metaforce/DataSpec/DNAMP1/DCLN.hpp

166 lines
5.2 KiB
C++

#ifndef __DNAMP1_DCLN_HPP__
#define __DNAMP1_DCLN_HPP__
#include <athena/Types.hpp>
#include "../DNACommon/DeafBabe.hpp"
#include "../DNACommon/PAK.hpp"
#include "../DNACommon/OBBTreeBuilder.hpp"
#include "DNAMP1.hpp"
#include "DeafBabe.hpp"
#define DCLN_DUMP_OBB 0
namespace DataSpec::DNAMP1
{
struct DCLN : BigDNA
{
using Mesh = hecl::blender::ColMesh;
DECL_DNA
Value<atUint32> colCount;
struct Collision : BigDNA
{
using Material = DeafBabe::Material;
using Edge = DeafBabe::Edge;
using Triangle = DeafBabe::Triangle;
DECL_DNA
Value<atUint32> magic;
Value<atUint32> version;
Value<atUint32> memSize;
Value<atUint32> materialCount;
Vector<Material, DNA_COUNT(materialCount)> materials;
Value<atUint32> vertMatsCount;
Vector<atUint8, DNA_COUNT(vertMatsCount)> vertMats;
Value<atUint32> edgeMatsCount;
Vector<atUint8, DNA_COUNT(edgeMatsCount)> edgeMats;
Value<atUint32> triMatsCount;
Vector<atUint8, DNA_COUNT(triMatsCount)> triMats;
Value<atUint32> edgeVertsCount;
Vector<Edge, DNA_COUNT(edgeVertsCount)> edgeVertConnections;
Value<atUint32> triangleEdgesCount;
Vector<Triangle, DNA_COUNT(triangleEdgesCount / 3)> triangleEdgeConnections;
Value<atUint32> vertCount;
Vector<atVec3f, DNA_COUNT(vertCount)> verts;
struct Node : BigDNA
{
Delete _d;
struct LeafData : BigDNA
{
DECL_DNA
Value<atUint32> triangleIndexCount;
Vector<atUint16, DNA_COUNT(triangleIndexCount)> triangleIndices;
size_t getMemoryUsage() const { return (((triangleIndices.size() * 2) + 16) + 3) & ~3; }
};
Value<atVec4f> xf[3];
Value<atVec3f> halfExtent;
Value<bool> isLeaf;
std::unique_ptr<LeafData> leafData;
std::unique_ptr<Node> left;
std::unique_ptr<Node> right;
void read(athena::io::IStreamReader & __dna_reader)
{
xf[0] = __dna_reader.readVec4fBig();
xf[1] = __dna_reader.readVec4fBig();
xf[2] = __dna_reader.readVec4fBig();
halfExtent = __dna_reader.readVec3fBig();
isLeaf = __dna_reader.readBool();
if (isLeaf)
{
leafData.reset(new LeafData);
leafData->read(__dna_reader);
}
else
{
left.reset(new Node);
left->read(__dna_reader);
right.reset(new Node);
right->read(__dna_reader);
}
}
void write(athena::io::IStreamWriter & __dna_writer) const
{
__dna_writer.writeVec4fBig(xf[0]);
__dna_writer.writeVec4fBig(xf[1]);
__dna_writer.writeVec4fBig(xf[2]);
__dna_writer.writeVec3fBig(halfExtent);
__dna_writer.writeBool(isLeaf);
if (isLeaf && leafData)
leafData->write(__dna_writer);
else if (!isLeaf && left && right)
{
left->write(__dna_writer);
right->write(__dna_writer);
}
}
size_t binarySize(size_t __isz) const
{
__isz += 61;
if (isLeaf && leafData)
__isz = leafData->binarySize(__isz);
else if (!isLeaf && left && right)
{
__isz = left->binarySize(__isz);
__isz = right->binarySize(__isz);
}
return __isz;
}
size_t getMemoryUsage() const
{
size_t ret = 80;
if (isLeaf)
ret += leafData->getMemoryUsage();
else
{
ret += left->getMemoryUsage();
ret += right->getMemoryUsage();
}
return (ret + 3) & ~3;
}
#if DCLN_DUMP_OBB
sendToBlender(hecl::blender::PyOutStream& os) const;
#endif
};
Node root;
size_t getMemoryUsage()
{
return root.getMemoryUsage();
}
/* Dummy MP2 member */
void insertNoClimb(hecl::blender::PyOutStream&) const {}
};
Vector<Collision, DNA_COUNT(colCount)> collision;
void sendToBlender(hecl::blender::Connection& conn, std::string_view entryName);
static bool 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*)> fileChanged);
static bool Cook(const hecl::ProjectPath& outPath,
const hecl::ProjectPath& inPath,
const std::vector<Mesh>& meshes,
hecl::blender::Connection* conn = nullptr);
};
}
#endif // __DNAMP1_DCLN_HPP__