metaforce/DataSpec/DNAMP3/MREA.cpp

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#include <athena/FileWriter.hpp>
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#include "MREA.hpp"
#include "../DNAMP2/DeafBabe.hpp"
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#include "DataSpec/DNACommon/BabeDead.hpp"
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#include "hecl/Blender/Connection.hpp"
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namespace DataSpec {
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extern hecl::Database::DataSpecEntry SpecEntMP3ORIG;
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namespace DNAMP3 {
MREA::StreamReader::StreamReader(athena::io::IStreamReader& source, atUint32 blkCount, atUint32 secIdxCount)
: DNAMP2::MREA::StreamReader(source) {
m_blkCount = blkCount;
m_blockInfos.reserve(blkCount);
for (atUint32 i = 0; i < blkCount; ++i) {
m_blockInfos.emplace_back();
BlockInfo& info = m_blockInfos.back();
info.read(source);
m_totalDecompLen += info.decompSize;
}
source.seekAlign32();
m_secIdxs.reserve(secIdxCount);
for (atUint32 i = 0; i < secIdxCount; ++i) {
m_secIdxs.emplace_back();
std::pair<DNAFourCC, atUint32>& idx = m_secIdxs.back();
idx.first.read(source);
idx.second = source.readUint32Big();
}
source.seekAlign32();
m_blkBase = source.position();
nextBlock();
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}
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void MREA::StreamReader::writeSecIdxs(athena::io::IStreamWriter& writer) const {
for (const std::pair<DNAFourCC, atUint32>& idx : m_secIdxs) {
idx.first.write(writer);
writer.writeUint32Big(idx.second);
}
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}
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void MREA::ReadBabeDeadToBlender_3(hecl::blender::PyOutStream& os, athena::io::IStreamReader& rs) {
atUint32 bdMagic = rs.readUint32Big();
if (bdMagic != 0xBABEDEAD)
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Log.report(logvisor::Fatal, fmt("invalid BABEDEAD magic"));
os << "bpy.context.scene.world.use_nodes = True\n"
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"bg_node = bpy.context.scene.world.node_tree.nodes['Background']\n"
"bg_node.inputs[1].default_value = 0.0\n";
for (atUint32 s = 0; s < 4; ++s) {
atUint32 lightCount = rs.readUint32Big();
for (atUint32 l = 0; l < lightCount; ++l) {
BabeDeadLight light;
light.read(rs);
ReadBabeDeadLightToBlender(os, light, s, l);
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}
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}
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}
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bool MREA::Extract(const SpecBase& dataSpec, PAKEntryReadStream& rs, const hecl::ProjectPath& outPath,
PAKRouter<PAKBridge>& pakRouter, const PAK::Entry& entry, bool force, hecl::blender::Token& btok,
std::function<void(const hecl::SystemChar*)>) {
using RigPair = std::pair<CSKR*, CINF*>;
RigPair dummy(nullptr, nullptr);
if (!force && outPath.isFile())
return true;
/* Do extract */
Header head;
head.read(rs);
rs.seekAlign32();
/* MREA decompression stream */
StreamReader drs(rs, head.compressedBlockCount, head.secIndexCount);
hecl::ProjectPath decompPath = outPath.getCookedPath(SpecEntMP3ORIG).getWithExtension(_SYS_STR(".decomp"));
decompPath.makeDirChain(false);
athena::io::FileWriter mreaDecompOut(decompPath.getAbsolutePath());
head.write(mreaDecompOut);
mreaDecompOut.seekAlign32();
drs.writeDecompInfos(mreaDecompOut);
mreaDecompOut.seekAlign32();
drs.writeSecIdxs(mreaDecompOut);
mreaDecompOut.seekAlign32();
atUint64 decompLen = drs.length();
mreaDecompOut.writeBytes(drs.readBytes(decompLen).get(), decompLen);
mreaDecompOut.close();
drs.seek(0, athena::SeekOrigin::Begin);
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/* Start up blender connection */
hecl::blender::Connection& conn = btok.getBlenderConnection();
if (!conn.createBlend(outPath, hecl::blender::BlendType::Area))
return false;
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/* Open Py Stream and read sections */
hecl::blender::PyOutStream os = conn.beginPythonOut(true);
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os.format(fmt(
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"import bpy\n"
"import bmesh\n"
"from mathutils import Vector\n"
"\n"
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"bpy.context.scene.name = '{}'\n"),
pakRouter.getBestEntryName(entry, false));
DNACMDL::InitGeomBlenderContext(os, dataSpec.getMasterShaderPath());
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MaterialSet::RegisterMaterialProps(os);
os << "# Clear Scene\n"
"if len(bpy.data.collections):\n"
" bpy.data.collections.remove(bpy.data.collections[0])\n"
"\n"
"bpy.types.Light.retro_layer = bpy.props.IntProperty(name='Retro: Light Layer')\n"
"bpy.types.Light.retro_origtype = bpy.props.IntProperty(name='Retro: Original Type')\n"
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"\n";
/* One shared material set for all meshes */
os << "# Materials\n"
"materials = []\n"
"\n";
MaterialSet matSet;
atUint64 secStart = drs.position();
matSet.read(drs);
matSet.readToBlender(os, pakRouter, entry, 0);
drs.seek(secStart + head.secSizes[0], athena::SeekOrigin::Begin);
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std::vector<DNACMDL::VertexAttributes> vertAttribs;
DNACMDL::GetVertexAttributes(matSet, vertAttribs);
/* Read mesh info */
atUint32 curSec = 1;
std::vector<atUint32> surfaceCounts;
surfaceCounts.reserve(head.meshCount);
for (atUint32 m = 0; m < head.meshCount; ++m) {
/* Mesh header */
MeshHeader mHeader;
secStart = drs.position();
mHeader.read(drs);
drs.seek(secStart + head.secSizes[curSec++], athena::SeekOrigin::Begin);
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/* Surface count from here */
secStart = drs.position();
surfaceCounts.push_back(drs.readUint32Big());
drs.seek(secStart + head.secSizes[curSec++], athena::SeekOrigin::Begin);
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/* Seek through AROT-relation sections */
drs.seek(head.secSizes[curSec++], athena::SeekOrigin::Current);
drs.seek(head.secSizes[curSec++], athena::SeekOrigin::Current);
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}
/* Skip though WOBJs */
auto secIdxIt = drs.beginSecIdxs();
while (secIdxIt->first == FOURCC('WOBJ'))
++secIdxIt;
/* Skip AROT */
if (secIdxIt->first == FOURCC('ROCT')) {
drs.seek(head.secSizes[curSec++], athena::SeekOrigin::Current);
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++secIdxIt;
}
/* Skip AABB */
if (secIdxIt->first == FOURCC('AABB')) {
drs.seek(head.secSizes[curSec++], athena::SeekOrigin::Current);
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++secIdxIt;
}
/* Now the meshes themselves */
if (secIdxIt->first == FOURCC('GPUD')) {
for (atUint32 m = 0; m < head.meshCount; ++m) {
curSec +=
DNACMDL::ReadGeomSectionsToBlender<PAKRouter<PAKBridge>, MaterialSet, RigPair, DNACMDL::SurfaceHeader_3>(
os, drs, pakRouter, entry, dummy, true, false, vertAttribs, m, head.secCount, 0, &head.secSizes[curSec],
surfaceCounts[m]);
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}
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++secIdxIt;
}
/* Skip DEPS */
if (secIdxIt->first == FOURCC('DEPS')) {
drs.seek(head.secSizes[curSec++], athena::SeekOrigin::Current);
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++secIdxIt;
}
/* Skip SOBJ (SCLY) */
if (secIdxIt->first == FOURCC('SOBJ')) {
for (atUint32 l = 0; l < head.sclyLayerCount; ++l)
drs.seek(head.secSizes[curSec++], athena::SeekOrigin::Current);
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++secIdxIt;
}
/* Skip SGEN */
if (secIdxIt->first == FOURCC('SGEN')) {
drs.seek(head.secSizes[curSec++], athena::SeekOrigin::Current);
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++secIdxIt;
}
/* Read Collision Meshes */
if (secIdxIt->first == FOURCC('COLI')) {
DNAMP2::DeafBabe collision;
secStart = drs.position();
collision.read(drs);
DNAMP2::DeafBabe::BlenderInit(os);
collision.sendToBlender(os);
drs.seek(secStart + head.secSizes[curSec++], athena::SeekOrigin::Begin);
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++secIdxIt;
}
/* Read BABEDEAD Lights as Cycles emissives */
if (secIdxIt->first == FOURCC('LITE')) {
secStart = drs.position();
ReadBabeDeadToBlender_3(os, drs);
drs.seek(secStart + head.secSizes[curSec++], athena::SeekOrigin::Begin);
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++secIdxIt;
}
/* Origins to center of mass */
os << "bpy.context.view_layer.layer_collection.children['Collision'].hide_viewport = False\n"
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"bpy.ops.object.select_by_type(type='MESH')\n"
"bpy.ops.object.origin_set(type='ORIGIN_CENTER_OF_MASS')\n"
"bpy.ops.object.select_all(action='DESELECT')\n"
"bpy.context.view_layer.layer_collection.children['Collision'].hide_viewport = True\n";
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os.centerView();
os.close();
return conn.saveBlend();
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}
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bool MREA::ExtractLayerDeps(PAKEntryReadStream& rs, PAKBridge::Level::Area& areaOut) {
/* Do extract */
Header head;
head.read(rs);
rs.seekAlign32();
/* MREA decompression stream */
StreamReader drs(rs, head.compressedBlockCount, head.secIndexCount);
for (const std::pair<DNAFourCC, atUint32>& idx : drs.m_secIdxs) {
if (idx.first == FOURCC('DEPS')) {
drs.seek(head.getSecOffset(idx.second), athena::SeekOrigin::Begin);
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DEPS deps;
deps.read(drs);
unsigned r = 0;
for (unsigned l = 1; l < deps.depLayerCount; ++l) {
if (l > areaOut.layers.size())
break;
PAKBridge::Level::Area::Layer& layer = areaOut.layers.at(l - 1);
layer.resources.reserve(deps.depLayers[l] - r);
for (; r < deps.depLayers[l]; ++r)
layer.resources.emplace(deps.deps[r].id);
}
areaOut.resources.reserve(deps.depCount - r + 2);
for (; r < deps.depCount; ++r)
areaOut.resources.emplace(deps.deps[r].id);
return true;
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}
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}
return false;
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}
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} // namespace DNAMP3
} // namespace DataSpec