khanat-opennel-code/code/nel/tools/3d/pipeline_max/builtin/geom_object.cpp

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/**
* \file geom_object.cpp
* \brief CGeomGeomObject
* \date 2012-08-22 08:58GMT
* \author Jan Boon (Kaetemi)
* CGeomGeomObject
*/
/*
* Copyright (C) 2012 by authors
*
* This file is part of RYZOM CORE PIPELINE.
* RYZOM CORE PIPELINE is free software: you can redistribute it
* and/or modify it under the terms of the GNU Affero General Public
* License as published by the Free Software Foundation, either
* version 3 of the License, or (at your option) any later version.
*
* RYZOM CORE PIPELINE is distributed in the hope that it will be
* useful, but WITHOUT ANY WARRANTY; without even the implied warranty
* of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public
* License along with RYZOM CORE PIPELINE. If not, see
* <http://www.gnu.org/licenses/>.
*/
#include <nel/misc/types_nl.h>
#include "geom_object.h"
// STL includes
// NeL includes
// #include <nel/misc/debug.h>
// Project includes
// using namespace std;
// using namespace NLMISC;
namespace PIPELINE {
namespace MAX {
namespace BUILTIN {
#define PMB_GEOM_UNKNOWN0900_CHUNK_ID 0x0900
#define PMB_GEOM_BUFFERS_CHUNK_ID 0x08fe
CGeomObject::CGeomObject(CScene *scene) : CObject(scene), m_Unknown0900(NULL), m_GeomBuffers(NULL)
{
}
CGeomObject::~CGeomObject()
{
if (!m_ChunksOwnsPointers)
{
m_Unknown0900 = NULL;
m_GeomBuffers = NULL;
}
}
const ucstring CGeomObject::DisplayName = ucstring("GeomObject");
const char *CGeomObject::InternalName = "GeomObject";
const char *CGeomObject::InternalNameUnknown = "GeomObjectUnknown";
const NLMISC::CClassId CGeomObject::ClassId = NLMISC::CClassId(0x37097c44, 0x38aa3f24); /* Not official, please correct */
const TSClassId CGeomObject::SuperClassId = 0x00000010;
const CGeomObjectClassDesc GeomObjectClassDesc(&DllPluginDescBuiltin);
const CGeomObjectSuperClassDesc GeomObjectSuperClassDesc(&GeomObjectClassDesc);
void CGeomObject::parse(uint16 version, uint filter)
{
if (filter == 0)
{
CObject::parse(version);
}
else if (filter == PMB_GEOM_OBJECT_PARSE_FILTER)
{
if (!m_ChunksOwnsPointers)
{
m_Unknown0900 = getChunk(PMB_GEOM_UNKNOWN0900_CHUNK_ID);
m_GeomBuffers = static_cast<STORAGE::CGeomBuffers *>(getChunk(PMB_GEOM_BUFFERS_CHUNK_ID));
}
}
}
void CGeomObject::clean()
{
CObject::clean();
}
void CGeomObject::build(uint16 version, uint filter)
{
if (filter == 0)
{
CObject::build(version);
}
else if (filter == PMB_GEOM_OBJECT_PARSE_FILTER)
{
if (m_Unknown0900) putChunk(PMB_GEOM_UNKNOWN0900_CHUNK_ID, m_Unknown0900);
if (m_GeomBuffers) putChunk(PMB_GEOM_BUFFERS_CHUNK_ID, m_GeomBuffers);
}
}
void CGeomObject::disown()
{
m_Unknown0900 = NULL;
m_GeomBuffers = NULL;
CObject::disown();
}
void CGeomObject::init()
{
CObject::init();
}
bool CGeomObject::inherits(const NLMISC::CClassId classId) const
{
if (classId == classDesc()->classId()) return true;
return CObject::inherits(classId);
}
const ISceneClassDesc *CGeomObject::classDesc() const
{
return &GeomObjectClassDesc;
}
void CGeomObject::toStringLocal(std::ostream &ostream, const std::string &pad, uint filter) const
{
if (filter == 0)
{
CObject::toStringLocal(ostream, pad);
}
else if (filter == PMB_GEOM_OBJECT_PARSE_FILTER)
{
std::string padpad = pad + "\t";
if (m_Unknown0900)
{
ostream << "\n" << pad << "GeomObject Unknown 0x0900: ";
m_Unknown0900->toString(ostream, padpad);
}
if (m_GeomBuffers)
{
ostream << "\n" << pad << "GeomBuffers: ";
m_GeomBuffers->toString(ostream, padpad);
}
}
}
inline uint32 rrsub(uint32 v, uint32 size)
{
if (v) return v - 1;
return size - 1;
}
inline uint32 rradd(uint32 v, uint32 size)
{
uint32 vp = v + 1;
if (vp != size) return vp;
return 0;
}
void CGeomObject::triangulatePolyFace(std::vector<STORAGE::CGeomTriIndex> &triangles, const STORAGE::CGeomPolyFaceInfo &polyFace)
{
nlassert(polyFace.Vertices.size() >= 3);
nlassert(polyFace.Triangulation.size() == polyFace.Vertices.size() - 3);
uint nbVert = polyFace.Vertices.size();
uint nbCuts = polyFace.Triangulation.size();
uint nbTriangles = 0;
// This code creates a matrix, aka a table, of all possible paths
// that can be traveled to get directly from one vertex to another
// over an egde.
// Outer edges of the polygon are one-way, backwards.
// Cut edges can be traveled both ways.
// Each edge direction can only be traveled by one triangle.
// Ingenious, if I may say so myself.
// Bad performance by std::vector, though.
std::vector<std::vector<bool> > from_to;
from_to.resize(nbVert);
for (uint i = 0; i < nbVert; ++i)
{
from_to[i].resize(nbVert);
for (uint j = 0; j < nbVert; ++j)
{
from_to[i][j] = false;
}
// Can travel backwards over the outer edge
from_to[i][rrsub(i, nbVert)] = true;
}
for (uint i = 0; i < nbCuts; ++i)
{
// Can travel both ways over cuts, but the first direction is handled directly!
// from_to[polyFace.Triangulation[i].first][polyFace.Triangulation[i].second] = true;
from_to[polyFace.Triangulation[i].second][polyFace.Triangulation[i].first] = true;
}
// Triangulate all cuts, this assumes cuts are in the direction
// of a triangle that is not already handled by another cut...
for (uint i = 0; i < nbCuts; ++i)
{
uint32 a = polyFace.Triangulation[i].first;
uint32 b = polyFace.Triangulation[i].second;
// from_to[polyFace.Triangulation[i].first][polyFace.Triangulation[i].second] = false; // handled!
// Try to find a path that works
for (uint c = 0; c < nbVert; ++c)
{
// Can we make a triangle
if (from_to[b][c] && from_to[c][a])
{
STORAGE::CGeomTriIndex tri;
tri.a = polyFace.Vertices[c];
tri.b = polyFace.Vertices[b];
tri.c = polyFace.Vertices[a];
triangles.push_back(tri);
++nbTriangles;
// nldebug("add tri from cut");
from_to[b][c] = false;
from_to[c][a] = false;
break;
}
}
}
// Find... The Last Triangle
for (uint a = 0; a < nbVert; ++a)
{
uint b = rrsub(a, nbVert);
// Can we still travel backwards over the outer edge?
if (from_to[a][b])
{
for (uint c = 0; c < nbVert; ++c)
{
// Can we make a triangle
if (from_to[b][c] && from_to[c][a])
{
STORAGE::CGeomTriIndex tri;
tri.a = polyFace.Vertices[c];
tri.b = polyFace.Vertices[b];
tri.c = polyFace.Vertices[a];
triangles.push_back(tri);
++nbTriangles;
// nldebug("add final tri");
from_to[b][c] = false;
from_to[c][a] = false;
break;
}
}
}
}
// nldebug("triangles: %i", nbTriangles);
// nldebug("cuts: %i", nbCuts);
nlassert(nbTriangles == nbCuts + 1);
}
IStorageObject *CGeomObject::createChunkById(uint16 id, bool container)
{
switch (id)
{
case PMB_GEOM_UNKNOWN0900_CHUNK_ID:
return new CStorageArray<sint32>();
case PMB_GEOM_BUFFERS_CHUNK_ID:
return new STORAGE::CGeomBuffers();
}
return CObject::createChunkById(id, container);
}
} /* namespace BUILTIN */
} /* namespace MAX */
} /* namespace PIPELINE */
/* end of file */