metaforce/DataSpec/DNAMP3/DNAMP3.cpp

309 lines
11 KiB
C++

#include <set>
#define NOD_ATHENA 1
#include "DNAMP3.hpp"
#include "STRG.hpp"
#include "MLVL.hpp"
#include "CAUD.hpp"
#include "CMDL.hpp"
#include "CHAR.hpp"
#include "MREA.hpp"
#include "MAPA.hpp"
#include "SAVW.hpp"
#include "HINT.hpp"
#include "../DNACommon/TXTR.hpp"
#include "../DNACommon/FONT.hpp"
#include "../DNACommon/FSM2.hpp"
#include "../DNACommon/DGRP.hpp"
#include "Runtime/GCNTypes.hpp"
namespace DataSpec
{
namespace DNAMP3
{
logvisor::Module Log("urde::DNAMP3");
static bool GetNoShare(const std::string& name)
{
std::string lowerName = name;
std::transform(lowerName.begin(), lowerName.end(), lowerName.begin(), tolower);
if (!lowerName.compare(0, 7, "metroid"))
return false;
return true;
}
PAKBridge::PAKBridge(hecl::Database::Project& project,
const nod::Node& node,
bool doExtract)
: m_project(project), m_node(node), m_pak(GetNoShare(node.getName())), m_doExtract(doExtract)
{
nod::AthenaPartReadStream rs(node.beginReadStream());
m_pak.read(rs);
/* Append Level String */
std::set<hecl::SystemString, hecl::CaseInsensitiveCompare> uniq;
for (PAK::Entry& entry : m_pak.m_entries)
{
if (entry.type == FOURCC('MLVL'))
{
PAKEntryReadStream rs = entry.beginReadStream(m_node);
MLVL mlvl;
mlvl.read(rs);
const PAK::Entry* nameEnt = m_pak.lookupEntry(mlvl.worldNameId);
if (nameEnt)
{
PAKEntryReadStream rs = nameEnt->beginReadStream(m_node);
STRG mlvlName;
mlvlName.read(rs);
uniq.insert(mlvlName.getSystemString(FOURCC('ENGL'), 0));
}
}
}
bool comma = false;
for (const hecl::SystemString& str : uniq)
{
if (comma)
m_levelString += _S(", ");
comma = true;
m_levelString += str;
}
}
static hecl::SystemString LayerName(const std::string& name)
{
hecl::SystemString ret = hecl::SystemStringView(name).sys_str();
for (auto& ch : ret)
if (ch == _S('/') || ch == _S('\\'))
ch = _S('-');
return ret;
}
void PAKBridge::build()
{
/* First pass: build per-area/per-layer dependency map */
for (const PAK::Entry& entry : m_pak.m_entries)
{
if (entry.type == FOURCC('MLVL'))
{
Level& level = m_levelDeps[entry.id];
MLVL mlvl;
{
PAKEntryReadStream rs = entry.beginReadStream(m_node);
mlvl.read(rs);
}
bool named;
std::string bestName = m_pak.bestEntryName(entry, named);
level.name = hecl::SystemStringView(bestName).sys_str();
level.areas.reserve(mlvl.areaCount);
unsigned layerIdx = 0;
/* Make MAPW available to lookup MAPAs */
const PAK::Entry* worldMapEnt = m_pak.lookupEntry(mlvl.worldMap);
std::vector<UniqueID64> mapw;
if (worldMapEnt)
{
PAKEntryReadStream rs = worldMapEnt->beginReadStream(m_node);
rs.seek(8, athena::Current);
atUint32 areaCount = rs.readUint32Big();
mapw.reserve(areaCount);
for (atUint32 i=0 ; i<areaCount ; ++i)
mapw.emplace_back(rs);
}
/* Index areas */
unsigned ai = 0;
auto layerFlagsIt = mlvl.layerFlags.begin();
for (const MLVL::Area& area : mlvl.areas)
{
Level::Area& areaDeps = level.areas[area.areaMREAId];
const PAK::Entry* areaNameEnt = m_pak.lookupEntry(area.areaNameId);
if (areaNameEnt)
{
STRG areaName;
{
PAKEntryReadStream rs = areaNameEnt->beginReadStream(m_node);
areaName.read(rs);
}
areaDeps.name = areaName.getSystemString(FOURCC('ENGL'), 0);
/* Trim possible trailing whitespace */
areaDeps.name = hecl::StringUtils::TrimWhitespace(areaDeps.name);
}
if (areaDeps.name.empty())
{
areaDeps.name = hecl::SystemStringView(area.internalAreaName).sys_str();
if (areaDeps.name.empty())
{
std::string idStr = area.areaMREAId.toString();
areaDeps.name = _S("MREA_") + hecl::SystemStringView(idStr).sys_str();
}
}
hecl::SystemChar num[16];
hecl::SNPrintf(num, 16, _S("%02u "), ai);
areaDeps.name = num + areaDeps.name;
const MLVL::LayerFlags& layerFlags = *layerFlagsIt++;
if (layerFlags.layerCount)
{
areaDeps.layers.reserve(layerFlags.layerCount);
for (unsigned l=1 ; l<layerFlags.layerCount ; ++l)
{
areaDeps.layers.emplace_back();
Level::Area::Layer& layer = areaDeps.layers.back();
layer.name = LayerName(mlvl.layerNames[layerIdx++]);
layer.active = layerFlags.flags >> (l-1) & 0x1;
/* Trim possible trailing whitespace */
#if HECL_UCS2
while (layer.name.size() && iswspace(layer.name.back()))
layer.name.pop_back();
#else
while (layer.name.size() && isspace(layer.name.back()))
layer.name.pop_back();
#endif
hecl::SNPrintf(num, 16, _S("%02u "), l-1);
layer.name = num + layer.name;
}
}
/* Load area DEPS */
const PAK::Entry* areaEntry = m_pak.lookupEntry(area.areaMREAId);
if (areaEntry)
{
PAKEntryReadStream ars = areaEntry->beginReadStream(m_node);
MREA::ExtractLayerDeps(ars, areaDeps);
}
areaDeps.resources.emplace(area.areaMREAId);
if (mapw.size() > ai)
areaDeps.resources.emplace(mapw[ai]);
++ai;
}
}
}
/* Second pass: cross-compare uniqueness */
for (PAK::Entry& entry : m_pak.m_entries)
{
entry.unique.checkEntry(*this, entry);
}
}
void PAKBridge::addCMDLRigPairs(PAKRouter<PAKBridge>& pakRouter,
std::unordered_map<UniqueID64, std::pair<UniqueID64, UniqueID64>>& addTo,
std::unordered_map<UniqueID64, std::pair<UniqueID64, std::string>>& cskrCinfToChar) const
{
for (const std::pair<UniqueID64, PAK::Entry*>& entry : m_pak.m_idMap)
{
if (entry.second->type == FOURCC('CHAR'))
{
PAKEntryReadStream rs = entry.second->beginReadStream(m_node);
CHAR aChar;
aChar.read(rs);
const CHAR::CharacterInfo& ci = aChar.characterInfo;
addTo[ci.cmdl] = std::make_pair(ci.cskr, ci.cinf);
cskrCinfToChar[ci.cskr] = std::make_pair(entry.second->id, hecl::Format("%s.CSKR", ci.name.c_str()));
cskrCinfToChar[ci.cinf] = std::make_pair(entry.second->id, hecl::Format("CINF_%" PRIX64 ".CINF", ci.cinf.toUint64()));
for (const CHAR::CharacterInfo::Overlay& overlay : ci.overlays)
{
addTo[overlay.cmdl] = std::make_pair(overlay.cskr, ci.cinf);
cskrCinfToChar[overlay.cskr] = std::make_pair(entry.second->id,
hecl::Format("%s.%s.CSKR", ci.name.c_str(), overlay.type.toString().c_str()));
}
}
}
}
static const atVec4f BottomRow = {0.f, 0.f, 0.f, 1.f};
void PAKBridge::addMAPATransforms(PAKRouter<PAKBridge>& pakRouter,
std::unordered_map<UniqueID64, zeus::CMatrix4f>& addTo,
std::unordered_map<UniqueID64, hecl::ProjectPath>& pathOverrides) const
{
for (const std::pair<UniqueID64, PAK::Entry*>& entry : m_pak.m_idMap)
{
if (entry.second->type == FOURCC('MLVL'))
{
MLVL mlvl;
{
PAKEntryReadStream rs = entry.second->beginReadStream(m_node);
mlvl.read(rs);
}
hecl::ProjectPath mlvlDirPath = pakRouter.getWorking(entry.second).getParentPath();
if (mlvl.worldNameId)
pathOverrides[mlvl.worldNameId] = hecl::ProjectPath(mlvlDirPath, _S("!name.yaml"));
for (const MLVL::Area& area : mlvl.areas)
{
hecl::ProjectPath areaDirPath = pakRouter.getWorking(area.areaMREAId).getParentPath();
if (area.areaNameId)
pathOverrides[area.areaNameId] = hecl::ProjectPath(areaDirPath, _S("!name.yaml"));
}
if (mlvl.worldMap)
{
const nod::Node* mapNode;
const PAK::Entry* mapEntry = pakRouter.lookupEntry(mlvl.worldMap, &mapNode);
if (mapEntry)
{
PAKEntryReadStream rs = mapEntry->beginReadStream(*mapNode);
u32 magic = rs.readUint32Big();
if (magic == 0xDEADF00D)
{
rs.readUint32Big();
u32 count = rs.readUint32Big();
for (u32 i=0 ; i<count && i<mlvl.areas.size() ; ++i)
{
MLVL::Area& areaData = mlvl.areas[i];
UniqueID64 mapaId;
mapaId.read(rs);
addTo[mapaId] = zeus::CMatrix4f(
areaData.transformMtx[0],
areaData.transformMtx[1],
areaData.transformMtx[2],
BottomRow).transposed();
}
}
}
}
}
}
}
ResExtractor<PAKBridge> PAKBridge::LookupExtractor(const PAK& pak, const PAK::Entry& entry)
{
switch (entry.type)
{
case SBIG('CAUD'):
return {CAUD::Extract, {_S(".yaml")}};
case SBIG('STRG'):
return {STRG::Extract, {_S(".yaml")}};
case SBIG('TXTR'):
return {TXTR::Extract, {_S(".png")}};
case SBIG('SAVW'):
return {SAVWCommon::ExtractSAVW<SAVW>, {_S(".yaml")}};
case SBIG('HINT'):
return {HINT::Extract, {_S(".yaml")}};
case SBIG('CMDL'):
return {CMDL::Extract, {_S(".blend")}, 1};
case SBIG('CHAR'):
return {CHAR::Extract, {_S(".yaml"), _S(".blend")}, 2};
case SBIG('MLVL'):
return {MLVL::Extract, {_S(".yaml"), _S(".blend")}, 3};
case SBIG('MREA'):
return {MREA::Extract, {_S(".blend")}, 4};
case SBIG('MAPA'):
return {MAPA::Extract, {_S(".blend")}, 4};
case SBIG('FSM2'):
return {DNAFSM2::ExtractFSM2<UniqueID64>, {_S(".yaml")}};
case SBIG('FONT'):
return {DNAFont::ExtractFONT<UniqueID64>, {_S(".yaml")}};
case SBIG('DGRP'):
return {DNADGRP::ExtractDGRP<UniqueID64>, {_S(".yaml")}};
}
return {};
}
}
}