metaforce/DataSpec/DNACommon/PAK.cpp

777 lines
27 KiB
C++

#include "PAK.hpp"
#include "../DNAMP1/DNAMP1.hpp"
#include "../DNAMP2/DNAMP2.hpp"
#include "../DNAMP3/DNAMP3.hpp"
namespace DataSpec
{
template <class PAKBRIDGE>
void UniqueResult::checkEntry(const PAKBRIDGE& pakBridge, const typename PAKBRIDGE::PAKType::Entry& entry)
{
UniqueResult::Type resultType = UniqueResult::Type::NotFound;
bool foundOneLayer = false;
const hecl::SystemString* levelName = nullptr;
typename PAKBRIDGE::PAKType::IDType levelId;
typename PAKBRIDGE::PAKType::IDType areaId;
unsigned layerIdx;
for (const auto& lpair : pakBridge.m_levelDeps)
{
if (entry.id == lpair.first)
{
levelName = &lpair.second.name;
resultType = UniqueResult::Type::Level;
break;
}
for (const auto& pair : lpair.second.areas)
{
unsigned l=0;
for (const auto& layer : pair.second.layers)
{
if (layer.resources.find(entry.id) != layer.resources.end())
{
if (foundOneLayer)
{
if (areaId == pair.first)
{
resultType = UniqueResult::Type::Area;
}
else if (levelId == lpair.first)
{
resultType = UniqueResult::Type::Level;
break;
}
else
{
m_type = UniqueResult::Type::Pak;
return;
}
continue;
}
else
resultType = UniqueResult::Type::Layer;
levelName = &lpair.second.name;
levelId = lpair.first;
areaId = pair.first;
layerIdx = l;
foundOneLayer = true;
}
++l;
}
if (pair.second.resources.find(entry.id) != pair.second.resources.end())
{
if (foundOneLayer)
{
if (areaId == pair.first)
{
resultType = UniqueResult::Type::Area;
}
else if (levelId == lpair.first)
{
resultType = UniqueResult::Type::Level;
break;
}
else
{
m_type = UniqueResult::Type::Pak;
return;
}
continue;
}
else
resultType = UniqueResult::Type::Area;
levelName = &lpair.second.name;
levelId = lpair.first;
areaId = pair.first;
foundOneLayer = true;
}
}
}
m_type = resultType;
m_levelName = levelName;
if (resultType == UniqueResult::Type::Layer || resultType == UniqueResult::Type::Area)
{
const typename PAKBRIDGE::Level::Area& area = pakBridge.m_levelDeps.at(levelId).areas.at(areaId);
m_areaName = &area.name;
if (resultType == UniqueResult::Type::Layer)
{
const typename PAKBRIDGE::Level::Area::Layer& layer = area.layers[layerIdx];
m_layerName = &layer.name;
}
}
}
template void UniqueResult::checkEntry(const DNAMP1::PAKBridge& pakBridge,
const DNAMP1::PAKBridge::PAKType::Entry& entry);
template void UniqueResult::checkEntry(const DNAMP2::PAKBridge& pakBridge,
const DNAMP2::PAKBridge::PAKType::Entry& entry);
template void UniqueResult::checkEntry(const DNAMP3::PAKBridge& pakBridge,
const DNAMP3::PAKBridge::PAKType::Entry& entry);
hecl::ProjectPath UniqueResult::uniquePath(const hecl::ProjectPath& pakPath) const
{
if (m_type == Type::Pak)
return pakPath;
hecl::ProjectPath levelDir;
if (m_levelName)
levelDir.assign(pakPath, *m_levelName);
else
levelDir = pakPath;
if (m_type == Type::Area)
{
hecl::ProjectPath areaDir(levelDir, *m_areaName);
return areaDir;
}
else if (m_type == Type::Layer)
{
hecl::ProjectPath areaDir(levelDir, *m_areaName);
hecl::ProjectPath layerDir(areaDir, *m_layerName);
return layerDir;
}
return levelDir;
}
template <class BRIDGETYPE>
void PAKRouter<BRIDGETYPE>::build(std::vector<BRIDGETYPE>& bridges, std::function<void(float)> progress)
{
m_bridges = &bridges;
m_bridgePaths.clear();
m_uniqueEntries.clear();
m_sharedEntries.clear();
m_cmdlRigs.clear();
size_t count = 0;
float bridgesSz = bridges.size();
/* Route entries unique/shared per-pak */
size_t bridgeIdx = 0;
for (BRIDGETYPE& bridge : bridges)
{
const std::string& name = bridge.getName();
hecl::SystemStringView sysName(name);
hecl::SystemString::const_iterator extit = sysName.sys_str().end() - 4;
hecl::SystemString baseName(sysName.sys_str().begin(), extit);
m_bridgePaths.emplace_back(std::make_pair(hecl::ProjectPath(m_gameWorking, baseName),
hecl::ProjectPath(m_gameCooked, baseName)));
/* Index this PAK */
bridge.build();
/* Add to global entry lookup */
const typename BRIDGETYPE::PAKType& pak = bridge.getPAK();
for (const auto& entry : pak.m_idMap)
{
if (!pak.m_noShare)
{
auto sSearch = m_sharedEntries.find(entry.first);
if (sSearch != m_sharedEntries.end())
continue;
auto uSearch = m_uniqueEntries.find(entry.first);
if (uSearch != m_uniqueEntries.end())
{
m_uniqueEntries.erase(uSearch);
m_sharedEntries[entry.first] = std::make_pair(bridgeIdx, entry.second);
}
else
m_uniqueEntries[entry.first] = std::make_pair(bridgeIdx, entry.second);
}
else
m_uniqueEntries[entry.first] = std::make_pair(bridgeIdx, entry.second);
}
/* Add RigPairs to global map */
bridge.addCMDLRigPairs(*this, m_cmdlRigs, m_cskrCinfToCharacter);
progress(++count / bridgesSz);
++bridgeIdx;
}
/* Add named resources to catalog YAML files */
for (BRIDGETYPE& bridge : bridges)
{
athena::io::YAMLDocWriter catalogWriter(nullptr);
enterPAKBridge(bridge);
/* Add MAPA transforms to global map */
bridge.addMAPATransforms(*this, m_mapaTransforms, m_overrideEntries);
const typename BRIDGETYPE::PAKType& pak = bridge.getPAK();
for (const auto& namedEntry : pak.m_nameEntries)
{
if (namedEntry.name == "holo_cinf")
continue; /* Problematic corner case */
catalogWriter.enterSubRecord(namedEntry.name.c_str());
hecl::ProjectPath working = getWorking(namedEntry.id);
if (working.getAuxInfoUTF8().size())
{
catalogWriter.enterSubVector(nullptr);
catalogWriter.writeString(nullptr, working.getRelativePathUTF8().c_str());
catalogWriter.writeString(nullptr, working.getAuxInfoUTF8().c_str());
catalogWriter.leaveSubVector();
}
else
catalogWriter.writeString(nullptr, working.getRelativePathUTF8().c_str());
catalogWriter.leaveSubRecord();
}
/* Write catalog */
intptr_t curBridgeIdx = reinterpret_cast<intptr_t>(m_curBridgeIdx.get());
const hecl::ProjectPath& pakPath = m_bridgePaths[curBridgeIdx].first;
pakPath.makeDirChain(true);
hecl::SystemString catalogPath = hecl::ProjectPath(pakPath, "!catalog.yaml").getAbsolutePath();
athena::io::FileWriter writer(catalogPath);
catalogWriter.finish(&writer);
}
}
template <class BRIDGETYPE>
void PAKRouter<BRIDGETYPE>::enterPAKBridge(const BRIDGETYPE& pakBridge)
{
g_PakRouter.reset(this);
auto pit = m_bridgePaths.begin();
size_t bridgeIdx = 0;
for (const BRIDGETYPE& bridge : *m_bridges)
{
if (&bridge == &pakBridge)
{
m_pak.reset(&pakBridge.getPAK());
m_node.reset(&pakBridge.getNode());
m_curBridgeIdx.reset(reinterpret_cast<void*>(bridgeIdx));
return;
}
++pit;
++bridgeIdx;
}
LogDNACommon.report(logvisor::Fatal,
"PAKBridge provided to PAKRouter::enterPAKBridge() was not part of build()");
}
template <class BRIDGETYPE>
hecl::ProjectPath PAKRouter<BRIDGETYPE>::getCharacterWorking(const EntryType* entry) const
{
auto characterSearch = m_cskrCinfToCharacter.find(entry->id);
if (characterSearch != m_cskrCinfToCharacter.cend())
{
hecl::ProjectPath characterPath = getWorking(characterSearch->second.first);
if (entry->type == FOURCC('EVNT'))
{
hecl::SystemStringView wideStr(characterSearch->second.second);
return characterPath.getWithExtension((_S(".") + wideStr.sys_str()).c_str(), true);
}
return characterPath.ensureAuxInfo(characterSearch->second.second);
}
return {};
}
template <class BRIDGETYPE>
hecl::ProjectPath PAKRouter<BRIDGETYPE>::getWorking(const EntryType* entry,
const ResExtractor<BRIDGETYPE>& extractor) const
{
if (!entry)
return hecl::ProjectPath();
auto overrideSearch = m_overrideEntries.find(entry->id);
if (overrideSearch != m_overrideEntries.end())
return overrideSearch->second;
const PAKType* pak = m_pak.get();
intptr_t curBridgeIdx = reinterpret_cast<intptr_t>(m_curBridgeIdx.get());
if (pak && pak->m_noShare)
{
const EntryType* singleSearch = pak->lookupEntry(entry->id);
if (singleSearch)
{
const hecl::ProjectPath& pakPath = m_bridgePaths[curBridgeIdx].first;
#if HECL_UCS2
hecl::SystemString entName = hecl::UTF8ToWide(getBestEntryName(*entry));
#else
hecl::SystemString entName = getBestEntryName(*entry);
#endif
hecl::SystemString auxInfo;
if (extractor.fileExts[0] && !extractor.fileExts[1])
entName += extractor.fileExts[0];
else if (extractor.fileExts[0])
entName += _S(".*");
else if (hecl::ProjectPath chWork = getCharacterWorking(entry))
{
entName = chWork.getLastComponent();
auxInfo = chWork.getAuxInfo();
}
return hecl::ProjectPath(pakPath, entName).ensureAuxInfo(auxInfo);
}
}
auto uniqueSearch = m_uniqueEntries.find(entry->id);
if (uniqueSearch != m_uniqueEntries.end())
{
const BRIDGETYPE& bridge = m_bridges->at(uniqueSearch->second.first);
const hecl::ProjectPath& pakPath = m_bridgePaths[uniqueSearch->second.first].first;
#if HECL_UCS2
hecl::SystemString entName = hecl::UTF8ToWide(getBestEntryName(*entry));
#else
hecl::SystemString entName = getBestEntryName(*entry);
#endif
hecl::SystemString auxInfo;
if (extractor.fileExts[0] && !extractor.fileExts[1])
entName += extractor.fileExts[0];
else if (extractor.fileExts[0])
entName += _S(".*");
else if (hecl::ProjectPath chWork = getCharacterWorking(entry))
{
entName = chWork.getLastComponent();
auxInfo = chWork.getAuxInfo();
}
if (bridge.getPAK().m_noShare)
{
return hecl::ProjectPath(pakPath, entName).ensureAuxInfo(auxInfo);
}
else
{
hecl::ProjectPath uniquePath = entry->unique.uniquePath(pakPath);
return hecl::ProjectPath(uniquePath, entName).ensureAuxInfo(auxInfo);
}
}
auto sharedSearch = m_sharedEntries.find(entry->id);
if (sharedSearch != m_sharedEntries.end())
{
#if HECL_UCS2
hecl::SystemString entBase = hecl::UTF8ToWide(getBestEntryName(*entry));
#else
hecl::SystemString entBase = getBestEntryName(*entry);
#endif
hecl::SystemString auxInfo;
hecl::SystemString entName = entBase;
if (extractor.fileExts[0] && !extractor.fileExts[1])
entName += extractor.fileExts[0];
else if (extractor.fileExts[0])
entName += _S(".*");
else if (hecl::ProjectPath chWork = getCharacterWorking(entry))
{
entName = chWork.getLastComponent();
auxInfo = chWork.getAuxInfo();
}
hecl::ProjectPath sharedPath(m_sharedWorking, entName);
return sharedPath.ensureAuxInfo(auxInfo);
}
LogDNACommon.report(logvisor::Fatal, "Unable to find entry %s", entry->id.toString().c_str());
return hecl::ProjectPath();
}
template <class BRIDGETYPE>
hecl::ProjectPath PAKRouter<BRIDGETYPE>::getWorking(const EntryType* entry) const
{
if (!entry)
return hecl::ProjectPath();
return getWorking(entry, BRIDGETYPE::LookupExtractor(*m_pak.get(), *entry));
}
template <class BRIDGETYPE>
hecl::ProjectPath PAKRouter<BRIDGETYPE>::getWorking(const IDType& id, bool silenceWarnings) const
{
return getWorking(lookupEntry(id, nullptr, silenceWarnings, false));
}
template <class BRIDGETYPE>
hecl::ProjectPath PAKRouter<BRIDGETYPE>::getCooked(const EntryType* entry) const
{
if (!entry)
return hecl::ProjectPath();
auto overrideSearch = m_overrideEntries.find(entry->id);
if (overrideSearch != m_overrideEntries.end())
{
return overrideSearch->second.getCookedPath(
*m_dataSpec.overrideDataSpec(overrideSearch->second,
m_dataSpec.getDataSpecEntry(),
hecl::SharedBlenderToken));
}
const PAKType* pak = m_pak.get();
intptr_t curBridgeIdx = reinterpret_cast<intptr_t>(m_curBridgeIdx.get());
if (pak && pak->m_noShare)
{
const EntryType* singleSearch = pak->lookupEntry(entry->id);
if (singleSearch)
{
const hecl::ProjectPath& pakPath = m_bridgePaths[curBridgeIdx].second;
return hecl::ProjectPath(pakPath, getBestEntryName(*entry));
}
}
auto uniqueSearch = m_uniqueEntries.find(entry->id);
if (uniqueSearch != m_uniqueEntries.end())
{
const BRIDGETYPE& bridge = m_bridges->at(uniqueSearch->second.first);
const hecl::ProjectPath& pakPath = m_bridgePaths[uniqueSearch->second.first].second;
if (bridge.getPAK().m_noShare)
{
return hecl::ProjectPath(pakPath, getBestEntryName(*entry));
}
else
{
hecl::ProjectPath uniquePath = entry->unique.uniquePath(pakPath);
return hecl::ProjectPath(uniquePath, getBestEntryName(*entry));
}
}
auto sharedSearch = m_sharedEntries.find(entry->id);
if (sharedSearch != m_sharedEntries.end())
{
return hecl::ProjectPath(m_sharedCooked, getBestEntryName(*entry));
}
LogDNACommon.report(logvisor::Fatal, "Unable to find entry %s", entry->id.toString().c_str());
return hecl::ProjectPath();
}
template <class BRIDGETYPE>
hecl::ProjectPath PAKRouter<BRIDGETYPE>::getCooked(const IDType& id, bool silenceWarnings) const
{
return getCooked(lookupEntry(id, nullptr, silenceWarnings, false));
}
template <class BRIDGETYPE>
hecl::SystemString PAKRouter<BRIDGETYPE>::getResourceRelativePath(const EntryType& a, const IDType& b) const
{
const PAKType* pak = m_pak.get();
if (!pak)
LogDNACommon.report(logvisor::Fatal,
"PAKRouter::enterPAKBridge() must be called before PAKRouter::getResourceRelativePath()");
const typename BRIDGETYPE::PAKType::Entry* be = lookupEntry(b);
if (!be)
return hecl::SystemString();
hecl::ProjectPath aPath = getWorking(&a, BRIDGETYPE::LookupExtractor(*pak, a));
hecl::SystemString ret;
for (int i=0 ; i<aPath.levelCount() ; ++i)
ret += _S("../");
hecl::ProjectPath bPath = getWorking(be, BRIDGETYPE::LookupExtractor(*pak, *be));
ret += bPath.getRelativePath();
return ret;
}
template <class BRIDGETYPE>
std::string PAKRouter<BRIDGETYPE>::getBestEntryName(const EntryType& entry, bool stdOverride) const
{
std::string name;
for (const BRIDGETYPE& bridge : *m_bridges)
{
const typename BRIDGETYPE::PAKType& pak = bridge.getPAK();
if (stdOverride && isShared())
{
if (entry.type == FOURCC('MLVL'))
return "!world";
else if (entry.type == FOURCC('MREA'))
return "!area";
else if (entry.type == FOURCC('MAPA'))
return "!map";
}
bool named;
name = pak.bestEntryName(entry, named);
if (named)
return name;
}
return name;
}
template <class BRIDGETYPE>
std::string PAKRouter<BRIDGETYPE>::getBestEntryName(const IDType& entry, bool stdOverride) const
{
std::string name;
for (const BRIDGETYPE& bridge : *m_bridges)
{
const typename BRIDGETYPE::PAKType& pak = bridge.getPAK();
const typename BRIDGETYPE::PAKType::Entry* e = pak.lookupEntry(entry);
if (!e)
continue;
if (stdOverride && isShared())
{
if (e->type == FOURCC('MLVL'))
return "!world";
else if (e->type == FOURCC('MREA'))
return "!area";
else if (e->type == FOURCC('MAPA'))
return "!map";
}
bool named;
name = pak.bestEntryName(*e, named);
if (named)
return name;
}
return name;
}
template <class BRIDGETYPE>
bool PAKRouter<BRIDGETYPE>::extractResources(const BRIDGETYPE& pakBridge, bool force, hecl::BlenderToken& btok,
std::function<void(const hecl::SystemChar*, float)> progress)
{
enterPAKBridge(pakBridge);
size_t count = 0;
size_t sz = m_pak->m_idMap.size();
float fsz = sz;
for (unsigned w=0 ; count<sz ; ++w)
{
for (const auto& item : m_pak->m_firstEntries)
{
ResExtractor<BRIDGETYPE> extractor = BRIDGETYPE::LookupExtractor(*m_pak.get(), *item);
if (extractor.weight != w)
continue;
std::string bestName = getBestEntryName(*item, false);
hecl::SystemStringView bestNameView(bestName);
float thisFac = ++count / fsz;
progress(bestNameView.c_str(), thisFac);
const nod::Node* node = m_node.get();
hecl::ProjectPath working = getWorking(item, extractor);
working.makeDirChain(false);
hecl::ResourceLock resLk(working);
if (!resLk)
continue;
/* Extract to unmodified directory */
hecl::ProjectPath cooked = working.getCookedPath(m_dataSpec.getUnmodifiedSpec());
if (force || cooked.isNone())
{
cooked.makeDirChain(false);
PAKEntryReadStream s = item->beginReadStream(*node);
FILE* fout = hecl::Fopen(cooked.getAbsolutePath().c_str(), _S("wb"));
fwrite(s.data(), 1, s.length(), fout);
fclose(fout);
}
if (extractor.func_a) /* Doesn't need PAKRouter access */
{
if (force || !extractor.IsFullyExtracted(working))
{
PAKEntryReadStream s = item->beginReadStream(*node);
extractor.func_a(s, working);
}
}
else if (extractor.func_b) /* Needs PAKRouter access */
{
if (force || !extractor.IsFullyExtracted(working))
{
PAKEntryReadStream s = item->beginReadStream(*node);
extractor.func_b(m_dataSpec, s, working, *this, *item, force, btok,
[&progress, thisFac](const hecl::SystemChar* update)
{
progress(update, thisFac);
});
}
}
}
}
return true;
}
template <class BRIDGETYPE>
const typename BRIDGETYPE::PAKType::Entry* PAKRouter<BRIDGETYPE>::lookupEntry(const IDType& entry,
const nod::Node** nodeOut,
bool silenceWarnings,
bool currentPAK) const
{
if (!entry)
return nullptr;
if (!m_bridges)
LogDNACommon.report(logvisor::Fatal,
"PAKRouter::build() must be called before PAKRouter::lookupEntry()");
const PAKType* pak = m_pak.get();
const nod::Node* node = m_node.get();
if (pak)
{
const EntryType* ent = pak->lookupEntry(entry);
if (ent)
{
if (nodeOut)
*nodeOut = node;
return ent;
}
}
if (currentPAK)
{
#ifndef NDEBUG
if (!silenceWarnings)
LogDNACommon.report(logvisor::Warning,
"unable to find PAK entry %s in current PAK", entry.toString().c_str());
#endif
return nullptr;
}
for (const BRIDGETYPE& bridge : *m_bridges)
{
const PAKType& pak = bridge.getPAK();
const EntryType* ent = pak.lookupEntry(entry);
if (ent)
{
if (nodeOut)
*nodeOut = &bridge.getNode();
return ent;
}
}
#ifndef NDEBUG
if (!silenceWarnings)
LogDNACommon.report(logvisor::Warning,
"unable to find PAK entry %s", entry.toString().c_str());
#endif
if (nodeOut)
*nodeOut = nullptr;
return nullptr;
}
template <class BRIDGETYPE>
const typename PAKRouter<BRIDGETYPE>::RigPair* PAKRouter<BRIDGETYPE>::lookupCMDLRigPair(const IDType& id) const
{
auto search = m_cmdlRigs.find(id);
if (search == m_cmdlRigs.end())
return nullptr;
return &search->second;
}
template <class BRIDGETYPE>
const zeus::CMatrix4f* PAKRouter<BRIDGETYPE>::lookupMAPATransform(const IDType& id) const
{
auto search = m_mapaTransforms.find(id);
if (search == m_mapaTransforms.end())
return nullptr;
return &search->second;
}
template <class BRIDGETYPE>
hecl::ProjectPath PAKRouter<BRIDGETYPE>::getAreaLayerWorking(const IDType& areaId, int layerIdx) const
{
if (!m_bridges)
LogDNACommon.report(logvisor::Fatal,
"PAKRouter::build() must be called before PAKRouter::getAreaLayerWorking()");
auto bridgePathIt = m_bridgePaths.cbegin();
for (const BRIDGETYPE& bridge : *m_bridges)
{
for (const auto& level : bridge.m_levelDeps)
for (const auto& area : level.second.areas)
if (area.first == areaId)
{
hecl::ProjectPath levelPath(bridgePathIt->first, level.second.name);
hecl::ProjectPath areaPath(levelPath, area.second.name);
if (layerIdx < 0)
return areaPath;
return hecl::ProjectPath(areaPath, area.second.layers.at(layerIdx).name);
}
++bridgePathIt;
}
return hecl::ProjectPath();
}
template <class BRIDGETYPE>
hecl::ProjectPath PAKRouter<BRIDGETYPE>::getAreaLayerWorking(const IDType& areaId, int layerIdx, bool& activeOut) const
{
activeOut = false;
if (!m_bridges)
LogDNACommon.report(logvisor::Fatal,
"PAKRouter::build() must be called before PAKRouter::getAreaLayerWorking()");
auto bridgePathIt = m_bridgePaths.cbegin();
for (const BRIDGETYPE& bridge : *m_bridges)
{
for (const auto& level : bridge.m_levelDeps)
for (const auto& area : level.second.areas)
if (area.first == areaId)
{
hecl::ProjectPath levelPath(bridgePathIt->first, level.second.name);
hecl::ProjectPath areaPath(levelPath, area.second.name);
if (layerIdx < 0)
return areaPath;
const typename Level<IDType>::Area::Layer& layer = area.second.layers.at(layerIdx);
activeOut = layer.active;
return hecl::ProjectPath(areaPath, layer.name);
}
++bridgePathIt;
}
return hecl::ProjectPath();
}
template <class BRIDGETYPE>
hecl::ProjectPath PAKRouter<BRIDGETYPE>::getAreaLayerCooked(const IDType& areaId, int layerIdx) const
{
if (!m_bridges)
LogDNACommon.report(logvisor::Fatal,
"PAKRouter::build() must be called before PAKRouter::getAreaLayerCooked()");
auto bridgePathIt = m_bridgePaths.cbegin();
for (const BRIDGETYPE& bridge : *m_bridges)
{
for (const auto& level : bridge.m_levelDeps)
for (const auto& area : level.second.areas)
if (area.first == areaId)
{
hecl::ProjectPath levelPath(bridgePathIt->second, level.second.name);
hecl::ProjectPath areaPath(levelPath, area.second.name);
if (layerIdx < 0)
return areaPath;
return hecl::ProjectPath(areaPath, area.second.layers.at(layerIdx).name);
}
++bridgePathIt;
}
return hecl::ProjectPath();
}
template <class BRIDGETYPE>
hecl::ProjectPath PAKRouter<BRIDGETYPE>::getAreaLayerCooked(const IDType& areaId, int layerIdx, bool& activeOut) const
{
activeOut = false;
if (!m_bridges)
LogDNACommon.report(logvisor::Fatal,
"PAKRouter::build() must be called before PAKRouter::getAreaLayerCooked()");
auto bridgePathIt = m_bridgePaths.cbegin();
for (const BRIDGETYPE& bridge : *m_bridges)
{
for (const auto& level : bridge.m_levelDeps)
for (const auto& area : level.second.areas)
if (area.first == areaId)
{
hecl::ProjectPath levelPath(bridgePathIt->second, level.second.name);
hecl::ProjectPath areaPath(levelPath, area.second.name);
if (layerIdx < 0)
return areaPath;
const typename Level<IDType>::Area::Layer& layer = area.second.layers.at(layerIdx);
activeOut = layer.active;
return hecl::ProjectPath(areaPath, layer.name);
}
++bridgePathIt;
}
return hecl::ProjectPath();
}
template <class BRIDGETYPE>
void PAKRouter<BRIDGETYPE>::enumerateResources(const std::function<bool(const EntryType*)>& func)
{
if (!m_bridges)
LogDNACommon.report(logvisor::Fatal,
"PAKRouter::build() must be called before PAKRouter::enumerateResources()");
for (const auto& entryPair : m_uniqueEntries)
if (!func(entryPair.second.second))
return;
for (const auto& entryPair : m_sharedEntries)
if (!func(entryPair.second.second))
return;
}
template class PAKRouter<DNAMP1::PAKBridge>;
template class PAKRouter<DNAMP2::PAKBridge>;
template class PAKRouter<DNAMP3::PAKBridge>;
}