gtkradiant/tools/quake2/q2map/qvis.c
2012-03-17 15:01:54 -05:00

590 lines
13 KiB
C

/*
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
*/
// qvis.c
#include "qvis.h"
#include "q2_threads.h"
#include "stdlib.h"
int numportals;
int portalclusters;
char inbase[32];
char outbase[32];
portal_t *portals;
leaf_t *leafs;
int c_portaltest, c_portalpass, c_portalcheck;
byte *uncompressedvis;
byte *vismap, *vismap_p, *vismap_end; // past visfile
int originalvismapsize;
int leafbytes; // (portalclusters+63)>>3
int leaflongs;
int portalbytes, portallongs;
qboolean fastvis;
qboolean nosort;
int testlevel = 2;
int totalvis;
portal_t *sorted_portals[MAX_MAP_PORTALS * 2];
//=============================================================================
void PlaneFromWinding( winding_t *w, plane_t *plane ){
vec3_t v1, v2;
// calc plane
VectorSubtract( w->points[2], w->points[1], v1 );
VectorSubtract( w->points[0], w->points[1], v2 );
CrossProduct( v2, v1, plane->normal );
VectorNormalize( plane->normal, plane->normal );
plane->dist = DotProduct( w->points[0], plane->normal );
}
/*
==================
NewWinding
==================
*/
winding_t *NewWinding( int points ){
winding_t *w;
int size;
if ( points > MAX_POINTS_ON_WINDING ) {
Error( "NewWinding: %i points", points );
}
size = (int)( (winding_t *)0 )->points[points];
w = malloc( size );
memset( w, 0, size );
return w;
}
/*
void pw(winding_t *w)
{
int i;
for (i=0 ; i<w->numpoints ; i++)
Sys_Printf ("(%5.1f, %5.1f, %5.1f)\n",w->points[i][0], w->points[i][1],w->points[i][2]);
}
*/
void prl( leaf_t *l ){
int i;
portal_t *p;
plane_t pl;
for ( i = 0 ; i < l->numportals ; i++ )
{
p = l->portals[i];
pl = p->plane;
Sys_Printf( "portal %4i to leaf %4i : %7.1f : (%4.1f, %4.1f, %4.1f)\n",(int)( p - portals ),p->leaf,pl.dist, pl.normal[0], pl.normal[1], pl.normal[2] );
}
}
//=============================================================================
/*
=============
SortPortals
Sorts the portals from the least complex, so the later ones can reuse
the earlier information.
=============
*/
int PComp( const void *a, const void *b ){
if ( ( *(portal_t **)a )->nummightsee == ( *(portal_t **)b )->nummightsee ) {
return 0;
}
if ( ( *(portal_t **)a )->nummightsee < ( *(portal_t **)b )->nummightsee ) {
return -1;
}
return 1;
}
void SortPortals( void ){
int i;
for ( i = 0 ; i < numportals * 2 ; i++ )
sorted_portals[i] = &portals[i];
if ( nosort ) {
return;
}
qsort( sorted_portals, numportals * 2, sizeof( sorted_portals[0] ), PComp );
}
/*
==============
LeafVectorFromPortalVector
==============
*/
int LeafVectorFromPortalVector( byte *portalbits, byte *leafbits ){
int i;
portal_t *p;
int c_leafs;
memset( leafbits, 0, leafbytes );
for ( i = 0 ; i < numportals * 2 ; i++ )
{
if ( portalbits[i >> 3] & ( 1 << ( i & 7 ) ) ) {
p = portals + i;
leafbits[p->leaf >> 3] |= ( 1 << ( p->leaf & 7 ) );
}
}
c_leafs = CountBits( leafbits, portalclusters );
return c_leafs;
}
/*
===============
ClusterMerge
Merges the portal visibility for a leaf
===============
*/
void ClusterMerge( int leafnum ){
leaf_t *leaf;
byte portalvector[MAX_PORTALS / 8];
byte uncompressed[MAX_MAP_LEAFS / 8];
byte compressed[MAX_MAP_LEAFS / 8];
int i, j;
int numvis;
byte *dest;
portal_t *p;
int pnum;
// OR together all the portalvis bits
memset( portalvector, 0, portalbytes );
leaf = &leafs[leafnum];
for ( i = 0 ; i < leaf->numportals ; i++ )
{
p = leaf->portals[i];
if ( p->status != stat_done ) {
Error( "portal not done" );
}
for ( j = 0 ; j < portallongs ; j++ )
( (long *)portalvector )[j] |= ( (long *)p->portalvis )[j];
pnum = p - portals;
portalvector[pnum >> 3] |= 1 << ( pnum & 7 );
}
// convert portal bits to leaf bits
numvis = LeafVectorFromPortalVector( portalvector, uncompressed );
if ( uncompressed[leafnum >> 3] & ( 1 << ( leafnum & 7 ) ) ) {
Sys_Printf( "WARNING: Leaf portals saw into leaf\n" );
}
uncompressed[leafnum >> 3] |= ( 1 << ( leafnum & 7 ) );
numvis++; // count the leaf itself
// save uncompressed for PHS calculation
memcpy( uncompressedvis + leafnum * leafbytes, uncompressed, leafbytes );
//
// compress the bit string
//
Sys_FPrintf( SYS_VRB, "cluster %4i : %4i visible\n", leafnum, numvis );
totalvis += numvis;
i = CompressVis( uncompressed, compressed );
dest = vismap_p;
vismap_p += i;
if ( vismap_p > vismap_end ) {
Error( "Vismap expansion overflow" );
}
dvis->bitofs[leafnum][DVIS_PVS] = dest - vismap;
memcpy( dest, compressed, i );
}
/*
==================
CalcPortalVis
==================
*/
void CalcPortalVis( void ){
int i;
// fastvis just uses mightsee for a very loose bound
if ( fastvis ) {
for ( i = 0 ; i < numportals * 2 ; i++ )
{
portals[i].portalvis = portals[i].portalflood;
portals[i].status = stat_done;
}
return;
}
RunThreadsOnIndividual( numportals * 2, true, PortalFlow );
}
/*
==================
CalcVis
==================
*/
void CalcVis( void ){
int i;
RunThreadsOnIndividual( numportals * 2, true, BasePortalVis );
// RunThreadsOnIndividual (numportals*2, true, BetterPortalVis);
SortPortals();
CalcPortalVis();
//
// assemble the leaf vis lists by oring and compressing the portal lists
//
for ( i = 0 ; i < portalclusters ; i++ )
ClusterMerge( i );
Sys_Printf( "Average clusters visible: %i\n", totalvis / portalclusters );
}
void SetPortalSphere( portal_t *p ){
int i;
vec3_t total, dist;
winding_t *w;
float r, bestr;
w = p->winding;
VectorCopy( vec3_origin, total );
for ( i = 0 ; i < w->numpoints ; i++ )
{
VectorAdd( total, w->points[i], total );
}
for ( i = 0 ; i < 3 ; i++ )
total[i] /= w->numpoints;
bestr = 0;
for ( i = 0 ; i < w->numpoints ; i++ )
{
VectorSubtract( w->points[i], total, dist );
r = VectorLength( dist );
if ( r > bestr ) {
bestr = r;
}
}
VectorCopy( total, p->origin );
p->radius = bestr;
}
/*
============
LoadPortals
============
*/
void LoadPortals( char *name ){
int i, j;
portal_t *p;
leaf_t *l;
char magic[80];
FILE *f;
int numpoints;
winding_t *w;
int leafnums[2];
plane_t plane;
if ( !strcmp( name,"-" ) ) {
f = stdin;
}
else
{
f = fopen( name, "r" );
if ( !f ) {
Error( "LoadPortals: couldn't read %s\n",name );
}
}
if ( fscanf( f,"%79s\n%i\n%i\n",magic, &portalclusters, &numportals ) != 3 ) {
Error( "LoadPortals: failed to read header" );
}
if ( strcmp( magic,PORTALFILE ) ) {
Error( "LoadPortals: not a portal file" );
}
Sys_Printf( "%4i portalclusters\n", portalclusters );
Sys_Printf( "%4i numportals\n", numportals );
// these counts should take advantage of 64 bit systems automatically
leafbytes = ( ( portalclusters + 63 ) & ~63 ) >> 3;
leaflongs = leafbytes / sizeof( long );
portalbytes = ( ( numportals * 2 + 63 ) & ~63 ) >> 3;
portallongs = portalbytes / sizeof( long );
// each file portal is split into two memory portals
portals = malloc( 2 * numportals * sizeof( portal_t ) );
memset( portals, 0, 2 * numportals * sizeof( portal_t ) );
leafs = malloc( portalclusters * sizeof( leaf_t ) );
memset( leafs, 0, portalclusters * sizeof( leaf_t ) );
originalvismapsize = portalclusters * leafbytes;
uncompressedvis = malloc( originalvismapsize );
vismap = vismap_p = dvisdata;
dvis->numclusters = portalclusters;
vismap_p = (byte *)&dvis->bitofs[portalclusters];
vismap_end = vismap + MAX_MAP_VISIBILITY;
for ( i = 0, p = portals ; i < numportals ; i++ )
{
if ( fscanf( f, "%i %i %i ", &numpoints, &leafnums[0], &leafnums[1] )
!= 3 ) {
Error( "LoadPortals: reading portal %i", i );
}
if ( numpoints > MAX_POINTS_ON_WINDING ) {
Error( "LoadPortals: portal %i has too many points", i );
}
if ( (unsigned)leafnums[0] > portalclusters
|| (unsigned)leafnums[1] > portalclusters ) {
Error( "LoadPortals: reading portal %i", i );
}
w = p->winding = NewWinding( numpoints );
w->original = true;
w->numpoints = numpoints;
for ( j = 0 ; j < numpoints ; j++ )
{
double v[3];
int k;
// scanf into double, then assign to vec_t
// so we don't care what size vec_t is
if ( fscanf( f, "(%lf %lf %lf ) "
, &v[0], &v[1], &v[2] ) != 3 ) {
Error( "LoadPortals: reading portal %i", i );
}
for ( k = 0 ; k < 3 ; k++ )
w->points[j][k] = v[k];
}
fscanf( f, "\n" );
// calc plane
PlaneFromWinding( w, &plane );
// create forward portal
l = &leafs[leafnums[0]];
if ( l->numportals == MAX_PORTALS_ON_LEAF ) {
Error( "Leaf with too many portals" );
}
l->portals[l->numportals] = p;
l->numportals++;
p->winding = w;
VectorSubtract( vec3_origin, plane.normal, p->plane.normal );
p->plane.dist = -plane.dist;
p->leaf = leafnums[1];
SetPortalSphere( p );
p++;
// create backwards portal
l = &leafs[leafnums[1]];
if ( l->numportals == MAX_PORTALS_ON_LEAF ) {
Error( "Leaf with too many portals" );
}
l->portals[l->numportals] = p;
l->numportals++;
p->winding = NewWinding( w->numpoints );
p->winding->numpoints = w->numpoints;
for ( j = 0 ; j < w->numpoints ; j++ )
{
VectorCopy( w->points[w->numpoints - 1 - j], p->winding->points[j] );
}
p->plane = plane;
p->leaf = leafnums[0];
SetPortalSphere( p );
p++;
}
fclose( f );
}
/*
================
CalcPHS
Calculate the PHS (Potentially Hearable Set)
by ORing together all the PVS visible from a leaf
================
*/
void CalcPHS( void ){
int i, j, k, l, index;
int bitbyte;
long *dest, *src;
byte *scan;
int count;
byte uncompressed[MAX_MAP_LEAFS / 8];
byte compressed[MAX_MAP_LEAFS / 8];
Sys_Printf( "Building PHS...\n" );
count = 0;
for ( i = 0 ; i < portalclusters ; i++ )
{
scan = uncompressedvis + i * leafbytes;
memcpy( uncompressed, scan, leafbytes );
for ( j = 0 ; j < leafbytes ; j++ )
{
bitbyte = scan[j];
if ( !bitbyte ) {
continue;
}
for ( k = 0 ; k < 8 ; k++ )
{
if ( !( bitbyte & ( 1 << k ) ) ) {
continue;
}
// OR this pvs row into the phs
index = ( ( j << 3 ) + k );
if ( index >= portalclusters ) {
Error( "Bad bit in PVS" ); // pad bits should be 0
}
src = (long *)( uncompressedvis + index * leafbytes );
dest = (long *)uncompressed;
for ( l = 0 ; l < leaflongs ; l++ )
( (long *)uncompressed )[l] |= src[l];
}
}
for ( j = 0 ; j < portalclusters ; j++ )
if ( uncompressed[j >> 3] & ( 1 << ( j & 7 ) ) ) {
count++;
}
//
// compress the bit string
//
j = CompressVis( uncompressed, compressed );
dest = (long *)vismap_p;
vismap_p += j;
if ( vismap_p > vismap_end ) {
Error( "Vismap expansion overflow" );
}
dvis->bitofs[i][DVIS_PHS] = (byte *)dest - vismap;
memcpy( dest, compressed, j );
}
Sys_Printf( "Average clusters hearable: %i\n", count / portalclusters );
}
/*
===========
main
===========
*/
int VIS_Main(){
char portalfile[1024];
char source[1024];
char name[1024];
double start, end;
int total_vis_time;
Sys_Printf( "\n----- VIS ----\n\n" );
//if (i != argc - 1)
// Error ("usage: vis [-threads #] [-level 0-4] [-fast] [-v] bspfile");
start = I_FloatTime();
ThreadSetDefault();
SetQdirFromPath( mapname );
strcpy( source, ExpandArg( mapname ) );
StripExtension( source );
DefaultExtension( source, ".bsp" );
sprintf( name, "%s%s", inbase, source );
Sys_Printf( "reading %s\n", name );
LoadBSPFile( name );
if ( numnodes == 0 || numfaces == 0 ) {
Error( "Empty map" );
}
sprintf( portalfile, "%s%s", inbase, ExpandArg( mapname ) );
StripExtension( portalfile );
strcat( portalfile, ".prt" );
Sys_Printf( "reading %s\n", portalfile );
LoadPortals( portalfile );
CalcVis();
CalcPHS();
visdatasize = vismap_p - dvisdata;
Sys_Printf( "visdatasize:%i compressed from %i\n", visdatasize, originalvismapsize * 2 );
sprintf( name, "%s%s", outbase, source );
Sys_Printf( "writing %s\n", name );
WriteBSPFile( name );
end = I_FloatTime();
total_vis_time = (int) ( end - start );
Sys_Printf( "\nVIS Time: " );
if ( total_vis_time > 59 ) {
Sys_Printf( "%d Minutes ", total_vis_time / 60 );
}
Sys_Printf( "%d Seconds\n", total_vis_time % 60 );
return 0;
}