mirror of https://github.com/AxioDL/metaforce.git
463 lines
16 KiB
C++
463 lines
16 KiB
C++
#ifndef __DNACOMMON_MAPA_HPP__
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#define __DNACOMMON_MAPA_HPP__
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#include "DNACommon.hpp"
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#include "GX.hpp"
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namespace Retro
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{
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namespace DNAMAPA
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{
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struct MAPA : BigDNA
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{
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Delete _d;
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Value<atUint32> magic;
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Value<atUint32> version;
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struct IMAPAHeader : BigDNA
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{
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Delete _d;
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virtual atUint32 mappableObjectCount() const=0;
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virtual atUint32 vertexCount() const=0;
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virtual atUint32 surfaceCount() const=0;
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};
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struct HeaderMP1 : IMAPAHeader
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{
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DECL_DNA
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Value<atUint32> unknown1;
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Value<atUint32> unknown2;
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Value<atVec3f> boundingBox[2];
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Value<atUint32> moCount;
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Value<atUint32> vtxCount;
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Value<atUint32> surfCount;
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virtual atUint32 mappableObjectCount() const { return moCount;}
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virtual atUint32 vertexCount() const { return vtxCount; }
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virtual atUint32 surfaceCount() const { return surfCount; }
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};
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struct HeaderMP2 : IMAPAHeader
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{
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DECL_DNA
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Value<atUint32> unknown1;
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Value<atUint32> unknown2;
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Value<atVec3f> boundingBox[2];
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Value<atUint32> unknown3;
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Value<atUint32> unknown4;
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Value<atUint32> unknown5;
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Value<atUint32> moCount;
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Value<atUint32> vtxCount;
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Value<atUint32> surfCount;
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atUint32 mappableObjectCount() const { return moCount;}
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atUint32 vertexCount() const { return vtxCount; }
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atUint32 surfaceCount() const { return surfCount; }
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};
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struct HeaderMP3 : IMAPAHeader
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{
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DECL_DNA
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Value<atUint32> unknown1;
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Value<atUint32> unknown2;
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Value<atVec3f> boundingBox[2];
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Value<atUint32> unknown3;
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Value<atUint32> unknown4;
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Value<atUint32> unknown5;
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Value<atUint32> unknown6;
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Value<atUint32> moCount;
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Value<atUint32> vtxCount;
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Value<atUint32> surfCount;
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Value<atUint32> internalNameLength;
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Value<atUint32> unknown7;
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String<DNA_COUNT(internalNameLength)> internalName;
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atUint32 mappableObjectCount() const { return moCount;}
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atUint32 vertexCount() const { return vtxCount; }
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atUint32 surfaceCount() const { return surfCount; }
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};
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void read(Athena::io::IStreamReader& __dna_reader)
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{
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/* magic */
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magic = __dna_reader.readUint32Big();
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if (magic != 0xDEADD00D)
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{
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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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{
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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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{
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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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void write(Athena::io::IStreamWriter& __dna_writer) const
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{
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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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size_t binarySize(size_t __isz) const
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{
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__isz = header->binarySize(__isz);
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for (const std::unique_ptr<IMappableObject>& mo : mappableObjects)
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__isz = mo->binarySize(__isz);
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__isz += vertices.size() * 12;
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__isz = __EnumerateSize(__isz, surfaceHeaders);
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__isz = __EnumerateSize(__isz, surfaces);
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return __isz + 8;
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}
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std::unique_ptr<IMAPAHeader> header;
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struct IMappableObject : BigDNA
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{
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Delete _d;
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enum class Type : atUint32
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{
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BlueDoor = 0,
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ShieldDoor = 1,
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IceDoor = 2,
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WaveDoor = 3,
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PlasmaDoor = 4,
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BigDoor1 = 5,
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BigDoor2 = 6,
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IceDoorCeiling = 7,
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IceDoorFloor = 8,
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WaveDoorCeiling = 9,
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WaveDoorFloor = 10,
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IceDoorFloor2 = 13,
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WaveDoorFloor2 = 14,
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DownArrowYellow = 27, /* Maintenance Tunnel */
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UpArrowYellow = 28, /* Phazon Processing Center */
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DownArrowGreen = 29, /* Elevator A */
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UpArrowGreen = 30, /* Elite Control Access */
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DownArrowRed = 31, /* Elevator B */
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UpArrowRed = 32, /* Fungal Hall Access */
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TransportLift = 33,
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SaveStation = 34,
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MissileStation = 37
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};
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virtual ~IMappableObject() {}
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};
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struct MappableObjectMP1_2 : IMappableObject
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{
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DECL_DNA
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Value<Type> type;
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Value<atUint32> unknown1;
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Value<atUint32> sclyId;
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Seek<DNA_COUNT(4), Athena::Current> seek1;
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Value<atVec4f> transformMtx[3];
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Seek<DNA_COUNT(0x10), Athena::Current> seek2;
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virtual ~MappableObjectMP1_2() {}
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};
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struct MappableObjectMP3 : IMappableObject
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{
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DECL_DNA
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Value<Type> type;
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Value<atUint32> unknown1;
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Value<atUint32> sclyId;
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Buffer<DNA_COUNT(0x10)> unknownHash;
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Seek<DNA_COUNT(4), Athena::Current> seek1;
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Value<atVec4f> transformMtx[3];
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Seek<DNA_COUNT(0x10), Athena::Current> seek2;
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virtual ~MappableObjectMP3() {}
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};
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std::vector<std::unique_ptr<IMappableObject>> mappableObjects;
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Vector<atVec3f, DNA_COUNT(header->vertexCount())> vertices;
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struct SurfaceHeader : BigDNA
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{
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DECL_DNA
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Value<atVec3f> normal;
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Value<atVec3f> centroid;
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Value<atUint32> polyOff;
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Value<atUint32> edgeOff;
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};
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Vector<SurfaceHeader, DNA_COUNT(header->surfaceCount())> surfaceHeaders;
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struct Surface : BigDNA
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{
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DECL_DNA
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Value<atUint32> primitiveCount;
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struct Primitive : BigDNA
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{
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DECL_DNA
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Value<atUint32> type;
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Value<atUint32> indexCount;
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Vector<atUint8, DNA_COUNT(indexCount)> indices;
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Align<4> align;
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};
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Vector<Primitive, DNA_COUNT(primitiveCount)> primitives;
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Value<atUint32> borderCount;
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struct Border : BigDNA
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{
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DECL_DNA
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Value<atUint32> indexCount;
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Vector<atUint8, DNA_COUNT(indexCount)> indices;
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Align<4> align;
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};
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Vector<Border, DNA_COUNT(borderCount)> borders;
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};
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Vector<Surface, DNA_COUNT(header->surfaceCount())> surfaces;
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};
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template <typename PAKRouter>
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bool ReadMAPAToBlender(HECL::BlenderConnection& conn,
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const MAPA& mapa,
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const HECL::ProjectPath& outPath,
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PAKRouter& pakRouter,
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const typename PAKRouter::EntryType& entry,
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bool force)
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{
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/* Rename MAPA for consistency */
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HECL::ProjectPath mapaPath(outPath.getParentPath(), _S("!map.blend"));
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if (!force && mapaPath.getPathType() == HECL::ProjectPath::Type::File)
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return true;
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if (!conn.createBlend(mapaPath, HECL::BlenderConnection::BlendType::MapArea))
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return false;
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HECL::BlenderConnection::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_unk = bpy.props.IntProperty(name='Retro: MAPA object unk')\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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"\n"
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"# Clear Scene\n"
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"for ob in bpy.data.objects:\n"
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" bpy.context.scene.objects.unlink(ob)\n"
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" bpy.data.objects.remove(ob)\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("bpy.context.scene.name = 'MAPA_%s'\n",
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entry.id.toString().c_str());
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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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{
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const MAPA::MappableObjectMP1_2* moMP12 = dynamic_cast<const MAPA::MappableObjectMP1_2*>(mo.get());
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if (moMP12)
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{
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os.format("obj = bpy.data.objects.new('MAPOBJ_%02d', None)\n"
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"bpy.context.scene.objects.link(obj)\n"
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"obj.retro_mappable_type = %d\n"
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"obj.retro_mappable_unk = %d\n"
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"obj.retro_mappable_sclyid = '%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, moMP12->unknown1, moMP12->sclyId,
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moMP12->transformMtx[0].vec[0], moMP12->transformMtx[0].vec[1], moMP12->transformMtx[0].vec[2], moMP12->transformMtx[0].vec[3],
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moMP12->transformMtx[1].vec[0], moMP12->transformMtx[1].vec[1], moMP12->transformMtx[1].vec[2], moMP12->transformMtx[1].vec[3],
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moMP12->transformMtx[2].vec[0], moMP12->transformMtx[2].vec[1], moMP12->transformMtx[2].vec[2], moMP12->transformMtx[2].vec[3]);
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++moIdx;
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continue;
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}
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const MAPA::MappableObjectMP3* moMP3 = dynamic_cast<const MAPA::MappableObjectMP3*>(mo.get());
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if (moMP3)
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{
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os.format("obj = bpy.data.objects.new('MAPOBJ_%02d', None)\n"
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"bpy.context.scene.objects.link(obj)\n"
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"obj.retro_mappable_type = %d\n"
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"obj.retro_mappable_unk = %d\n"
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"obj.retro_mappable_sclyid = '%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, moMP3->unknown1, moMP3->sclyId,
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moMP3->transformMtx[0].vec[0], moMP3->transformMtx[0].vec[1], moMP3->transformMtx[0].vec[2], moMP3->transformMtx[0].vec[3],
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moMP3->transformMtx[1].vec[0], moMP3->transformMtx[1].vec[1], moMP3->transformMtx[1].vec[2], moMP3->transformMtx[1].vec[3],
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moMP3->transformMtx[2].vec[0], moMP3->transformMtx[2].vec[1], moMP3->transformMtx[2].vec[2], moMP3->transformMtx[2].vec[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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os.format("bm.verts.new((%f,%f,%f))\n",
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vert.vec[0], vert.vec[1], vert.vec[2]);
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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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{
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for (const typename MAPA::Surface::Primitive& prim : surf.primitives)
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{
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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] =
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{
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*iit++,
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*iit++,
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*iit++
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};
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if (GX::Primitive(prim.type) == GX::TRIANGLESTRIP)
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{
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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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{
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if (flip)
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{
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os.format("add_triangle(bm, (%u,%u,%u))\n",
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primVerts[c%3],
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primVerts[(c+2)%3],
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primVerts[(c+1)%3]);
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}
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else
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{
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os.format("add_triangle(bm, (%u,%u,%u))\n",
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primVerts[c%3],
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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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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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}
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else if (GX::Primitive(prim.type) == GX::TRIANGLES)
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{
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for (size_t v=0 ; v<prim.indexCount ; v+=3)
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{
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os.format("add_triangle(bm, (%u,%u,%u))\n",
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primVerts[0],
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primVerts[1],
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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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{
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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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{
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os.format("add_border(bm, (%u,%u))\n",
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*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.objects.link(obj)\n"
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"bm.free()\n";
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/* World background */
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HECL::ProjectPath worldBlend(outPath.getParentPath().getParentPath(), "!world.blend");
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if (worldBlend.getPathType() == HECL::ProjectPath::Type::File)
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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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}
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}
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#endif // __DNACOMMON_MAPA_HPP__
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