mirror of https://github.com/AxioDL/metaforce.git
420 lines
16 KiB
C++
420 lines
16 KiB
C++
#include "MAPA.hpp"
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#include "../DNAMP1/DNAMP1.hpp"
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#include "../DNAMP2/DNAMP2.hpp"
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#include "../DNAMP3/DNAMP3.hpp"
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#include "../DNAMP1/MAPA.hpp"
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#include "../DNAMP2/MAPA.hpp"
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#include "../DNAMP3/MAPA.hpp"
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#include "zeus/CTransform.hpp"
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#include "zeus/CAABox.hpp"
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#include "hecl/Blender/Connection.hpp"
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namespace DataSpec::DNAMAPA {
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static logvisor::Module Log("DNAMAPA");
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template <>
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void MAPA::Enumerate<BigDNA::Read>(typename Read::StreamT& __dna_reader) {
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/* magic */
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magic = __dna_reader.readUint32Big();
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if (magic != 0xDEADD00D) {
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LogDNACommon.report(logvisor::Error, "invalid MAPA magic");
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return;
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}
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/* version */
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version = __dna_reader.readUint32Big();
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if (version == 2)
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header.reset(new HeaderMP1);
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else if (version == 3)
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header.reset(new HeaderMP2);
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else if (version == 5)
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header.reset(new HeaderMP3);
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else {
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LogDNACommon.report(logvisor::Error, "invalid MAPA version");
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return;
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}
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header->read(__dna_reader);
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for (atUint32 i = 0; i < header->mappableObjectCount(); i++) {
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std::unique_ptr<IMappableObject> mo = nullptr;
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if (version != 5)
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mo.reset(new MappableObjectMP1_2);
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else
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mo.reset(new MappableObjectMP3);
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mo->read(__dna_reader);
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mappableObjects.push_back(std::move(mo));
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}
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/* vertices */
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__dna_reader.enumerateBig(vertices, header->vertexCount());
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/* surfaceHeaders */
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__dna_reader.enumerate(surfaceHeaders, header->surfaceCount());
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/* surfaces */
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__dna_reader.enumerate(surfaces, header->surfaceCount());
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}
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template <>
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void MAPA::Enumerate<BigDNA::Write>(typename Write::StreamT& __dna_writer) {
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/* magic */
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__dna_writer.writeUint32Big(magic);
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/* version */
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__dna_writer.writeUint32Big(version);
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header->write(__dna_writer);
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/* mappableObjects */
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for (const std::unique_ptr<IMappableObject>& mo : mappableObjects)
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mo->write(__dna_writer);
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/* vertices */
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__dna_writer.enumerateBig(vertices);
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/* surfaceHeaders */
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__dna_writer.enumerate(surfaceHeaders);
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/* surfaces */
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__dna_writer.enumerate(surfaces);
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}
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template <>
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void MAPA::Enumerate<BigDNA::BinarySize>(typename BinarySize::StreamT& s) {
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header->binarySize(s);
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for (const std::unique_ptr<IMappableObject>& mo : mappableObjects)
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mo->binarySize(s);
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s += vertices.size() * 12;
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for (const SurfaceHeader& sh : surfaceHeaders)
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sh.binarySize(s);
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for (const Surface& su : surfaces)
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su.binarySize(s);
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s += 8;
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}
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static const char* RetroMapVisModes[] = {"ALWAYS", "MAPSTATIONORVISIT", "VISIT", "NEVER"};
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static const char* RetroMapObjVisModes[] = {"ALWAYS", "MAPSTATIONORVISIT", "VISIT", "NEVER", "MAPSTATIONORVISIT2"};
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template <typename PAKRouter>
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bool ReadMAPAToBlender(hecl::blender::Connection& conn, const MAPA& mapa, const hecl::ProjectPath& outPath,
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PAKRouter& pakRouter, const typename PAKRouter::EntryType& entry, bool force) {
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if (!force && outPath.isFile())
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return true;
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if (!conn.createBlend(outPath, hecl::blender::BlendType::MapArea))
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return false;
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hecl::blender::PyOutStream os = conn.beginPythonOut(true);
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os << "import bpy, bmesh\n"
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"from mathutils import Matrix\n"
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"\n"
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"bpy.types.Object.retro_mappable_type = bpy.props.IntProperty(name='Retro: MAPA object type', default=-1)\n"
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"bpy.types.Object.retro_mappable_sclyid = bpy.props.StringProperty(name='Retro: MAPA object SCLY ID')\n"
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"bpy.types.Scene.retro_map_vis_mode = bpy.props.EnumProperty(items=[('ALWAYS', 'Always', 'Always Visible', 0),"
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"('MAPSTATIONORVISIT', 'Map Station or Visit', 'Visible after Map Station or Visit', 1),"
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"('VISIT', 'Visit', 'Visible after Visit', 2),"
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"('NEVER', 'Never', 'Never Visible', 3)],"
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"name='Retro: Map Visibility Mode')\n"
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"bpy.types.Object.retro_mapobj_vis_mode = bpy.props.EnumProperty(items=[('ALWAYS', 'Always', 'Always Visible', "
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"0),"
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"('MAPSTATIONORVISIT', 'Map Station or Visit', 'Visible after Map Station or Visit', 1),"
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"('VISIT', 'Visit', 'Visible after Door Visit', 2),"
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"('NEVER', 'Never', 'Never Visible', 3),"
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"('MAPSTATIONORVISIT2', 'Map Station or Visit 2', 'Visible after Map Station or Visit', 4)],"
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"name='Retro: Map Object Visibility Mode')\n"
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"\n"
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"# Clear Scene\n"
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"if 'Collection 1' in bpy.data.collections:\n"
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" bpy.data.collections.remove(bpy.data.collections['Collection 1'])\n"
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"\n"
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"def add_triangle(bm, verts):\n"
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" verts = [bm.verts[vi] for vi in verts]\n"
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" face = bm.faces.get(verts)\n"
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" if face:\n"
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" face = face.copy()\n"
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" bm.verts.ensure_lookup_table()\n"
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" face.normal_flip()\n"
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" else:\n"
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" bm.faces.new(verts)\n"
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"\n"
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"def add_border(bm, verts):\n"
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" verts = [bm.verts[vi] for vi in verts]\n"
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" edge = bm.edges.get(verts)\n"
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" if not edge:\n"
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" edge = bm.edges.new(verts)\n"
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" edge.seam = True\n"
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"\n";
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os.format(
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"bpy.context.scene.name = 'MAPA_%s'\n"
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"bpy.context.scene.retro_map_vis_mode = '%s'\n",
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entry.id.toString().c_str(), RetroMapVisModes[mapa.header->visMode()]);
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/* Add empties representing MappableObjects */
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int moIdx = 0;
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for (const std::unique_ptr<MAPA::IMappableObject>& mo : mapa.mappableObjects) {
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if (mapa.version < 5) {
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const MAPA::MappableObjectMP1_2* moMP12 = static_cast<const MAPA::MappableObjectMP1_2*>(mo.get());
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zeus::simd_floats mtxF[3];
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for (int i = 0; i < 3; ++i)
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moMP12->transformMtx[i].simd.copy_to(mtxF[i]);
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os.format(
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"obj = bpy.data.objects.new('MAPOBJ_%02d', None)\n"
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"bpy.context.scene.collection.objects.link(obj)\n"
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"obj.retro_mappable_type = %d\n"
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"obj.retro_mapobj_vis_mode = '%s'\n"
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"obj.retro_mappable_sclyid = '0x%08X'\n"
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"mtx = Matrix(((%f,%f,%f,%f),(%f,%f,%f,%f),(%f,%f,%f,%f),(0.0,0.0,0.0,1.0)))\n"
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"mtxd = mtx.decompose()\n"
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"obj.rotation_mode = 'QUATERNION'\n"
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"obj.location = mtxd[0]\n"
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"obj.rotation_quaternion = mtxd[1]\n"
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"obj.scale = mtxd[2]\n",
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moIdx, moMP12->type, RetroMapObjVisModes[moMP12->visMode], moMP12->sclyId, mtxF[0][0], mtxF[0][1], mtxF[0][2],
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mtxF[0][3], mtxF[1][0], mtxF[1][1], mtxF[1][2], mtxF[1][3], mtxF[2][0], mtxF[2][1], mtxF[2][2], mtxF[2][3]);
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++moIdx;
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continue;
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} else {
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const MAPA::MappableObjectMP3* moMP3 = static_cast<const MAPA::MappableObjectMP3*>(mo.get());
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zeus::simd_floats mtxF[3];
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for (int i = 0; i < 3; ++i)
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moMP3->transformMtx[i].simd.copy_to(mtxF[i]);
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os.format(
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"obj = bpy.data.objects.new('MAPOBJ_%02d', None)\n"
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"bpy.context.scene.collection.objects.link(obj)\n"
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"obj.retro_mappable_type = %d\n"
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"obj.retro_mapobj_vis_mode = '%s'\n"
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"obj.retro_mappable_sclyid = '0x%08X'\n"
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"mtx = Matrix(((%f,%f,%f,%f),(%f,%f,%f,%f),(%f,%f,%f,%f),(0.0,0.0,0.0,1.0)))\n"
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"mtxd = mtx.decompose()\n"
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"obj.rotation_mode = 'QUATERNION'\n"
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"obj.location = mtxd[0]\n"
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"obj.rotation_quaternion = mtxd[1]\n"
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"obj.scale = mtxd[2]\n",
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moIdx, moMP3->type, RetroMapObjVisModes[moMP3->visMode], moMP3->sclyId, mtxF[0][0], mtxF[0][1], mtxF[0][2],
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mtxF[0][3], mtxF[1][0], mtxF[1][1], mtxF[1][2], mtxF[1][3], mtxF[2][0], mtxF[2][1], mtxF[2][2], mtxF[2][3]);
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++moIdx;
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continue;
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}
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}
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os << "# Begin bmesh\n"
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"bm = bmesh.new()\n"
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"\n";
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/* Read in verts */
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for (const atVec3f& vert : mapa.vertices) {
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zeus::simd_floats f(vert.simd);
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os.format("bm.verts.new((%f,%f,%f))\n", f[0], f[1], f[2]);
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}
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os << "bm.verts.ensure_lookup_table()\n";
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/* Read in surfaces */
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for (const typename MAPA::Surface& surf : mapa.surfaces) {
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for (const typename MAPA::Surface::Primitive& prim : surf.primitives) {
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auto iit = prim.indices.cbegin();
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/* 3 Prim Verts to start */
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int c = 0;
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unsigned int primVerts[3] = {*iit++, *iit++, *iit++};
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if (GX::Primitive(prim.type) == GX::TRIANGLESTRIP) {
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atUint8 flip = 0;
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for (size_t v = 0; v < prim.indexCount - 2; ++v) {
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if (flip) {
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os.format("add_triangle(bm, (%u,%u,%u))\n", primVerts[c % 3], primVerts[(c + 2) % 3],
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primVerts[(c + 1) % 3]);
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} else {
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os.format("add_triangle(bm, (%u,%u,%u))\n", primVerts[c % 3], primVerts[(c + 1) % 3],
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primVerts[(c + 2) % 3]);
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}
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flip ^= 1;
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/* Break if done */
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if (iit == prim.indices.cend())
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break;
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bool peek = (v >= prim.indexCount - 3);
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/* Advance one prim vert */
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if (peek)
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primVerts[c % 3] = *iit;
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else
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primVerts[c % 3] = *iit++;
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++c;
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}
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} else if (GX::Primitive(prim.type) == GX::TRIANGLES) {
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for (size_t v = 0; v < prim.indexCount; v += 3) {
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os.format("add_triangle(bm, (%u,%u,%u))\n", primVerts[0], primVerts[1], primVerts[2]);
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/* Break if done */
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if (v + 3 >= prim.indexCount)
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break;
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/* Advance 3 Prim Verts */
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for (int pv = 0; pv < 3; ++pv)
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primVerts[pv] = *iit++;
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}
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}
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}
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for (const typename MAPA::Surface::Border& border : surf.borders) {
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auto iit = border.indices.cbegin();
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for (size_t i = 0; i < border.indexCount - 1; ++i) {
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os.format("add_border(bm, (%u,%u))\n", *iit, *(iit + 1));
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++iit;
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}
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}
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}
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os << "mesh = bpy.data.meshes.new('MAP')\n"
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"obj = bpy.data.objects.new(mesh.name, mesh)\n"
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"bm.to_mesh(mesh)\n"
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"bpy.context.scene.collection.objects.link(obj)\n"
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"bm.free()\n";
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const zeus::CMatrix4f* tmpMtx = pakRouter.lookupMAPATransform(entry.id);
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const zeus::CMatrix4f& mtx = tmpMtx ? *tmpMtx : zeus::skIdentityMatrix4f;
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os.format(
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"mtx = Matrix(((%f,%f,%f,%f),(%f,%f,%f,%f),(%f,%f,%f,%f),(0.0,0.0,0.0,1.0)))\n"
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"mtxd = mtx.decompose()\n"
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"obj.rotation_mode = 'QUATERNION'\n"
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"obj.location = mtxd[0]\n"
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"obj.rotation_quaternion = mtxd[1]\n"
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"obj.scale = mtxd[2]\n",
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mtx[0][0], mtx[1][0], mtx[2][0], mtx[3][0], mtx[0][1], mtx[1][1], mtx[2][1], mtx[3][1], mtx[0][2], mtx[1][2],
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mtx[2][2], mtx[3][2]);
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/* World background */
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hecl::ProjectPath worldBlend(outPath.getParentPath().getParentPath(), "!world.blend");
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if (worldBlend.isFile())
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os.linkBackground("//../!world.blend", "World");
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os.centerView();
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os.close();
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conn.saveBlend();
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return true;
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}
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template bool ReadMAPAToBlender<PAKRouter<DNAMP1::PAKBridge>>(hecl::blender::Connection& conn, const MAPA& mapa,
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const hecl::ProjectPath& outPath,
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PAKRouter<DNAMP1::PAKBridge>& pakRouter,
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const PAKRouter<DNAMP1::PAKBridge>::EntryType& entry,
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bool force);
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template bool ReadMAPAToBlender<PAKRouter<DNAMP2::PAKBridge>>(hecl::blender::Connection& conn, const MAPA& mapa,
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const hecl::ProjectPath& outPath,
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PAKRouter<DNAMP2::PAKBridge>& pakRouter,
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const PAKRouter<DNAMP2::PAKBridge>::EntryType& entry,
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bool force);
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template bool ReadMAPAToBlender<PAKRouter<DNAMP3::PAKBridge>>(hecl::blender::Connection& conn, const MAPA& mapa,
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const hecl::ProjectPath& outPath,
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PAKRouter<DNAMP3::PAKBridge>& pakRouter,
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const PAKRouter<DNAMP3::PAKBridge>::EntryType& entry,
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bool force);
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template <typename MAPAType>
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bool Cook(const hecl::blender::MapArea& mapaIn, const hecl::ProjectPath& out) {
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if (mapaIn.verts.size() >= 256) {
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Log.report(logvisor::Error, _SYS_STR("MAPA %s vertex range exceeded [%d/%d]"), out.getRelativePath().data(),
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mapaIn.verts.size(), 255);
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return false;
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}
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MAPAType mapa;
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mapa.magic = 0xDEADD00D;
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mapa.version = MAPAType::Version();
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zeus::CAABox aabb;
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for (const hecl::blender::Vector3f& vert : mapaIn.verts)
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aabb.accumulateBounds(vert.val);
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mapa.header = std::make_unique<typename MAPAType::Header>();
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typename MAPAType::Header& header = static_cast<typename MAPAType::Header&>(*mapa.header);
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header.unknown1 = 0;
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header.mapVisMode = mapaIn.visType.val;
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header.boundingBox[0] = aabb.min;
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header.boundingBox[1] = aabb.max;
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header.moCount = mapaIn.pois.size();
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header.vtxCount = mapaIn.verts.size();
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header.surfCount = mapaIn.surfaces.size();
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mapa.mappableObjects.reserve(mapaIn.pois.size());
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for (const hecl::blender::MapArea::POI& poi : mapaIn.pois) {
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mapa.mappableObjects.push_back(std::make_unique<typename MAPAType::MappableObject>());
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typename MAPAType::MappableObject& mobj =
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static_cast<typename MAPAType::MappableObject&>(*mapa.mappableObjects.back());
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mobj.type = MAPA::IMappableObject::Type(poi.type);
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mobj.visMode = poi.visMode;
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mobj.sclyId = poi.objid;
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mobj.transformMtx[0] = poi.xf.val[0];
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mobj.transformMtx[1] = poi.xf.val[1];
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mobj.transformMtx[2] = poi.xf.val[2];
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}
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mapa.vertices.reserve(mapaIn.verts.size());
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for (const hecl::blender::Vector3f& vert : mapaIn.verts)
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mapa.vertices.push_back(vert.val);
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size_t offsetCur = 0;
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for (const auto& mo : mapa.mappableObjects)
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mo->binarySize(offsetCur);
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offsetCur += mapa.vertices.size() * 12;
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offsetCur += mapaIn.surfaces.size() * 32;
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mapa.surfaceHeaders.reserve(mapaIn.surfaces.size());
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mapa.surfaces.reserve(mapaIn.surfaces.size());
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for (const hecl::blender::MapArea::Surface& surfIn : mapaIn.surfaces) {
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mapa.surfaceHeaders.emplace_back();
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DNAMAPA::MAPA::SurfaceHeader& surfHead = mapa.surfaceHeaders.back();
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mapa.surfaces.emplace_back();
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DNAMAPA::MAPA::Surface& surf = mapa.surfaces.back();
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surf.primitiveCount = 1;
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surf.primitives.emplace_back();
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DNAMAPA::MAPA::Surface::Primitive& prim = surf.primitives.back();
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prim.type = GX::TRIANGLESTRIP;
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prim.indexCount = surfIn.count;
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prim.indices.reserve(surfIn.count);
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auto itBegin = mapaIn.indices.begin() + surfIn.start.val;
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auto itEnd = itBegin + surfIn.count;
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for (auto it = itBegin; it != itEnd; ++it)
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prim.indices.push_back(it->val);
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surf.borderCount = surfIn.borders.size();
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surf.borders.reserve(surfIn.borders.size());
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for (const auto& borderIn : surfIn.borders) {
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surf.borders.emplace_back();
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DNAMAPA::MAPA::Surface::Border& border = surf.borders.back();
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border.indexCount = borderIn.second.val;
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border.indices.reserve(borderIn.second.val);
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auto it2Begin = mapaIn.indices.begin() + borderIn.first.val;
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auto it2End = it2Begin + borderIn.second.val;
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for (auto it = it2Begin; it != it2End; ++it)
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border.indices.push_back(it->val);
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}
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surfHead.normal = surfIn.normal.val;
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surfHead.centroid = surfIn.centerOfMass;
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surfHead.polyOff = offsetCur;
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offsetCur += 4;
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prim.binarySize(offsetCur);
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surfHead.edgeOff = offsetCur;
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offsetCur += 4;
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for (const auto& border : surf.borders)
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border.binarySize(offsetCur);
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}
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|
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athena::io::FileWriter f(out.getAbsolutePath());
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mapa.write(f);
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int64_t rem = f.position() % 32;
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|
if (rem)
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for (int64_t i = 0; i < 32 - rem; ++i)
|
|
f.writeBytes((atInt8*)"\xff", 1);
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return true;
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}
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|
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template bool Cook<DNAMP1::MAPA>(const hecl::blender::MapArea& mapa, const hecl::ProjectPath& out);
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template bool Cook<DNAMP2::MAPA>(const hecl::blender::MapArea& mapa, const hecl::ProjectPath& out);
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template bool Cook<DNAMP3::MAPA>(const hecl::blender::MapArea& mapa, const hecl::ProjectPath& out);
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} // namespace DataSpec::DNAMAPA
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