNewLine();
for (std::pair<const std::string, DNAMP2::PAKBridge*>& pair : m_orderedPaks) {
DNAMP2::PAKBridge& pak = *pair.second;
if (!pak.m_doExtract)
continue;
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auto name = pak.getName();
hecl::SystemStringConv sysName(name);
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auto pakName = hecl::SystemString(sysName.sys_str());
process.addLambdaTransaction([this, &progress, &pak, pakName, force](hecl::blender::Token& btok) {
int threadIdx = hecl::ClientProcess::GetThreadWorkerIdx();
m_pakRouter.extractResources(pak, force, btok,
[&progress, &pakName, threadIdx](const hecl::SystemChar* substr, float factor) {
progress.print(pakName.c_str(), substr, factor, threadIdx);
});
});
}
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process.waitUntilComplete();
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/* Generate Texture Cache containing meta data for every texture file */
hecl::ProjectPath noAramPath(m_project.getProjectWorkingPath(), _SYS_STR("MP2/URDE"));
TextureCache::Generate(m_pakRouter, m_project, noAramPath);
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return true;
}
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const hecl::Database::DataSpecEntry& getOriginalSpec() const override { return SpecEntMP2; }
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const hecl::Database::DataSpecEntry& getUnmodifiedSpec() const override { return SpecEntMP2ORIG; }
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hecl::ProjectPath getWorking(class UniqueID32& id) override { return m_pakRouter.getWorking(id); }
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bool checkPathPrefix(const hecl::ProjectPath& path) const override {
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return path.getRelativePath().compare(0, 4, _SYS_STR("MP2/")) == 0;
}
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bool validateYAMLDNAType(athena::io::IStreamReader& fp) const override {
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athena::io::YAMLDocReader reader;
yaml_parser_set_input(reader.getParser(), (yaml_read_handler_t*)athena::io::YAMLAthenaReader, &fp);
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return reader.ClassTypeOperation([](std::string_view classType) {
if (classType == DNAMP2::MLVL::DNAType())
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return true;
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else if (classType == DNAMP2::STRG::DNAType())
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return true;
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else if (classType == "ATBL")
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return true;
return false;
});
}
urde::SObjectTag buildTagFromPath(const hecl::ProjectPath& path) const override { return {}; }
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void cookMesh(const hecl::ProjectPath& out, const hecl::ProjectPath& in, BlendStream& ds, bool fast,
hecl::blender::Token& btok, FCookProgress progress) override {}
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void cookColMesh(const hecl::ProjectPath& out, const hecl::ProjectPath& in, BlendStream& ds, bool fast,
hecl::blender::Token& btok, FCookProgress progress) override {}
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void cookArmature(const hecl::ProjectPath& out, const hecl::ProjectPath& in, BlendStream& ds, bool fast,
hecl::blender::Token& btok, FCookProgress progress) override {}
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void cookPathMesh(const hecl::ProjectPath& out, const hecl::ProjectPath& in, BlendStream& ds, bool fast,
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hecl::blender::Token& btok, FCookProgress progress) override {
PathMesh mesh = ds.compilePathMesh();
ds.close();
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DNAMP2::PATH::Cook(out, in, mesh, btok);
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}
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void cookActor(const hecl::ProjectPath& out, const hecl::ProjectPath& in, BlendStream& ds, bool fast,
hecl::blender::Token& btok, FCookProgress progress) override {}
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void cookArea(const hecl::ProjectPath& out, const hecl::ProjectPath& in, BlendStream& ds, bool fast,
hecl::blender::Token& btok, FCookProgress progress) override {}
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void cookWorld(const hecl::ProjectPath& out, const hecl::ProjectPath& in, BlendStream& ds, bool fast,
hecl::blender::Token& btok, FCookProgress progress) override {}
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void cookGuiFrame(const hecl::ProjectPath& out, const hecl::ProjectPath& in, BlendStream& ds,
hecl::blender::Token& btok, FCookProgress progress) override {}
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void cookYAML(const hecl::ProjectPath& out, const hecl::ProjectPath& in, athena::io::IStreamReader& fin,
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hecl::blender::Token& btok, FCookProgress progress) override {}
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void flattenDependenciesYAML(athena::io::IStreamReader& fin, std::vector<hecl::ProjectPath>& pathsOut) override {}
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void flattenDependenciesANCSYAML(athena::io::IStreamReader& fin, std::vector<hecl::ProjectPath>& pathsOut,
int charIdx) override {}
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void cookAudioGroup(const hecl::ProjectPath& out, const hecl::ProjectPath& in, FCookProgress progress) override {
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DNAMP2::AGSC::Cook(in, out);
progress(_SYS_STR("Done"));
}
void cookSong(const hecl::ProjectPath& out, const hecl::ProjectPath& in, FCookProgress progress) override {
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DNAMP1::CSNG::Cook(in, out);
progress(_SYS_STR("Done"));
}
void cookMapArea(const hecl::ProjectPath& out, const hecl::ProjectPath& in, BlendStream& ds,
hecl::blender::Token& btok, FCookProgress progress) override {
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hecl::blender::MapArea mapa = ds.compileMapArea();
ds.close();
DNAMP2::MAPA::Cook(mapa, out);
progress(_SYS_STR("Done"));
}
void cookMapUniverse(const hecl::ProjectPath& out, const hecl::ProjectPath& in, BlendStream& ds,
hecl::blender::Token& btok, FCookProgress progress) override {
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hecl::blender::MapUniverse mapu = ds.compileMapUniverse();
ds.close();
DNAMAPU::MAPU::Cook(mapu, out);
progress(_SYS_STR("Done"));
}
};
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hecl::Database::DataSpecEntry SpecEntMP2(
_SYS_STR("MP2"sv), _SYS_STR("Data specification for original Metroid Prime 2 engine"sv), _SYS_STR(".pak"sv),
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[](hecl::Database::Project& project, hecl::Database::DataSpecTool) -> std::unique_ptr<hecl::Database::IDataSpec> {
return std::make_unique<SpecMP2>(&SpecEntMP2, project, false);
});
hecl::Database::DataSpecEntry SpecEntMP2PC = {
_SYS_STR("MP2-PC"sv), _SYS_STR("Data specification for PC-optimized Metroid Prime 2 engine"sv), _SYS_STR(".upak"sv),
[](hecl::Database::Project& project,
hecl::Database::DataSpecTool tool) -> std::unique_ptr<hecl::Database::IDataSpec> {
if (tool != hecl::Database::DataSpecTool::Extract)
return std::make_unique<SpecMP2>(&SpecEntMP2PC, project, true);
return {};
}};
hecl::Database::DataSpecEntry SpecEntMP2ORIG = {
_SYS_STR("MP2-ORIG"sv), _SYS_STR("Data specification for unmodified Metroid Prime 2 resources"sv), {}, {}};
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} // namespace DataSpec