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tetrahedron.c
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tetrahedron.c
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/*
===========================================================================
Copyright (C) 1999-2005 Id Software, Inc.
This file is part of Quake III Arena source code.
Quake III Arena source code is free software; you can redistribute it
and/or modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of the License,
or (at your option) any later version.
Quake III Arena source code 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with Foobar; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
===========================================================================
*/
#include "qbsp.h"
#include "l_mem.h"
#include "botlib/aasfile.h"
#include "aas_store.h"
#include "aas_cfg.h"
#include "aas_file.h"
//
// creating tetrahedrons from a arbitrary world bounded by triangles
//
// a triangle has 3 corners and 3 edges
// a tetrahedron is build out of 4 triangles
// a tetrahedron has 6 edges
// we start with a world bounded by triangles, a side of a triangle facing
// towards the oudside of the world is marked as part of tetrahedron -1
//
// a tetrahedron is defined by two non-coplanar triangles with a shared edge
//
// a tetrahedron is defined by one triangle and a vertex not in the triangle plane
//
// if all triangles using a specific vertex have tetrahedrons
// at both sides then this vertex will never be part of a new tetrahedron
//
// if all triangles using a specific edge have tetrahedrons
// at both sides then this vertex will never be part of a new tetrahedron
//
// each triangle can only be shared by two tetrahedrons
// when all triangles have tetrahedrons at both sides then we're done
//
// if we cannot create any new tetrahedrons and there is at least one triangle
// which has a tetrahedron only at one side then the world leaks
//
#define Sign(x) (x < 0 ? 1 : 0)
#define MAX_TH_VERTEXES 128000
#define MAX_TH_PLANES 128000
#define MAX_TH_EDGES 512000
#define MAX_TH_TRIANGLES 51200
#define MAX_TH_TETRAHEDRONS 12800
#define PLANEHASH_SIZE 1024
#define EDGEHASH_SIZE 1024
#define TRIANGLEHASH_SIZE 1024
#define VERTEXHASH_SHIFT 7
#define VERTEXHASH_SIZE ((MAX_MAP_BOUNDS>>(VERTEXHASH_SHIFT-1))+1) //was 64
#define NORMAL_EPSILON 0.0001
#define DIST_EPSILON 0.1
#define VERTEX_EPSILON 0.01
#define INTEGRAL_EPSILON 0.01
//plane
typedef struct th_plane_s
{
vec3_t normal;
float dist;
int type;
int signbits;
struct th_plane_s *hashnext; //next plane in hash
} th_plane_t;
//vertex
typedef struct th_vertex_s
{
vec3_t v;
int usercount; //2x the number of to be processed
//triangles using this vertex
struct th_vertex_s *hashnext; //next vertex in hash
} th_vertex_t;
//edge
typedef struct th_edge_s
{
int v[2]; //vertex indexes
int usercount; //number of to be processed
//triangles using this edge
struct th_edge_s *hashnext; //next edge in hash
} th_edge_t;
//triangle
typedef struct th_triangle_s
{
int edges[3]; //negative if edge is flipped
th_plane_t planes[3]; //triangle bounding planes
int planenum; //plane the triangle is in
int front; //tetrahedron at the front
int back; //tetrahedron at the back
vec3_t mins, maxs; //triangle bounding box
struct th_triangle_s *prev, *next; //links in linked triangle lists
struct th_triangle_s *hashnext; //next triangle in hash
} th_triangle_t;
//tetrahedron
typedef struct th_tetrahedron_s
{
int triangles[4]; //negative if at backside of triangle
float volume; //tetrahedron volume
} th_tetrahedron_t;
typedef struct th_s
{
//vertexes
int numvertexes;
th_vertex_t *vertexes;
th_vertex_t *vertexhash[VERTEXHASH_SIZE * VERTEXHASH_SIZE];
//planes
int numplanes;
th_plane_t *planes;
th_plane_t *planehash[PLANEHASH_SIZE];
//edges
int numedges;
th_edge_t *edges;
th_edge_t *edgehash[EDGEHASH_SIZE];
//triangles
int numtriangles;
th_triangle_t *triangles;
th_triangle_t *trianglehash[TRIANGLEHASH_SIZE];
//tetrahedrons
int numtetrahedrons;
th_tetrahedron_t *tetrahedrons;
} th_t;
th_t thworld;
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_InitMaxTH(void)
{
//get memory for the tetrahedron data
thworld.vertexes = (th_vertex_t *) GetClearedMemory(MAX_TH_VERTEXES * sizeof(th_vertex_t));
thworld.planes = (th_plane_t *) GetClearedMemory(MAX_TH_PLANES * sizeof(th_plane_t));
thworld.edges = (th_edge_t *) GetClearedMemory(MAX_TH_EDGES * sizeof(th_edge_t));
thworld.triangles = (th_triangle_t *) GetClearedMemory(MAX_TH_TRIANGLES * sizeof(th_triangle_t));
thworld.tetrahedrons = (th_tetrahedron_t *) GetClearedMemory(MAX_TH_TETRAHEDRONS * sizeof(th_tetrahedron_t));
//reset the hash tables
memset(thworld.vertexhash, 0, VERTEXHASH_SIZE * sizeof(th_vertex_t *));
memset(thworld.planehash, 0, PLANEHASH_SIZE * sizeof(th_plane_t *));
memset(thworld.edgehash, 0, EDGEHASH_SIZE * sizeof(th_edge_t *));
memset(thworld.trianglehash, 0, TRIANGLEHASH_SIZE * sizeof(th_triangle_t *));
} //end of the function TH_InitMaxTH
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_FreeMaxTH(void)
{
if (thworld.vertexes) FreeMemory(thworld.vertexes);
thworld.vertexes = NULL;
thworld.numvertexes = 0;
if (thworld.planes) FreeMemory(thworld.planes);
thworld.planes = NULL;
thworld.numplanes = 0;
if (thworld.edges) FreeMemory(thworld.edges);
thworld.edges = NULL;
thworld.numedges = 0;
if (thworld.triangles) FreeMemory(thworld.triangles);
thworld.triangles = NULL;
thworld.numtriangles = 0;
if (thworld.tetrahedrons) FreeMemory(thworld.tetrahedrons);
thworld.tetrahedrons = NULL;
thworld.numtetrahedrons = 0;
} //end of the function TH_FreeMaxTH
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
float TH_TriangleArea(th_triangle_t *tri)
{
return 0;
} //end of the function TH_TriangleArea
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
float TH_TetrahedronVolume(th_tetrahedron_t *tetrahedron)
{
int edgenum, verts[3], i, j, v2;
float volume, d;
th_triangle_t *tri, *tri2;
th_plane_t *plane;
tri = &thworld.triangles[abs(tetrahedron->triangles[0])];
for (i = 0; i < 3; i++)
{
edgenum = tri->edges[i];
if (edgenum < 0) verts[i] = thworld.edges[abs(edgenum)].v[1];
else verts[i] = thworld.edges[edgenum].v[0];
} //end for
//
tri2 = &thworld.triangles[abs(tetrahedron->triangles[1])];
for (j = 0; j < 3; j++)
{
edgenum = tri2->edges[i];
if (edgenum < 0) v2 = thworld.edges[abs(edgenum)].v[1];
else v2 = thworld.edges[edgenum].v[0];
if (v2 != verts[0] &&
v2 != verts[1] &&
v2 != verts[2]) break;
} //end for
plane = &thworld.planes[tri->planenum];
d = -(DotProduct (thworld.vertexes[v2].v, plane->normal) - plane->dist);
volume = TH_TriangleArea(tri) * d / 3;
return volume;
} //end of the function TH_TetrahedronVolume
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_PlaneSignBits(vec3_t normal)
{
int i, signbits;
signbits = 0;
for (i = 2; i >= 0; i--)
{
signbits = (signbits << 1) + Sign(normal[i]);
} //end for
return signbits;
} //end of the function TH_PlaneSignBits
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_PlaneTypeForNormal(vec3_t normal)
{
vec_t ax, ay, az;
// NOTE: should these have an epsilon around 1.0?
if (normal[0] == 1.0 || normal[0] == -1.0)
return PLANE_X;
if (normal[1] == 1.0 || normal[1] == -1.0)
return PLANE_Y;
if (normal[2] == 1.0 || normal[2] == -1.0)
return PLANE_Z;
ax = fabs(normal[0]);
ay = fabs(normal[1]);
az = fabs(normal[2]);
if (ax >= ay && ax >= az)
return PLANE_ANYX;
if (ay >= ax && ay >= az)
return PLANE_ANYY;
return PLANE_ANYZ;
} //end of the function TH_PlaneTypeForNormal
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
qboolean TH_PlaneEqual(th_plane_t *p, vec3_t normal, vec_t dist)
{
if (
fabs(p->normal[0] - normal[0]) < NORMAL_EPSILON
&& fabs(p->normal[1] - normal[1]) < NORMAL_EPSILON
&& fabs(p->normal[2] - normal[2]) < NORMAL_EPSILON
&& fabs(p->dist - dist) < DIST_EPSILON )
return true;
return false;
} //end of the function TH_PlaneEqual
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_AddPlaneToHash(th_plane_t *p)
{
int hash;
hash = (int)fabs(p->dist) / 8;
hash &= (PLANEHASH_SIZE-1);
p->hashnext = thworld.planehash[hash];
thworld.planehash[hash] = p;
} //end of the function TH_AddPlaneToHash
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_CreateFloatPlane(vec3_t normal, vec_t dist)
{
th_plane_t *p, temp;
if (VectorLength(normal) < 0.5)
Error ("FloatPlane: bad normal");
// create a new plane
if (thworld.numplanes+2 > MAX_TH_PLANES)
Error ("MAX_TH_PLANES");
p = &thworld.planes[thworld.numplanes];
VectorCopy (normal, p->normal);
p->dist = dist;
p->type = (p+1)->type = TH_PlaneTypeForNormal (p->normal);
p->signbits = TH_PlaneSignBits(p->normal);
VectorSubtract (vec3_origin, normal, (p+1)->normal);
(p+1)->dist = -dist;
(p+1)->signbits = TH_PlaneSignBits((p+1)->normal);
thworld.numplanes += 2;
// allways put axial planes facing positive first
if (p->type < 3)
{
if (p->normal[0] < 0 || p->normal[1] < 0 || p->normal[2] < 0)
{
// flip order
temp = *p;
*p = *(p+1);
*(p+1) = temp;
TH_AddPlaneToHash(p);
TH_AddPlaneToHash(p+1);
return thworld.numplanes - 1;
} //end if
} //end if
TH_AddPlaneToHash(p);
TH_AddPlaneToHash(p+1);
return thworld.numplanes - 2;
} //end of the function TH_CreateFloatPlane
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_SnapVector(vec3_t normal)
{
int i;
for (i = 0; i < 3; i++)
{
if ( fabs(normal[i] - 1) < NORMAL_EPSILON )
{
VectorClear (normal);
normal[i] = 1;
break;
} //end if
if ( fabs(normal[i] - -1) < NORMAL_EPSILON )
{
VectorClear (normal);
normal[i] = -1;
break;
} //end if
} //end for
} //end of the function TH_SnapVector
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_SnapPlane(vec3_t normal, vec_t *dist)
{
TH_SnapVector(normal);
if (fabs(*dist-Q_rint(*dist)) < DIST_EPSILON)
*dist = Q_rint(*dist);
} //end of the function TH_SnapPlane
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_FindFloatPlane(vec3_t normal, vec_t dist)
{
int i;
th_plane_t *p;
int hash, h;
TH_SnapPlane (normal, &dist);
hash = (int)fabs(dist) / 8;
hash &= (PLANEHASH_SIZE-1);
// search the border bins as well
for (i = -1; i <= 1; i++)
{
h = (hash+i)&(PLANEHASH_SIZE-1);
for (p = thworld.planehash[h]; p; p = p->hashnext)
{
if (TH_PlaneEqual(p, normal, dist))
{
return p - thworld.planes;
} //end if
} //end for
} //end for
return TH_CreateFloatPlane(normal, dist);
} //end of the function TH_FindFloatPlane
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_PlaneFromPoints(int v1, int v2, int v3)
{
vec3_t t1, t2, normal;
vec_t dist;
float *p0, *p1, *p2;
p0 = thworld.vertexes[v1].v;
p1 = thworld.vertexes[v2].v;
p2 = thworld.vertexes[v3].v;
VectorSubtract(p0, p1, t1);
VectorSubtract(p2, p1, t2);
CrossProduct(t1, t2, normal);
VectorNormalize(normal);
dist = DotProduct(p0, normal);
return TH_FindFloatPlane(normal, dist);
} //end of the function TH_PlaneFromPoints
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_AddEdgeUser(int edgenum)
{
th_edge_t *edge;
edge = &thworld.edges[abs(edgenum)];
//increase edge user count
edge->usercount++;
//increase vertex user count as well
thworld.vertexes[edge->v[0]].usercount++;
thworld.vertexes[edge->v[1]].usercount++;
} //end of the function TH_AddEdgeUser
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_RemoveEdgeUser(int edgenum)
{
th_edge_t *edge;
edge = &thworld.edges[abs(edgenum)];
//decrease edge user count
edge->usercount--;
//decrease vertex user count as well
thworld.vertexes[edge->v[0]].usercount--;
thworld.vertexes[edge->v[1]].usercount--;
} //end of the function TH_RemoveEdgeUser
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_FreeTriangleEdges(th_triangle_t *tri)
{
int i;
for (i = 0; i < 3; i++)
{
TH_RemoveEdgeUser(abs(tri->edges[i]));
} //end for
} //end of the function TH_FreeTriangleEdges
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
unsigned TH_HashVec(vec3_t vec)
{
int x, y;
x = (MAX_MAP_BOUNDS + (int)(vec[0]+0.5)) >> VERTEXHASH_SHIFT;
y = (MAX_MAP_BOUNDS + (int)(vec[1]+0.5)) >> VERTEXHASH_SHIFT;
if (x < 0 || x >= VERTEXHASH_SIZE || y < 0 || y >= VERTEXHASH_SIZE)
Error("HashVec: point %f %f %f outside valid range", vec[0], vec[1], vec[2]);
return y*VERTEXHASH_SIZE + x;
} //end of the function TH_HashVec
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_FindVertex(vec3_t v)
{
int i, h;
th_vertex_t *vertex;
vec3_t vert;
for (i = 0; i < 3; i++)
{
if ( fabs(v[i] - Q_rint(v[i])) < INTEGRAL_EPSILON)
vert[i] = Q_rint(v[i]);
else
vert[i] = v[i];
} //end for
h = TH_HashVec(vert);
for (vertex = thworld.vertexhash[h]; vertex; vertex = vertex->hashnext)
{
if (fabs(vertex->v[0] - vert[0]) < VERTEX_EPSILON &&
fabs(vertex->v[1] - vert[1]) < VERTEX_EPSILON &&
fabs(vertex->v[2] - vert[2]) < VERTEX_EPSILON)
{
return vertex - thworld.vertexes;
} //end if
} //end for
return 0;
} //end of the function TH_FindVertex
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_AddVertexToHash(th_vertex_t *vertex)
{
int hashvalue;
hashvalue = TH_HashVec(vertex->v);
vertex->hashnext = thworld.vertexhash[hashvalue];
thworld.vertexhash[hashvalue] = vertex;
} //end of the function TH_AddVertexToHash
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_CreateVertex(vec3_t v)
{
if (thworld.numvertexes == 0) thworld.numvertexes = 1;
if (thworld.numvertexes >= MAX_TH_VERTEXES)
Error("MAX_TH_VERTEXES");
VectorCopy(v, thworld.vertexes[thworld.numvertexes].v);
thworld.vertexes[thworld.numvertexes].usercount = 0;
TH_AddVertexToHash(&thworld.vertexes[thworld.numvertexes]);
thworld.numvertexes++;
return thworld.numvertexes-1;
} //end of the function TH_CreateVertex
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_FindOrCreateVertex(vec3_t v)
{
int vertexnum;
vertexnum = TH_FindVertex(v);
if (!vertexnum) vertexnum = TH_CreateVertex(v);
return vertexnum;
} //end of the function TH_FindOrCreateVertex
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_FindEdge(int v1, int v2)
{
int hashvalue;
th_edge_t *edge;
hashvalue = (v1 + v2) & (EDGEHASH_SIZE-1);
for (edge = thworld.edgehash[hashvalue]; edge; edge = edge->hashnext)
{
if (edge->v[0] == v1 && edge->v[1] == v2) return edge - thworld.edges;
if (edge->v[1] == v1 && edge->v[0] == v2) return -(edge - thworld.edges);
} //end for
return 0;
} //end of the function TH_FindEdge
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_AddEdgeToHash(th_edge_t *edge)
{
int hashvalue;
hashvalue = (edge->v[0] + edge->v[1]) & (EDGEHASH_SIZE-1);
edge->hashnext = thworld.edgehash[hashvalue];
thworld.edgehash[hashvalue] = edge;
} //end of the function TH_AddEdgeToHash
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_CreateEdge(int v1, int v2)
{
th_edge_t *edge;
if (thworld.numedges == 0) thworld.numedges = 1;
if (thworld.numedges >= MAX_TH_EDGES)
Error("MAX_TH_EDGES");
edge = &thworld.edges[thworld.numedges++];
edge->v[0] = v1;
edge->v[1] = v2;
TH_AddEdgeToHash(edge);
return thworld.numedges-1;
} //end of the function TH_CreateEdge
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_FindOrCreateEdge(int v1, int v2)
{
int edgenum;
edgenum = TH_FindEdge(v1, v2);
if (!edgenum) edgenum = TH_CreateEdge(v1, v2);
return edgenum;
} //end of the function TH_FindOrCreateEdge
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_FindTriangle(int verts[3])
{
int i, hashvalue, edges[3];
th_triangle_t *tri;
for (i = 0; i < 3; i++)
{
edges[i] = TH_FindEdge(verts[i], verts[(i+1)%3]);
if (!edges[i]) return false;
} //end for
hashvalue = (abs(edges[0]) + abs(edges[1]) + abs(edges[2])) & (TRIANGLEHASH_SIZE-1);
for (tri = thworld.trianglehash[hashvalue]; tri; tri = tri->next)
{
for (i = 0; i < 3; i++)
{
if (abs(tri->edges[i]) != abs(edges[0]) &&
abs(tri->edges[i]) != abs(edges[1]) &&
abs(tri->edges[i]) != abs(edges[2])) break;
} //end for
if (i >= 3) return tri - thworld.triangles;
} //end for
return 0;
} //end of the function TH_FindTriangle
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_AddTriangleToHash(th_triangle_t *tri)
{
int hashvalue;
hashvalue = (abs(tri->edges[0]) + abs(tri->edges[1]) + abs(tri->edges[2])) & (TRIANGLEHASH_SIZE-1);
tri->hashnext = thworld.trianglehash[hashvalue];
thworld.trianglehash[hashvalue] = tri;
} //end of the function TH_AddTriangleToHash
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_CreateTrianglePlanes(int verts[3], th_plane_t *triplane, th_plane_t *planes)
{
int i;
vec3_t dir;
for (i = 0; i < 3; i++)
{
VectorSubtract(thworld.vertexes[verts[(i+1)%3]].v, thworld.vertexes[verts[i]].v, dir);
CrossProduct(dir, triplane->normal, planes[i].normal);
VectorNormalize(planes[i].normal);
planes[i].dist = DotProduct(thworld.vertexes[verts[i]].v, planes[i].normal);
} //end for
} //end of the function TH_CreateTrianglePlanes
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_CreateTriangle(int verts[3])
{
th_triangle_t *tri;
int i;
if (thworld.numtriangles == 0) thworld.numtriangles = 1;
if (thworld.numtriangles >= MAX_TH_TRIANGLES)
Error("MAX_TH_TRIANGLES");
tri = &thworld.triangles[thworld.numtriangles++];
for (i = 0; i < 3; i++)
{
tri->edges[i] = TH_FindOrCreateEdge(verts[i], verts[(i+1)%3]);
TH_AddEdgeUser(abs(tri->edges[i]));
} //end for
tri->front = 0;
tri->back = 0;
tri->planenum = TH_PlaneFromPoints(verts[0], verts[1], verts[2]);
tri->prev = NULL;
tri->next = NULL;
tri->hashnext = NULL;
TH_CreateTrianglePlanes(verts, &thworld.planes[tri->planenum], tri->planes);
TH_AddTriangleToHash(tri);
ClearBounds(tri->mins, tri->maxs);
for (i = 0; i < 3; i++)
{
AddPointToBounds(thworld.vertexes[verts[i]].v, tri->mins, tri->maxs);
} //end for
return thworld.numtriangles-1;
} //end of the function TH_CreateTriangle
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_CreateTetrahedron(int triangles[4])
{
th_tetrahedron_t *tetrahedron;
int i;
if (thworld.numtetrahedrons == 0) thworld.numtetrahedrons = 1;
if (thworld.numtetrahedrons >= MAX_TH_TETRAHEDRONS)
Error("MAX_TH_TETRAHEDRONS");
tetrahedron = &thworld.tetrahedrons[thworld.numtetrahedrons++];
for (i = 0; i < 4; i++)
{
tetrahedron->triangles[i] = triangles[i];
if (thworld.triangles[abs(triangles[i])].front)
{
thworld.triangles[abs(triangles[i])].back = thworld.numtetrahedrons-1;
} //end if
else
{
thworld.triangles[abs(triangles[i])].front = thworld.numtetrahedrons-1;
} //end else
} //end for
tetrahedron->volume = 0;
return thworld.numtetrahedrons-1;
} //end of the function TH_CreateTetrahedron
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_IntersectTrianglePlanes(int v1, int v2, th_plane_t *triplane, th_plane_t *planes)
{
float *p1, *p2, front, back, frac, d;
int i, side, lastside;
vec3_t mid;
p1 = thworld.vertexes[v1].v;
p2 = thworld.vertexes[v2].v;
front = DotProduct(p1, triplane->normal) - triplane->dist;
back = DotProduct(p2, triplane->normal) - triplane->dist;
//if both points at the same side of the plane
if (front < 0.1 && back < 0.1) return false;
if (front > -0.1 && back > -0.1) return false;
//
frac = front/(front-back);
mid[0] = p1[0] + (p2[0] - p1[0]) * frac;
mid[1] = p1[1] + (p2[1] - p1[1]) * frac;
mid[2] = p1[2] + (p2[2] - p1[2]) * frac;
//if the mid point is at the same side of all the tri bounding planes
lastside = 0;
for (i = 0; i < 3; i++)
{
d = DotProduct(mid, planes[i].normal) - planes[i].dist;
side = d < 0;
if (i && side != lastside) return false;
lastside = side;
} //end for
return true;
} //end of the function TH_IntersectTrianglePlanes
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_OutsideBoundingBox(int v1, int v2, vec3_t mins, vec3_t maxs)
{
float *p1, *p2;
int i;
p1 = thworld.vertexes[v1].v;
p2 = thworld.vertexes[v2].v;
//if both points are at the outer side of one of the bounding box planes
for (i = 0; i < 3; i++)
{
if (p1[i] < mins[i] && p2[i] < mins[i]) return true;
if (p1[i] > maxs[i] && p2[i] > maxs[i]) return true;
} //end for
return false;
} //end of the function TH_OutsideBoundingBox
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_TryEdge(int v1, int v2)
{
int i, j, v;
th_plane_t *plane;
th_triangle_t *tri;
//if the edge already exists it must be valid
if (TH_FindEdge(v1, v2)) return true;
//test the edge with all existing triangles
for (i = 1; i < thworld.numtriangles; i++)
{
tri = &thworld.triangles[i];
//if triangle is enclosed by two tetrahedrons we don't have to test it
//because the edge always has to go through another triangle of those
//tetrahedrons first to reach the enclosed triangle
if (tri->front && tri->back) continue;
//if the edges is totally outside the triangle bounding box
if (TH_OutsideBoundingBox(v1, v2, tri->mins, tri->maxs)) continue;
//if one of the edge vertexes is used by this triangle
for (j = 0; j < 3; j++)
{
v = thworld.edges[abs(tri->edges[j])].v[tri->edges[j] < 0];
if (v == v1 || v == v2) break;
} //end for
if (j < 3) continue;
//get the triangle plane
plane = &thworld.planes[tri->planenum];
//if the edge intersects with a triangle then it's not valid
if (TH_IntersectTrianglePlanes(v1, v2, plane, tri->planes)) return false;
} //end for
return true;
} //end of the function TH_TryEdge
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_TryTriangle(int verts[3])
{
th_plane_t planes[3], triplane;
vec3_t t1, t2;
float *p0, *p1, *p2;
int i, j;
p0 = thworld.vertexes[verts[0]].v;
p1 = thworld.vertexes[verts[1]].v;
p2 = thworld.vertexes[verts[2]].v;
VectorSubtract(p0, p1, t1);
VectorSubtract(p2, p1, t2);
CrossProduct(t1, t2, triplane.normal);
VectorNormalize(triplane.normal);
triplane.dist = DotProduct(p0, triplane.normal);
//
TH_CreateTrianglePlanes(verts, &triplane, planes);
//test if any existing edge intersects with this triangle
for (i = 1; i < thworld.numedges; i++)
{
//if the edge is only used by triangles with tetrahedrons at both sides
if (!thworld.edges[i].usercount) continue;
//if one of the triangle vertexes is used by this edge
for (j = 0; j < 3; j++)
{
if (verts[j] == thworld.edges[j].v[0] ||
verts[j] == thworld.edges[j].v[1]) break;
} //end for
if (j < 3) continue;
//if this edge intersects with the triangle
if (TH_IntersectTrianglePlanes(thworld.edges[i].v[0], thworld.edges[i].v[1], &triplane, planes)) return false;
} //end for
return true;
} //end of the function TH_TryTriangle
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_AddTriangleToList(th_triangle_t **trianglelist, th_triangle_t *tri)
{
tri->prev = NULL;
tri->next = *trianglelist;
if (*trianglelist) (*trianglelist)->prev = tri;
*trianglelist = tri;
} //end of the function TH_AddTriangleToList
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
void TH_RemoveTriangleFromList(th_triangle_t **trianglelist, th_triangle_t *tri)
{
if (tri->next) tri->next->prev = tri->prev;
if (tri->prev) tri->prev->next = tri->next;
else *trianglelist = tri->next;
} //end of the function TH_RemoveTriangleFromList
//===========================================================================
//
// Parameter: -
// Returns: -
// Changes Globals: -
//===========================================================================
int TH_FindTetrahedron1(th_triangle_t *tri, int *triangles)
{
int i, j, edgenum, side, v1, v2, v3, v4;
int verts1[3], verts2[3];
th_triangle_t *tri2;
//find another triangle with a shared edge
for (tri2 = tri->next; tri2; tri2 = tri2->next)
{
//if the triangles are in the same plane
if ((tri->planenum & ~1) == (tri2->planenum & ~1)) continue;
//try to find a shared edge
for (i = 0; i < 3; i++)
{
edgenum = abs(tri->edges[i]);
for (j = 0; j < 3; j++)
{
if (edgenum == abs(tri2->edges[j])) break;
} //end for
if (j < 3) break;
} //end for
//if the triangles have a shared edge
if (i < 3)
{
edgenum = tri->edges[(i+1)%3];
if (edgenum < 0) v1 = thworld.edges[abs(edgenum)].v[0];
else v1 = thworld.edges[edgenum].v[1];
edgenum = tri2->edges[(j+1)%3];
if (edgenum < 0) v2 = thworld.edges[abs(edgenum)].v[0];
else v2 = thworld.edges[edgenum].v[1];
//try the new edge
if (TH_TryEdge(v1, v2))
{
edgenum = tri->edges[i];
side = edgenum < 0;
//get the vertexes of the shared edge