quakeforge/tools/qfbsp/source/solidbsp.c

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2002-09-19 18:51:19 +00:00
/*
Copyright (C) 1996-1997 Id Software, Inc.
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This program 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.
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This program 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.
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You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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See file, 'COPYING', for details.
*/
// solidbsp.c
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include <stdlib.h>
#include "QF/sys.h"
#include "bsp5.h"
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int leaffaces;
int nodefaces;
int splitnodes;
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int c_solid, c_empty, c_water;
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qboolean usemidsplit;
/*
==================
FaceSide
For BSP hueristic
==================
*/
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int
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FaceSide (face_t *in, plane_t *split)
{
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int frontcount, backcount, i;
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vec_t dot;
vec_t *p;
frontcount = backcount = 0;
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// axial planes are fast
if (split->type < 3)
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for (i = 0, p = in->pts[0] + split->type; i < in->numpoints;
i++, p += 3) {
if (*p > split->dist + ON_EPSILON) {
if (backcount)
return SIDE_ON;
frontcount = 1;
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} else if (*p < split->dist - ON_EPSILON) {
if (frontcount)
return SIDE_ON;
backcount = 1;
}
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} else
// sloping planes take longer
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for (i = 0, p = in->pts[0]; i < in->numpoints; i++, p += 3) {
dot = DotProduct (p, split->normal);
dot -= split->dist;
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if (dot > ON_EPSILON) {
if (backcount)
return SIDE_ON;
frontcount = 1;
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} else if (dot < -ON_EPSILON) {
if (frontcount)
return SIDE_ON;
backcount = 1;
}
}
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if (!frontcount)
return SIDE_BACK;
if (!backcount)
return SIDE_FRONT;
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return SIDE_ON;
}
/*
==================
ChooseMidPlaneFromList
The clipping hull BSP doesn't worry about avoiding splits
==================
*/
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surface_t *
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ChooseMidPlaneFromList (surface_t *surfaces, vec3_t mins, vec3_t maxs)
{
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int j, l;
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plane_t *plane;
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surface_t *p, *bestsurface;
vec_t bestvalue, value, dist;
// pick the plane that splits the least
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bestvalue = 6 * 8192 * 8192;
bestsurface = NULL;
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for (p = surfaces; p; p = p->next) {
if (p->onnode)
continue;
plane = &planes[p->planenum];
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// check for axis aligned surfaces
l = plane->type;
if (l > PLANE_Z)
continue;
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// calculate the split metric along axis l, smaller values are better
value = 0;
dist = plane->dist * plane->normal[l];
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for (j = 0; j < 3; j++) {
if (j == l) {
value += (maxs[l] - dist) * (maxs[l] - dist);
value += (dist - mins[l]) * (dist - mins[l]);
} else
value += 2 * (maxs[j] - mins[j]) * (maxs[j] - mins[j]);
}
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if (value > bestvalue)
continue;
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// currently the best!
bestvalue = value;
bestsurface = p;
}
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if (!bestsurface) {
for (p = surfaces; p; p = p->next)
if (!p->onnode)
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return p; // first valid surface
Sys_Error ("ChooseMidPlaneFromList: no valid planes");
}
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return bestsurface;
}
/*
==================
ChoosePlaneFromList
The real BSP hueristic
==================
*/
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surface_t *
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ChoosePlaneFromList (surface_t *surfaces, vec3_t mins, vec3_t maxs,
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qboolean usefloors)
{
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face_t *f;
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int j, k, l;
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plane_t *plane;
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surface_t *p, *p2, *bestsurface;
vec_t bestvalue, bestdistribution, value, dist;
// pick the plane that splits the least
bestvalue = 99999;
bestsurface = NULL;
bestdistribution = 9e30;
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for (p = surfaces; p; p = p->next) {
if (p->onnode)
continue;
plane = &planes[p->planenum];
k = 0;
if (!usefloors && plane->normal[2] == 1)
continue;
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for (p2 = surfaces; p2; p2 = p2->next) {
if (p2 == p)
continue;
if (p2->onnode)
continue;
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for (f = p2->faces; f; f = f->next) {
if (FaceSide (f, plane) == SIDE_ON) {
k++;
if (k >= bestvalue)
break;
}
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}
if (k > bestvalue)
break;
}
if (k > bestvalue)
continue;
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// if equal numbers, axial planes win, then decide on spatial
// subdivision
if (k < bestvalue || (k == bestvalue && plane->type < PLANE_ANYX)) {
// check for axis aligned surfaces
l = plane->type;
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if (l <= PLANE_Z) { // axial aligned
// calculate the split metric along axis l
value = 0;
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for (j = 0; j < 3; j++) {
if (j == l) {
dist = plane->dist * plane->normal[l];
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value += (maxs[l] - dist) * (maxs[l] - dist);
value += (dist - mins[l]) * (dist - mins[l]);
} else
value += 2 * (maxs[j] - mins[j]) * (maxs[j] - mins[j]);
}
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if (value > bestdistribution && k == bestvalue)
continue;
bestdistribution = value;
}
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// currently the best!
bestvalue = k;
bestsurface = p;
}
}
return bestsurface;
}
/*
==================
SelectPartition
Selects a surface from a linked list of surfaces to split the group on
returns NULL if the surface list can not be divided any more (a leaf)
==================
*/
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surface_t *
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SelectPartition (surface_t *surfaces)
{
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int i, j;
surface_t *p, *bestsurface;
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vec3_t mins, maxs;
// count onnode surfaces
i = 0;
bestsurface = NULL;
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for (p = surfaces; p; p = p->next)
if (!p->onnode) {
i++;
bestsurface = p;
}
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if (i == 0)
return NULL;
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if (i == 1)
return bestsurface; // this is a final split
// calculate a bounding box of the entire surfaceset
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for (i = 0; i < 3; i++) {
mins[i] = 99999;
maxs[i] = -99999;
}
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for (p = surfaces; p; p = p->next)
for (j = 0; j < 3; j++) {
if (p->mins[j] < mins[j])
mins[j] = p->mins[j];
if (p->maxs[j] > maxs[j])
maxs[j] = p->maxs[j];
}
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if (usemidsplit) // do fast way for clipping hull
return ChooseMidPlaneFromList (surfaces, mins, maxs);
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// do slow way to save poly splits for drawing hull
#if 0
bestsurface = ChoosePlaneFromList (surfaces, mins, maxs, false);
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if (bestsurface)
return bestsurface;
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#endif
return ChoosePlaneFromList (surfaces, mins, maxs, true);
}
//============================================================================
/*
=================
CalcSurfaceInfo
Calculates the bounding box
=================
*/
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void
CalcSurfaceInfo (surface_t * surf)
{
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face_t *f;
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int i, j;
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if (!surf->faces)
Sys_Error ("CalcSurfaceInfo: surface without a face");
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// calculate a bounding box
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for (i = 0; i < 3; i++) {
surf->mins[i] = 99999;
surf->maxs[i] = -99999;
}
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for (f = surf->faces; f; f = f->next) {
if (f->contents[0] >= 0 || f->contents[1] >= 0)
Sys_Error ("Bad contents");
for (i = 0; i < f->numpoints; i++)
for (j = 0; j < 3; j++) {
if (f->pts[i][j] < surf->mins[j])
surf->mins[j] = f->pts[i][j];
if (f->pts[i][j] > surf->maxs[j])
surf->maxs[j] = f->pts[i][j];
}
}
}
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void
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DividePlane (surface_t *in, plane_t *split, surface_t **front,
surface_t **back)
{
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face_t *facet, *next;
face_t *frontlist, *backlist;
face_t *frontfrag, *backfrag;
plane_t *inplane;
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surface_t *news;
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inplane = &planes[in->planenum];
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// parallel case is easy
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if (VectorCompare (inplane->normal, split->normal)) {
// check for exactly on node
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if (inplane->dist == split->dist) { // divide the facets to the front
// and back sides
news = AllocSurface ();
*news = *in;
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facet = in->faces;
in->faces = NULL;
news->faces = NULL;
in->onnode = news->onnode = true;
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for (; facet; facet = next) {
next = facet->next;
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if (facet->planeside == 1) {
facet->next = news->faces;
news->faces = facet;
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} else {
facet->next = in->faces;
in->faces = facet;
}
}
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if (in->faces)
*front = in;
else
*front = NULL;
if (news->faces)
*back = news;
else
*back = NULL;
return;
}
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if (inplane->dist > split->dist) {
*front = in;
*back = NULL;
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} else {
*front = NULL;
*back = in;
}
return;
}
// do a real split. may still end up entirely on one side
// OPTIMIZE: use bounding box for fast test
frontlist = NULL;
backlist = NULL;
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for (facet = in->faces; facet; facet = next) {
next = facet->next;
SplitFace (facet, split, &frontfrag, &backfrag);
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if (frontfrag) {
frontfrag->next = frontlist;
frontlist = frontfrag;
}
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if (backfrag) {
backfrag->next = backlist;
backlist = backfrag;
}
}
// if nothing actually got split, just move the in plane
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if (frontlist == NULL) {
*front = NULL;
*back = in;
in->faces = backlist;
return;
}
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if (backlist == NULL) {
*front = in;
*back = NULL;
in->faces = frontlist;
return;
}
// stuff got split, so allocate one new plane and reuse in
news = AllocSurface ();
*news = *in;
news->faces = backlist;
*back = news;
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in->faces = frontlist;
*front = in;
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// recalc bboxes and flags
CalcSurfaceInfo (news);
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CalcSurfaceInfo (in);
}
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void
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DivideNodeBounds (node_t *node, plane_t *split)
{
VectorCopy (node->mins, node->children[0]->mins);
VectorCopy (node->mins, node->children[1]->mins);
VectorCopy (node->maxs, node->children[0]->maxs);
VectorCopy (node->maxs, node->children[1]->maxs);
// OPTIMIZE: sloping cuts can give a better bbox than this...
if (split->type > 2)
return;
node->children[0]->mins[split->type] =
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node->children[1]->maxs[split->type] = split->dist;
}
/*
==================
LinkConvexFaces
Determines the contents of the leaf and creates the final list of
original faces that have some fragment inside this leaf
==================
*/
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void
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LinkConvexFaces (surface_t *planelist, node_t *leafnode)
{
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face_t *f, *next;
int i, count;
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surface_t *surf, *pnext;
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leafnode->faces = NULL;
leafnode->contents = 0;
leafnode->planenum = -1;
count = 0;
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for (surf = planelist; surf; surf = surf->next) {
for (f = surf->faces; f; f = f->next) {
count++;
if (!leafnode->contents)
leafnode->contents = f->contents[0];
else if (leafnode->contents != f->contents[0])
Sys_Error ("Mixed face contents in leafnode");
}
}
if (!leafnode->contents)
leafnode->contents = CONTENTS_SOLID;
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switch (leafnode->contents) {
case CONTENTS_EMPTY:
c_empty++;
break;
case CONTENTS_SOLID:
c_solid++;
break;
case CONTENTS_WATER:
case CONTENTS_SLIME:
case CONTENTS_LAVA:
case CONTENTS_SKY:
c_water++;
break;
default:
Sys_Error ("LinkConvexFaces: bad contents number");
}
// write the list of faces, and free the originals
leaffaces += count;
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leafnode->markfaces = malloc (sizeof (face_t *) * (count + 1));
i = 0;
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for (surf = planelist; surf; surf = pnext) {
pnext = surf->next;
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for (f = surf->faces; f; f = next) {
next = f->next;
leafnode->markfaces[i] = f->original;
i++;
FreeFace (f);
}
FreeSurface (surf);
}
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leafnode->markfaces[i] = NULL; // sentinal
}
/*
==================
LinkNodeFaces
Returns a duplicated list of all faces on surface
==================
*/
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face_t *
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LinkNodeFaces (surface_t *surface)
{
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face_t *list, *new, **prevptr, *f;
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list = NULL;
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// subdivide
prevptr = &surface->faces;
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while (1) {
f = *prevptr;
if (!f)
break;
SubdivideFace (f, prevptr);
f = *prevptr;
prevptr = &f->next;
}
// copy
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for (f = surface->faces; f; f = f->next) {
nodefaces++;
new = AllocFace ();
*new = *f;
f->original = new;
new->next = list;
list = new;
}
return list;
}
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void
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PartitionSurfaces (surface_t *surfaces, node_t *node)
{
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surface_t *split, *p, *next;
surface_t *frontlist, *backlist;
surface_t *frontfrag, *backfrag;
plane_t *splitplane;
split = SelectPartition (surfaces);
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if (!split) { // this is a leaf node
node->planenum = PLANENUM_LEAF;
LinkConvexFaces (surfaces, node);
return;
}
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splitnodes++;
node->faces = LinkNodeFaces (split);
node->children[0] = AllocNode ();
node->children[1] = AllocNode ();
node->planenum = split->planenum;
splitplane = &planes[split->planenum];
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DivideNodeBounds (node, splitplane);
// multiple surfaces, so split all the polysurfaces into front and back lists
frontlist = NULL;
backlist = NULL;
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for (p = surfaces; p; p = next) {
next = p->next;
DividePlane (p, splitplane, &frontfrag, &backfrag);
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if (frontfrag && backfrag) {
// the plane was split, which may expose oportunities to merge
// adjacent faces into a single face
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// MergePlaneFaces (frontfrag);
// MergePlaneFaces (backfrag);
}
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if (frontfrag) {
if (!frontfrag->faces)
Sys_Error ("surface with no faces");
frontfrag->next = frontlist;
frontlist = frontfrag;
}
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if (backfrag) {
if (!backfrag->faces)
Sys_Error ("surface with no faces");
backfrag->next = backlist;
backlist = backfrag;
}
}
PartitionSurfaces (frontlist, node->children[0]);
PartitionSurfaces (backlist, node->children[1]);
}
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void
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DrawSurface (surface_t *surf)
{
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face_t *f;
for (f = surf->faces; f; f = f->next)
Draw_DrawFace (f);
}
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void
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DrawSurfaceList (surface_t *surf)
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{
Draw_ClearWindow ();
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while (surf) {
DrawSurface (surf);
surf = surf->next;
}
}
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node_t *
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SolidBSP (surface_t *surfhead, qboolean midsplit)
{
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int i;
node_t *headnode;
qprintf ("----- SolidBSP -----\n");
headnode = AllocNode ();
usemidsplit = midsplit;
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// calculate a bounding box for the entire model
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for (i = 0; i < 3; i++) {
headnode->mins[i] = brushset->mins[i] - SIDESPACE;
headnode->maxs[i] = brushset->maxs[i] + SIDESPACE;
}
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// recursively partition everything
Draw_ClearWindow ();
splitnodes = 0;
leaffaces = 0;
nodefaces = 0;
c_solid = c_empty = c_water = 0;
PartitionSurfaces (surfhead, headnode);
qprintf ("%5i split nodes\n", splitnodes);
qprintf ("%5i solid leafs\n", c_solid);
qprintf ("%5i empty leafs\n", c_empty);
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qprintf ("%5i water leafs\n", c_water);
qprintf ("%5i leaffaces\n", leaffaces);
qprintf ("%5i nodefaces\n", nodefaces);
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return headnode;
}