gtkradiant/tools/quake3/q3map2/writebsp.c

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/*
Copyright (C) 1999-2007 id Software, Inc. and contributors.
For a list of contributors, see the accompanying CONTRIBUTORS file.
This file is part of GtkRadiant.
GtkRadiant 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.
GtkRadiant 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 GtkRadiant; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
----------------------------------------------------------------------------------
This code has been altered significantly from its original form, to support
several games based on the Quake III Arena engine, in the form of "Q3Map2."
------------------------------------------------------------------------------- */
/* marker */
#define WRITEBSP_C
/* dependencies */
#include "q3map2.h"
/*
EmitShader()
emits a bsp shader entry
*/
int EmitShader( const char *shader, int *contentFlags, int *surfaceFlags )
{
int i;
shaderInfo_t *si;
/* handle special cases */
if( shader == NULL )
shader = "noshader";
/* try to find an existing shader */
for( i = 0; i < numBSPShaders; i++ )
{
/* ydnar: handle custom surface/content flags */
if( surfaceFlags != NULL && bspShaders[ i ].surfaceFlags != *surfaceFlags )
continue;
if( contentFlags != NULL && bspShaders[ i ].contentFlags != *contentFlags )
continue;
/* compare name */
if( !Q_stricmp( shader, bspShaders[ i ].shader ) )
return i;
}
/* get shaderinfo */
si = ShaderInfoForShader( shader );
/* emit a new shader */
if( i == MAX_MAP_SHADERS )
Error( "MAX_MAP_SHADERS" );
numBSPShaders++;
strcpy( bspShaders[ i ].shader, shader );
bspShaders[ i ].surfaceFlags = si->surfaceFlags;
bspShaders[ i ].contentFlags = si->contentFlags;
/* handle custom content/surface flags */
if( surfaceFlags != NULL )
bspShaders[ i ].surfaceFlags = *surfaceFlags;
if( contentFlags != NULL )
bspShaders[ i ].contentFlags = *contentFlags;
/* recursively emit any damage shaders */
if( si->damageShader[ 0 ] != '\0' )
{
Sys_FPrintf( SYS_VRB, "Shader %s has damage shader %s\n", si->shader, si->damageShader );
EmitShader( si->damageShader, NULL, NULL );
}
/* return it */
return i;
}
/*
EmitPlanes()
there is no oportunity to discard planes, because all of the original
brushes will be saved in the map
*/
void EmitPlanes( void )
{
int i;
bspPlane_t *bp;
plane_t *mp;
/* walk plane list */
mp = mapplanes;
for( i = 0; i < nummapplanes; i++, mp++ )
{
bp = &bspPlanes[ numBSPPlanes ];
VectorCopy( mp->normal, bp->normal );
bp->dist = mp->dist;
numBSPPlanes++;
}
/* emit some statistics */
Sys_FPrintf( SYS_VRB, "%9d BSP planes\n", numBSPPlanes );
}
/*
EmitLeaf()
emits a leafnode to the bsp file
*/
void EmitLeaf( node_t *node )
{
bspLeaf_t *leaf_p;
brush_t *b;
drawSurfRef_t *dsr;
int i = 0;
/* check limits */
if( numBSPLeafs >= MAX_MAP_LEAFS )
Error( "MAX_MAP_LEAFS" );
leaf_p = &bspLeafs[numBSPLeafs];
numBSPLeafs++;
leaf_p->cluster = node->cluster;
leaf_p->area = node->area;
/* emit bounding box */
VectorCopy( node->mins, leaf_p->mins );
VectorCopy( node->maxs, leaf_p->maxs );
/* emit leaf brushes */
leaf_p->firstBSPLeafBrush = numBSPLeafBrushes;
for( b = node->brushlist; b; b = b->next )
{
/* something is corrupting brushes */
if( (int) b < 256 )
{
Sys_Printf( "WARNING: Node brush list corrupted (0x%08X)\n", b );
break;
}
//% if( b->guard != 0xDEADBEEF )
//% Sys_Printf( "Brush %6d: 0x%08X Guard: 0x%08X Next: 0x%08X Original: 0x%08X Sides: %d\n", b->brushNum, b, b, b->next, b->original, b->numsides );
if( numBSPLeafBrushes >= MAX_MAP_LEAFBRUSHES )
Error( "MAX_MAP_LEAFBRUSHES" );
bspLeafBrushes[ numBSPLeafBrushes ] = b->original->outputNum;
numBSPLeafBrushes++;
}
leaf_p->numBSPLeafBrushes = numBSPLeafBrushes - leaf_p->firstBSPLeafBrush;
/* emit leaf surfaces */
if( node->opaque )
return;
/* add the drawSurfRef_t drawsurfs */
leaf_p->firstBSPLeafSurface = numBSPLeafSurfaces;
for ( dsr = node->drawSurfReferences; dsr; dsr = dsr->nextRef )
{
if( numBSPLeafSurfaces >= MAX_MAP_LEAFFACES )
Error( "MAX_MAP_LEAFFACES" );
bspLeafSurfaces[ numBSPLeafSurfaces ] = dsr->outputNum;
numBSPLeafSurfaces++;
}
leaf_p->numBSPLeafSurfaces = numBSPLeafSurfaces - leaf_p->firstBSPLeafSurface;
}
/*
EmitDrawNode_r()
recursively emit the bsp nodes
*/
int EmitDrawNode_r( node_t *node )
{
bspNode_t *n;
int i;
/* check for leafnode */
if( node->planenum == PLANENUM_LEAF )
{
EmitLeaf( node );
return -numBSPLeafs;
}
/* emit a node */
if( numBSPNodes == MAX_MAP_NODES )
Error( "MAX_MAP_NODES" );
n = &bspNodes[ numBSPNodes ];
numBSPNodes++;
VectorCopy (node->mins, n->mins);
VectorCopy (node->maxs, n->maxs);
if (node->planenum & 1)
Error ("WriteDrawNodes_r: odd planenum");
n->planeNum = node->planenum;
//
// recursively output the other nodes
//
for (i=0 ; i<2 ; i++)
{
if (node->children[i]->planenum == PLANENUM_LEAF)
{
n->children[i] = -(numBSPLeafs + 1);
EmitLeaf (node->children[i]);
}
else
{
n->children[i] = numBSPNodes;
EmitDrawNode_r (node->children[i]);
}
}
return n - bspNodes;
}
/*
============
SetModelNumbers
============
*/
void SetModelNumbers (void)
{
int i;
int models;
char value[10];
models = 1;
for ( i=1 ; i<numEntities ; i++ ) {
if ( entities[i].brushes || entities[i].patches ) {
sprintf ( value, "*%i", models );
models++;
SetKeyValue (&entities[i], "model", value);
}
}
}
/*
SetLightStyles()
sets style keys for entity lights
*/
void SetLightStyles( void )
{
int i, j, style, numStyles;
qboolean keepLights;
const char *t;
entity_t *e;
epair_t *ep, *next;
char value[ 10 ];
char lightTargets[ MAX_SWITCHED_LIGHTS ][ 64 ];
int lightStyles[ MAX_SWITCHED_LIGHTS ];
/* ydnar: determine if we keep lights in the bsp */
t = ValueForKey( &entities[ 0 ], "_keepLights" );
keepLights = (t[ 0 ] == '1') ? qtrue : qfalse;
/* any light that is controlled (has a targetname) must have a unique style number generated for it */
numStyles = 0;
for( i = 1; i < numEntities; i++ )
{
e = &entities[ i ];
t = ValueForKey( e, "classname" );
if( Q_strncasecmp( t, "light", 5 ) )
continue;
t = ValueForKey( e, "targetname" );
if( t[ 0 ] == '\0' )
{
/* ydnar: strip the light from the BSP file */
if( keepLights == qfalse )
{
ep = e->epairs;
while( ep != NULL )
{
next = ep->next;
free( ep->key );
free( ep->value );
free( ep );
ep = next;
}
e->epairs = NULL;
numStrippedLights++;
}
/* next light */
continue;
}
/* get existing style */
style = IntForKey( e, "style" );
if( style < LS_NORMAL || style > LS_NONE )
Error( "Invalid lightstyle (%d) on entity %d", style, i );
/* find this targetname */
for( j = 0; j < numStyles; j++ )
if( lightStyles[ j ] == style && !strcmp( lightTargets[ j ], t ) )
break;
/* add a new style */
if( j >= numStyles )
{
if( numStyles == MAX_SWITCHED_LIGHTS )
Error( "MAX_SWITCHED_LIGHTS (%d) exceeded, reduce the number of lights with targetnames", MAX_SWITCHED_LIGHTS );
strcpy( lightTargets[ j ], t );
lightStyles[ j ] = style;
numStyles++;
}
/* set explicit style */
sprintf( value, "%d", 32 + j );
SetKeyValue( e, "style", value );
/* set old style */
if( style != LS_NORMAL )
{
sprintf( value, "%d", style );
SetKeyValue( e, "switch_style", value );
}
}
/* emit some statistics */
Sys_FPrintf( SYS_VRB, "%9d light entities stripped\n", numStrippedLights );
}
/*
BeginBSPFile()
starts a new bsp file
*/
void BeginBSPFile( void )
{
/* these values may actually be initialized if the file existed when loaded, so clear them explicitly */
numBSPModels = 0;
numBSPNodes = 0;
numBSPBrushSides = 0;
numBSPLeafSurfaces = 0;
numBSPLeafBrushes = 0;
/* leave leaf 0 as an error, because leafs are referenced as negative number nodes */
numBSPLeafs = 1;
/* ydnar: gs mods: set the first 6 drawindexes to 0 1 2 2 1 3 for triangles and quads */
numBSPDrawIndexes = 6;
bspDrawIndexes[ 0 ] = 0;
bspDrawIndexes[ 1 ] = 1;
bspDrawIndexes[ 2 ] = 2;
bspDrawIndexes[ 3 ] = 0;
bspDrawIndexes[ 4 ] = 2;
bspDrawIndexes[ 5 ] = 3;
}
/*
EndBSPFile()
finishes a new bsp and writes to disk
*/
void EndBSPFile( void )
{
char path[ 1024 ];
EmitPlanes();
numBSPEntities = numEntities;
UnparseEntities();
/* write the surface extra file */
WriteSurfaceExtraFile( source );
/* write the bsp */
sprintf( path, "%s.bsp", source );
Sys_Printf( "Writing %s\n", path );
WriteBSPFile( path );
}
/*
EmitBrushes()
writes the brush list to the bsp
*/
void EmitBrushes( brush_t *brushes, int *firstBrush, int *numBrushes )
{
int j;
brush_t *b;
bspBrush_t *db;
bspBrushSide_t *cp;
/* set initial brush */
if( firstBrush != NULL )
*firstBrush = numBSPBrushes;
if( numBrushes != NULL )
*numBrushes = 0;
/* walk list of brushes */
for( b = brushes; b != NULL; b = b->next )
{
/* check limits */
if( numBSPBrushes == MAX_MAP_BRUSHES )
Error( "MAX_MAP_BRUSHES (%d)", numBSPBrushes );
/* get bsp brush */
b->outputNum = numBSPBrushes;
db = &bspBrushes[ numBSPBrushes ];
numBSPBrushes++;
if( numBrushes != NULL )
(*numBrushes)++;
db->shaderNum = EmitShader( b->contentShader->shader, &b->contentShader->contentFlags, &b->contentShader->surfaceFlags );
db->firstSide = numBSPBrushSides;
/* walk sides */
db->numSides = 0;
for( j = 0; j < b->numsides; j++ )
{
/* set output number to bogus initially */
b->sides[ j ].outputNum = -1;
/* don't emit generated backSide sides */
if ( b->sides[ j ].backSide )
continue;
/* check count */
if( numBSPBrushSides == MAX_MAP_BRUSHSIDES )
Error( "MAX_MAP_BRUSHSIDES ");
/* emit side */
b->sides[ j ].outputNum = numBSPBrushSides;
cp = &bspBrushSides[ numBSPBrushSides ];
db->numSides++;
numBSPBrushSides++;
cp->planeNum = b->sides[ j ].planenum;
/* emit shader */
if( b->sides[ j ].shaderInfo )
cp->shaderNum = EmitShader( b->sides[ j ].shaderInfo->shader, &b->sides[ j ].shaderInfo->contentFlags, &b->sides[ j ].shaderInfo->surfaceFlags );
else
cp->shaderNum = EmitShader( NULL, NULL, NULL );
}
}
}
/*
EmitFogs() - ydnar
turns map fogs into bsp fogs
*/
void EmitFogs( void )
{
int i, j;
/* setup */
numBSPFogs = numMapFogs;
/* walk list */
for( i = 0; i < numMapFogs; i++ )
{
/* set shader */
strcpy( bspFogs[ i ].shader, mapFogs[ i ].si->shader );
/* global fog doesn't have an associated brush */
if( mapFogs[ i ].brush == NULL )
{
bspFogs[ i ].brushNum = -1;
bspFogs[ i ].visibleSide = -1;
}
else
{
/* set brush */
bspFogs[ i ].brushNum = mapFogs[ i ].brush->outputNum;
/* try to use forced visible side */
if( mapFogs[ i ].visibleSide >= 0 )
{
bspFogs[ i ].visibleSide = mapFogs[ i ].visibleSide;
continue;
}
/* find visible side */
for( j = 0; j < 6; j++ )
{
if( mapFogs[ i ].brush->sides[ j ].visibleHull != NULL )
{
Sys_Printf( "Fog %d has visible side %d\n", i, j );
bspFogs[ i ].visibleSide = j;
break;
}
}
}
}
}
/*
BeginModel()
sets up a new brush model
*/
void BeginModel( void )
{
bspModel_t *mod;
brush_t *b;
entity_t *e;
vec3_t mins, maxs;
vec3_t lgMins, lgMaxs; /* ydnar: lightgrid mins/maxs */
parseMesh_t *p;
int i;
/* test limits */
if( numBSPModels == MAX_MAP_MODELS )
Error( "MAX_MAP_MODELS" );
/* get model and entity */
mod = &bspModels[ numBSPModels ];
e = &entities[ mapEntityNum ];
/* ydnar: lightgrid mins/maxs */
ClearBounds( lgMins, lgMaxs );
/* bound the brushes */
ClearBounds( mins, maxs );
for ( b = e->brushes; b; b = b->next )
{
/* ignore non-real brushes (origin, etc) */
if( b->numsides == 0 )
continue;
AddPointToBounds( b->mins, mins, maxs );
AddPointToBounds( b->maxs, mins, maxs );
/* ydnar: lightgrid bounds */
if( b->compileFlags & C_LIGHTGRID )
{
AddPointToBounds( b->mins, lgMins, lgMaxs );
AddPointToBounds( b->maxs, lgMins, lgMaxs );
}
}
/* bound patches */
for( p = e->patches; p; p = p->next )
{
for( i = 0; i < (p->mesh.width * p->mesh.height); i++ )
AddPointToBounds( p->mesh.verts[i].xyz, mins, maxs );
}
/* ydnar: lightgrid mins/maxs */
if( lgMins[ 0 ] < 99999 )
{
/* use lightgrid bounds */
VectorCopy( lgMins, mod->mins );
VectorCopy( lgMaxs, mod->maxs );
}
else
{
/* use brush/patch bounds */
VectorCopy( mins, mod->mins );
VectorCopy( maxs, mod->maxs );
}
/* note size */
Sys_FPrintf( SYS_VRB, "BSP bounds: { %f %f %f } { %f %f %f }\n", mins[ 0 ], mins[ 1 ], mins[ 2 ], maxs[ 0 ], maxs[ 1 ], maxs[ 2 ] );
Sys_FPrintf( SYS_VRB, "Lightgrid bounds: { %f %f %f } { %f %f %f }\n", lgMins[ 0 ], lgMins[ 1 ], lgMins[ 2 ], lgMaxs[ 0 ], lgMaxs[ 1 ], lgMaxs[ 2 ] );
/* set firsts */
mod->firstBSPSurface = numBSPDrawSurfaces;
mod->firstBSPBrush = numBSPBrushes;
}
/*
EndModel()
finish a model's processing
*/
void EndModel( entity_t *e, node_t *headnode )
{
bspModel_t *mod;
/* note it */
Sys_FPrintf( SYS_VRB, "--- EndModel ---\n" );
/* emit the bsp */
mod = &bspModels[ numBSPModels ];
EmitDrawNode_r( headnode );
/* set surfaces and brushes */
mod->numBSPSurfaces = numBSPDrawSurfaces - mod->firstBSPSurface;
mod->firstBSPBrush = e->firstBrush;
mod->numBSPBrushes = e->numBrushes;
/* increment model count */
numBSPModels++;
}