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fteqw/engine/client/r_surf.c
Spoike eefc950400 particles: rework r_effect, such that its possible to project particles forwards
particles: add an emiteffectnum field (and support emiteffect+traileffect psuedo-fields), for reliable emissions that are not framerate dependant (emitted forwards by default...
particles: rewrote 'sky' surface emittance. can now emit from submodels too.
particles: be more verbose about unknown mode keywords, instead of silent.
server: add basic misc_model emulation, for mods that don't implement one.
quake2: better r1q2 compat.
renderer: rework mindist+maxdist, should be more consistent as well as more reliable with orthographic matricies. has actual VF_ enumerations now.
sound: fix CF_FOLLOW to not crash, and work with openal.
client: 'cl_loopbackprotocol nq' now uses appropriate protocol extensions.
fs: try using /usr/share/games/foo by default, if it exists.
server: uncap drate if unspecified, do not fall back on rate.

git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5021 fc73d0e0-1445-4013-8a0c-d673dee63da5
2016-10-22 07:06:51 +00:00

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/*
Copyright (C) 1996-1997 Id Software, Inc.
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.
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.
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.
*/
// r_surf.c: surface-related refresh code
#include "quakedef.h"
#ifndef SERVERONLY
#include "glquake.h"
#include "shader.h"
#include "renderque.h"
#include "com_mesh.h"
#include <math.h>
#if (defined(GLQUAKE) || defined(VKQUAKE)) && defined(MULTITHREAD)
#define THREADEDWORLD
#endif
extern cvar_t r_ambient;
static vec3_t modelorg; /*set before recursively entering the visible surface finder*/
model_t *currentmodel;
uploadfmt_t lightmap_fmt; //bgra32, rgba32, rgb24, lum8
int lightmap_bytes; // 1, 3 or 4
qboolean lightmap_bgra;
size_t maxblocksize;
vec3_t *blocknormals;
unsigned *blocklights;
lightmapinfo_t **lightmap;
int numlightmaps;
extern mleaf_t *r_vischain; // linked list of visible leafs
extern cvar_t r_stains;
extern cvar_t r_loadlits;
extern cvar_t r_stainfadetime;
extern cvar_t r_stainfadeammount;
extern cvar_t gl_lightmap_nearest;
static int lightmap_shift;
int Surf_LightmapShift (model_t *model)
{
extern cvar_t gl_overbright_all, gl_overbright;
if (gl_overbright_all.ival || (model->engineflags & MDLF_NEEDOVERBRIGHT))
lightmap_shift = bound(0, gl_overbright.ival, 2);
else
lightmap_shift = 0;
return lightmap_shift;
}
void QDECL Surf_RebuildLightmap_Callback (struct cvar_s *var, char *oldvalue)
{
Mod_RebuildLightmaps();
}
//radius, x y z, r g b
void Surf_StainSurf (msurface_t *surf, float *parms)
{
int sd, td;
float dist, rad, minlight;
float change;
vec3_t impact, local;
int s, t;
int i;
int smax, tmax;
float amm;
int lim;
mtexinfo_t *tex;
stmap *stainbase;
lightmapinfo_t *lm;
lim = 255 - (r_stains.value*255);
#define stain(x) \
change = stainbase[(s)*3+x] + amm*parms[4+x]; \
stainbase[(s)*3+x] = bound(lim, change, 255);
if (surf->lightmaptexturenums[0] < 0)
return;
lm = lightmap[surf->lightmaptexturenums[0]];
smax = (surf->extents[0]>>surf->lmshift)+1;
tmax = (surf->extents[1]>>surf->lmshift)+1;
tex = surf->texinfo;
stainbase = lm->stainmaps;
stainbase += (surf->light_t[0] * lm->width + surf->light_s[0]) * 3;
rad = *parms;
dist = DotProduct ((parms+1), surf->plane->normal) - surf->plane->dist;
rad -= fabs(dist);
minlight = 0;
if (rad < minlight) //not hit
return;
minlight = rad - minlight;
for (i=0 ; i<3 ; i++)
{
impact[i] = (parms+1)[i] - surf->plane->normal[i]*dist;
}
local[0] = DotProduct (impact, tex->vecs[0]) + tex->vecs[0][3];
local[1] = DotProduct (impact, tex->vecs[1]) + tex->vecs[1][3];
local[0] -= surf->texturemins[0];
local[1] -= surf->texturemins[1];
for (t = 0 ; t<tmax ; t++)
{
td = local[1] - (t<<surf->lmshift);
if (td < 0)
td = -td;
for (s=0 ; s<smax ; s++)
{
sd = local[0] - (s<<surf->lmshift);
if (sd < 0)
sd = -sd;
if (sd > td)
dist = sd + (td>>1);
else
dist = td + (sd>>1);
if (dist < minlight)
{
amm = (rad - dist);
stain(0);
stain(1);
stain(2);
surf->stained = true;
}
}
stainbase += 3*lm->width;
}
if (surf->stained)
surf->cached_dlight=-1;
}
//combination of R_AddDynamicLights and R_MarkLights
/*
static void Surf_StainNode (mnode_t *node, float *parms)
{
mplane_t *splitplane;
float dist;
msurface_t *surf;
int i;
if (node->contents < 0)
return;
splitplane = node->plane;
dist = DotProduct ((parms+1), splitplane->normal) - splitplane->dist;
if (dist > (*parms))
{
Surf_StainNode (node->children[0], parms);
return;
}
if (dist < (-*parms))
{
Surf_StainNode (node->children[1], parms);
return;
}
// mark the polygons
surf = cl.worldmodel->surfaces + node->firstsurface;
for (i=0 ; i<node->numsurfaces ; i++, surf++)
{
if (surf->flags&~(SURF_DONTWARP|SURF_PLANEBACK))
continue;
Surf_StainSurf(surf, parms);
}
Surf_StainNode (node->children[0], parms);
Surf_StainNode (node->children[1], parms);
}
*/
void Surf_AddStain(vec3_t org, float red, float green, float blue, float radius)
{
physent_t *pe;
int i;
float parms[7];
if (!cl.worldmodel || cl.worldmodel->loadstate != MLS_LOADED || r_stains.value <= 0)
return;
parms[0] = radius;
parms[1] = org[0];
parms[2] = org[1];
parms[3] = org[2];
parms[4] = red;
parms[5] = green;
parms[6] = blue;
cl.worldmodel->funcs.StainNode(cl.worldmodel->rootnode, parms);
//now stain inline bsp models other than world.
for (i=1 ; i< pmove.numphysent ; i++) //0 is world...
{
pe = &pmove.physents[i];
if (pe->model && pe->model->surfaces == cl.worldmodel->surfaces && pe->model->loadstate == MLS_LOADED)
{
parms[1] = org[0] - pe->origin[0];
parms[2] = org[1] - pe->origin[1];
parms[3] = org[2] - pe->origin[2];
if (pe->angles[0] || pe->angles[1] || pe->angles[2])
{
vec3_t f, r, u, temp;
AngleVectors(pe->angles, f, r, u);
VectorCopy((parms+1), temp);
parms[1] = DotProduct(temp, f);
parms[2] = -DotProduct(temp, r);
parms[3] = DotProduct(temp, u);
}
pe->model->funcs.StainNode(pe->model->rootnode, parms);
}
}
}
void Surf_WipeStains(void)
{
int i;
for (i = 0; i < numlightmaps; i++)
{
if (!lightmap[i])
break;
memset(lightmap[i]->stainmaps, 255, lightmap[i]->width*lightmap[i]->height*3*sizeof(stmap));
}
}
void Surf_LessenStains(void)
{
int i;
msurface_t *surf;
int smax, tmax;
int s, t;
stmap *stain;
int stride;
int ammount;
int limit;
lightmapinfo_t *lm;
static float time;
if (!r_stains.value)
return;
time += host_frametime;
if (time < r_stainfadetime.value)
return;
time-=r_stainfadetime.value;
ammount = r_stainfadeammount.value;
limit = 255 - ammount;
surf = cl.worldmodel->surfaces;
for (i=0 ; i<cl.worldmodel->numsurfaces ; i++, surf++)
{
if (surf->stained)
{
lm = lightmap[surf->lightmaptexturenums[0]];
surf->cached_dlight=-1;//nice hack here...
smax = (surf->extents[0]>>surf->lmshift)+1;
tmax = (surf->extents[1]>>surf->lmshift)+1;
stain = lm->stainmaps;
stain += (surf->light_t[0] * lm->width + surf->light_s[0]) * 3;
stride = (lm->width-smax)*3;
surf->stained = false;
smax*=3;
for (t = 0 ; t<tmax ; t++, stain+=stride)
{
for (s=0 ; s<smax ; s++)
{
if (*stain < limit) //eventually decay to 255
{
*stain += ammount;
surf->stained=true;
}
else //reset to 255
*stain = 255;
stain++;
}
}
}
}
}
/*
===============
R_AddDynamicLights
===============
*/
static void Surf_AddDynamicLights (msurface_t *surf)
{
int lnum;
int sd, td;
float dist, rad, minlight;
vec3_t impact, local;
int s, t;
int i;
int smax, tmax;
mtexinfo_t *tex;
float a;
unsigned *bl;
smax = (surf->extents[0]>>surf->lmshift)+1;
tmax = (surf->extents[1]>>surf->lmshift)+1;
tex = surf->texinfo;
for (lnum=rtlights_first; lnum<RTL_FIRST; lnum++)
{
if ( !(surf->dlightbits & (1<<lnum) ) )
continue; // not lit by this light
if (!(cl_dlights[lnum].flags & LFLAG_LIGHTMAP))
continue;
rad = cl_dlights[lnum].radius;
dist = DotProduct (cl_dlights[lnum].origin, surf->plane->normal) -
surf->plane->dist;
rad -= fabs(dist);
minlight = cl_dlights[lnum].minlight;
if (rad < minlight)
continue;
minlight = rad - minlight;
for (i=0 ; i<3 ; i++)
{
impact[i] = cl_dlights[lnum].origin[i] -
surf->plane->normal[i]*dist;
}
local[0] = DotProduct (impact, tex->vecs[0]) + tex->vecs[0][3];
local[1] = DotProduct (impact, tex->vecs[1]) + tex->vecs[1][3];
local[0] -= surf->texturemins[0];
local[1] -= surf->texturemins[1];
a = 256*(cl_dlights[lnum].color[0]*NTSC_RED + cl_dlights[lnum].color[1]*NTSC_GREEN + cl_dlights[lnum].color[2]*NTSC_BLUE);
bl = blocklights;
for (t = 0 ; t<tmax ; t++)
{
td = local[1] - (t<<surf->lmshift);
if (td < 0)
td = -td;
for (s=0 ; s<smax ; s++)
{
sd = local[0] - (s<<surf->lmshift);
if (sd < 0)
sd = -sd;
if (sd > td)
dist = sd + (td>>1);
else
dist = td + (sd>>1);
if (dist < minlight)
bl[0] += (rad - dist)*a;
bl++;
}
}
}
}
// warning: <20>Surf_AddDynamicLightNorms<6D> defined but not used
/*
static void Surf_AddDynamicLightNorms (msurface_t *surf)
{
int lnum;
int sd, td;
float dist, rad, minlight;
vec3_t impact, local;
int s, t;
int i;
int smax, tmax;
mtexinfo_t *tex;
float a;
smax = (surf->extents[0]>>4)+1;
tmax = (surf->extents[1]>>4)+1;
tex = surf->texinfo;
for (lnum=rtlights_first; lnum<RTL_FIRST; lnum++)
{
if ( !(surf->dlightbits & (1<<lnum) ) )
continue; // not lit by this light
if (!(cl_dlights[lnum].flags & LFLAG_ALLOW_LMHACK))
continue;
rad = cl_dlights[lnum].radius;
dist = DotProduct (cl_dlights[lnum].origin, surf->plane->normal) -
surf->plane->dist;
rad -= fabs(dist);
minlight = cl_dlights[lnum].minlight;
if (rad < minlight)
continue;
minlight = rad - minlight;
for (i=0 ; i<3 ; i++)
{
impact[i] = cl_dlights[lnum].origin[i] -
surf->plane->normal[i]*dist;
}
local[0] = DotProduct (impact, tex->vecs[0]) + tex->vecs[0][3];
local[1] = DotProduct (impact, tex->vecs[1]) + tex->vecs[1][3];
local[0] -= surf->texturemins[0];
local[1] -= surf->texturemins[1];
a = 256*(cl_dlights[lnum].color[0]*NTSC_RED + cl_dlights[lnum].color[1]*NTSC_GREEN + cl_dlights[lnum].color[2]*NTSC_BLUE);
for (t = 0 ; t<tmax ; t++)
{
td = local[1] - t*surf->lmscale;
if (td < 0)
td = -td;
for (s=0 ; s<smax ; s++)
{
sd = local[0] - s*surf->lmscale;
if (sd < 0)
sd = -sd;
if (sd > td)
dist = sd + (td>>1);
else
dist = td + (sd>>1);
if (dist < minlight)
{
// blocknormals[t*smax + s][0] -= (rad - dist)*(impact[0]-local[0])/8192.0;
// blocknormals[t*smax + s][1] -= (rad - dist)*(impact[1]-local[1])/8192.0;
blocknormals[t*smax + s][2] += 0.5*blocknormals[t*smax + s][2]*(rad - dist)/256;
}
}
}
}
}
*/
#ifdef PEXT_LIGHTSTYLECOL
static void Surf_AddDynamicLightsColours (msurface_t *surf)
{
int lnum;
int sd, td;
float dist, rad, minlight;
vec3_t impact, local;
int s, t;
int i;
int smax, tmax;
mtexinfo_t *tex;
// float temp;
float r, g, b;
unsigned *bl;
vec3_t lightofs;
smax = (surf->extents[0]>>surf->lmshift)+1;
tmax = (surf->extents[1]>>surf->lmshift)+1;
tex = surf->texinfo;
for (lnum=rtlights_first; lnum<RTL_FIRST; lnum++)
{
if ( !(surf->dlightbits & (1<<lnum) ) )
continue; // not lit by this light
rad = cl_dlights[lnum].radius;
VectorSubtract(cl_dlights[lnum].origin, currententity->origin, lightofs);
dist = DotProduct (lightofs, surf->plane->normal) -
surf->plane->dist;
rad -= fabs(dist);
minlight = cl_dlights[lnum].minlight;
if (rad < minlight)
continue;
minlight = rad - minlight;
for (i=0 ; i<3 ; i++)
{
impact[i] = lightofs[i] -
surf->plane->normal[i]*dist;
}
local[0] = DotProduct (impact, tex->vecs[0]) + tex->vecs[0][3];
local[1] = DotProduct (impact, tex->vecs[1]) + tex->vecs[1][3];
local[0] -= surf->texturemins[0];
local[1] -= surf->texturemins[1];
r = cl_dlights[lnum].color[0]*128;
g = cl_dlights[lnum].color[1]*128;
b = cl_dlights[lnum].color[2]*128;
/* if (cl_dlights[lnum].type == 1) //a wierd effect.
{
for (t = 0 ; t<tmax ; t++)
{
td = local[1] - t*surf->lmscale;
if (td < 0)
td = -td;
for (s=0 ; s<smax ; s++)
{
sd = local[0] - s*surf->lmscale;
if (sd < 0)
sd = -sd;
if (sd > td)
dist = sd + (td>>1);
else
dist = td + (sd>>1);
if (dist < minlight)
{
blocklights[t*smax + s] += 2*sin(dist/10+cl.time*20)*(rad - dist)*256 * cl_dlights[lnum].colour[0]*3;
greenblklights[t*smax + s] += 2*sin(M_PI/3+dist/10+cl.time*20)*(rad - dist)*256 * cl_dlights[lnum].colour[1]*3;
blueblklights[t*smax + s] += 2*sin(2*M_PI/3+dist/10+cl.time*20)*(rad - dist)*256 * cl_dlights[lnum].colour[2]*3;
}
}
}
}
else
*/ {
bl = blocklights;
for (t = 0 ; t<tmax ; t++)
{
td = local[1] - (t<<surf->lmshift);
if (td < 0)
td = -td;
for (s=0 ; s<smax ; s++)
{
sd = local[0] - (s<<surf->lmshift);
if (sd < 0)
sd = -sd;
if (sd > td)
dist = sd + (td>>1);
else
dist = td + (sd>>1);
if (dist < minlight)
{
bl[0] += (rad - dist)*r;
bl[1] += (rad - dist)*g;
bl[2] += (rad - dist)*b;
}
bl += 3;
}
}
}
}
}
#endif
static void Surf_BuildDeluxMap (model_t *wmodel, msurface_t *surf, qbyte *dest, unsigned int lmwidth, vec3_t *blocknormals)
{
int smax, tmax;
int i, j, size;
qbyte *lightmap;
qbyte *deluxmap;
unsigned scale;
int maps;
float intensity;
vec_t *bnorm;
vec3_t temp;
int stride = lmwidth*lightmap_bytes;
if (!dest)
return;
smax = (surf->extents[0]>>surf->lmshift)+1;
tmax = (surf->extents[1]>>surf->lmshift)+1;
size = smax*tmax;
lightmap = surf->samples;
// set to full bright if no light data
if (!wmodel->deluxdata)
{
for (i=0 ; i<size ; i++)
{
blocknormals[i][0] = 0.9;//surf->orientation[2][0];
blocknormals[i][1] = 0.8;//surf->orientation[2][1];
blocknormals[i][2] = 1;//surf->orientation[2][2];
}
goto store;
}
if (wmodel->engineflags & MDLF_RGBLIGHTING)
deluxmap = surf->samples - wmodel->lightdata + wmodel->deluxdata;
else
deluxmap = (surf->samples - wmodel->lightdata)*3 + wmodel->deluxdata;
// clear to no light
for (i=0 ; i<size ; i++)
{
blocknormals[i][0] = 0;
blocknormals[i][1] = 0;
blocknormals[i][2] = 0;
}
// add all the lightmaps
if (lightmap)
{
if (wmodel->engineflags & MDLF_RGBLIGHTING)
{
deluxmap = surf->samples - wmodel->lightdata + wmodel->deluxdata;
for (maps = 0 ; maps < MAXQ1LIGHTMAPS && surf->styles[maps] != 255 ;
maps++)
{
scale = d_lightstylevalue[surf->styles[maps]];
for (i=0 ; i<size ; i++)
{
intensity = (lightmap[i*3]+lightmap[i*3+1]+lightmap[i*3+2]) * scale;
blocknormals[i][0] += intensity*(deluxmap[i*3+0]-127);
blocknormals[i][1] += intensity*(deluxmap[i*3+1]-127);
blocknormals[i][2] += intensity*(deluxmap[i*3+2]-127);
}
lightmap += size*3; // skip to next lightmap
deluxmap += size*3;
}
}
else
{
deluxmap = (surf->samples - wmodel->lightdata)*3 + wmodel->deluxdata;
for (maps = 0 ; maps < MAXQ1LIGHTMAPS && surf->styles[maps] != 255 ;
maps++)
{
scale = d_lightstylevalue[surf->styles[maps]];
for (i=0 ; i<size ; i++)
{
intensity = (lightmap[i]) * scale;
blocknormals[i][0] += intensity*(deluxmap[i*3+0]-127);
blocknormals[i][1] += intensity*(deluxmap[i*3+1]-127);
blocknormals[i][2] += intensity*(deluxmap[i*3+2]-127);
}
lightmap += size; // skip to next lightmap
deluxmap += size*3;
}
}
}
store:
// add all the dynamic lights
// if (surf->dlightframe == r_framecount)
// GLR_AddDynamicLightNorms (surf);
// bound, invert, and shift
stride -= smax*lightmap_bytes;
bnorm = blocknormals[0];
for (i=0 ; i<tmax ; i++, dest += stride)
{
for (j=0 ; j<smax ; j++)
{
temp[0] = bnorm[0];
temp[1] = bnorm[1];
temp[2] = bnorm[2]; //half the effect? so we emulate light's scalecos of 0.5
VectorNormalize(temp);
dest[2] = (temp[0]+1)/2*255;
dest[1] = (temp[1]+1)/2*255;
dest[0] = (temp[2]+1)/2*255;
dest += lightmap_bytes;
bnorm+=3;
}
}
}
enum lm_mode
{
bgra4_os,
bgra4,
rgb3_os,
lum
};
/*any sane compiler will inline and split this, removing the stainsrc stuff
just unpacks the internal lightmap block into texture info ready for upload
merges stains and oversaturates overbrights.
*/
static void Surf_StoreLightmap(qbyte *dest, unsigned int *bl, int smax, int tmax, unsigned int shift, enum lm_mode lm_mode, stmap *stainsrc, unsigned int lmwidth)
{
int r, g, b, t, m;
unsigned int i, j;
int stride;
switch (lm_mode)
{
case bgra4_os:
stride = lmwidth*4 - (smax<<2);
for (i=0 ; i<tmax ; i++, dest += stride)
{
for (j=0 ; j<smax ; j++)
{
r = *bl++ >> shift;
g = *bl++ >> shift;
b = *bl++ >> shift;
if (stainsrc) // merge in stain
{
r = (127+r*(*stainsrc++)) >> 8;
g = (127+g*(*stainsrc++)) >> 8;
b = (127+b*(*stainsrc++)) >> 8;
}
// quake 2 method, scale highest down to
// maintain hue
m = max(max(r, g), b);
if (m > 255)
{
r *= 255.0/m;
g *= 255.0/m;
b *= 255.0/m;
}
dest[0] = b;
dest[1] = g;
dest[2] = r;
dest[3] = 255;
dest += 4;
}
if (stainsrc)
stainsrc += (lmwidth - smax)*3;
}
break;
/*
case bgra4:
stride = LMBLOCK_WIDTH*4 - (smax<<2);
bl = blocklights;
for (i=0 ; i<tmax ; i++, dest += stride)
{
for (j=0 ; j<smax ; j++)
{
r = *bl++ >> shift;
g = *bl++ >> shift;
b = *bl++ >> shift;
if (stainsrc) // merge in stain
{
r = (127+r*(*stainsrc++)) >> 8;
g = (127+g*(*stainsrc++)) >> 8;
b = (127+b*(*stainsrc++)) >> 8;
}
if (r > 255)
dest[2] = 255;
else if (r < 0)
dest[2] = 0;
else
dest[2] = r;
if (g > 255)
dest[1] = 255;
else if (g < 0)
dest[1] = 0;
else
dest[1] = g;
if (b > 255)
dest[0] = 255;
else if (b < 0)
dest[0] = 0;
else
dest[0] = b;
dest[3] = 255;
dest += 4;
}
if (stainsrc)
stainsrc += (lmwidth - smax)*3;
}
break;
*/
case rgb3_os:
stride = lmwidth*3 - (smax*3);
for (i=0 ; i<tmax ; i++, dest += stride)
{
for (j=0 ; j<smax ; j++)
{
r = *bl++ >> shift;
g = *bl++ >> shift;
b = *bl++ >> shift;
if (stainsrc) // merge in stain
{
r = (127+r*(*stainsrc++)) >> 8;
g = (127+g*(*stainsrc++)) >> 8;
b = (127+b*(*stainsrc++)) >> 8;
}
// quake 2 method, scale highest down to
// maintain hue
m = max(max(r, g), b);
if (m > 255)
{
r *= 255.0/m;
g *= 255.0/m;
b *= 255.0/m;
}
dest[0] = r;
dest[1] = g;
dest[2] = b;
dest += 3;
}
if (stainsrc)
stainsrc += (lmwidth - smax)*3;
}
break;
case lum:
stride = lmwidth;
for (i=0 ; i<tmax ; i++, dest += stride)
{
for (j=0 ; j<smax ; j++)
{
t = *bl++;
t >>= shift;
if (t > 255)
t = 255;
dest[j] = t;
}
}
break;
default:
Sys_Error ("Bad lightmap format");
}
}
/*
===============
R_BuildLightMap
Combine and scale multiple lightmaps into the 8.8 format in blocklights
===============
*/
static void Surf_BuildLightMap (msurface_t *surf, qbyte *dest, qbyte *deluxdest, stmap *stainsrc, int shift, int ambient, unsigned int lmwidth)
{
int smax, tmax;
int t;
int i, j;
size_t size;
qbyte *lightmap;
unsigned scale;
int maps;
unsigned *bl;
//int stride = LMBLOCK_WIDTH*lightmap_bytes; //warning: unused variable <20>stride<64>
shift += 7; // increase to base value
surf->cached_dlight = (surf->dlightframe == r_framecount);
smax = (surf->extents[0]>>surf->lmshift)+1;
tmax = (surf->extents[1]>>surf->lmshift)+1;
size = (size_t)smax*tmax;
lightmap = surf->samples;
if (size > maxblocksize)
{ //fixme: fill in?
BZ_Free(blocklights);
BZ_Free(blocknormals);
maxblocksize = size;
blocknormals = BZ_Malloc(maxblocksize * sizeof(*blocknormals)); //already a vector
blocklights = BZ_Malloc(maxblocksize * 3*sizeof(*blocklights));
}
if (currentmodel->deluxdata)
Surf_BuildDeluxMap(currentmodel, surf, deluxdest, lmwidth, blocknormals);
#ifdef PEXT_LIGHTSTYLECOL
if (lightmap_bytes == 4 || lightmap_bytes == 3)
{
// set to full bright if no light data
if (ambient < 0)
{
t = (-1-ambient)*255;
for (i=0 ; i<size*3 ; i++)
{
blocklights[i] = t;
}
for (maps = 0 ; maps < MAXQ1LIGHTMAPS ; maps++)
{
surf->cached_light[maps] = -1-ambient;
surf->cached_colour[maps] = 0xff;
}
}
else if (r_fullbright.value>0) //not qw
{
for (i=0 ; i<size*3 ; i++)
{
blocklights[i] = r_fullbright.value*255*256;
}
}
else if (!currentmodel->lightdata)
{
/*fullbright if map is not lit. but not overbright*/
for (i=0 ; i<size*3 ; i++)
{
blocklights[i] = 128*256;
}
}
else if (!surf->samples)
{
/*no samples, but map is otherwise lit = pure black*/
for (i=0 ; i<size*3 ; i++)
{
blocklights[i] = 0;
}
surf->cached_light[0] = 0;
surf->cached_colour[0] = 0;
}
else
{
// clear to no light
t = ambient;
if (t == 0)
memset(blocklights, 0, size*3*sizeof(*bl));
else
{
for (i=0 ; i<size*3 ; i++)
{
blocklights[i] = t;
}
}
// add all the lightmaps
if (lightmap)
{
if (currentmodel->fromgame == fg_quake3) //rgb
{
/*q3 lightmaps are meant to be pre-built
this code is misguided, and ought never be executed anyway.
*/
bl = blocklights;
for (i = 0; i < tmax; i++)
{
for (j = 0; j < smax; j++)
{
bl[0] = 255*lightmap[(i*lmwidth+j)*3];
bl[1] = 255*lightmap[(i*lmwidth+j)*3+1];
bl[2] = 255*lightmap[(i*lmwidth+j)*3+2];
bl+=3;
}
}
}
else if (currentmodel->engineflags & MDLF_RGBLIGHTING) //rgb
{
for (maps = 0 ; maps < MAXQ1LIGHTMAPS && surf->styles[maps] != 255 ;
maps++)
{
scale = d_lightstylevalue[surf->styles[maps]];
surf->cached_light[maps] = scale; // 8.8 fraction
surf->cached_colour[maps] = cl_lightstyle[surf->styles[maps]].colourkey;
if (scale)
{
if (cl_lightstyle[surf->styles[maps]].colours[0] == 1 && cl_lightstyle[surf->styles[maps]].colours[1] == 1 && cl_lightstyle[surf->styles[maps]].colours[2] == 1) //hopefully a faster alternative.
{
bl = blocklights;
for (i=0 ; i<size*3 ; i++)
{
*bl++ += *lightmap++ * scale;
}
}
else
{
if (cl_lightstyle[surf->styles[maps]].colours[0])
{
scale = d_lightstylevalue[surf->styles[maps]] * cl_lightstyle[surf->styles[maps]].colours[0];
for (i=0 ; i<size ; i++)
blocklights[i+0] += lightmap[i*3+0] * scale;
}
if (cl_lightstyle[surf->styles[maps]].colours[1])
{
scale = d_lightstylevalue[surf->styles[maps]] * cl_lightstyle[surf->styles[maps]].colours[1];
for (i=0 ; i<size ; i++)
blocklights[i+1] += lightmap[i*3+1] * scale;
}
if (cl_lightstyle[surf->styles[maps]].colours[2])
{
scale = d_lightstylevalue[surf->styles[maps]] * cl_lightstyle[surf->styles[maps]].colours[2];
for (i=0 ; i<size ; i++)
blocklights[i+2] += lightmap[i*3+2] * scale;
}
lightmap += size*3; // skip to next lightmap
}
}
else
lightmap += size*3; // skip to next lightmap
}
}
else
for (maps = 0 ; maps < MAXQ1LIGHTMAPS && surf->styles[maps] != 255 ;
maps++)
{
scale = d_lightstylevalue[surf->styles[maps]];
surf->cached_light[maps] = scale; // 8.8 fraction
surf->cached_colour[maps] = cl_lightstyle[surf->styles[maps]].colourkey;
if (cl_lightstyle[surf->styles[maps]].colours[0] == 1 && cl_lightstyle[surf->styles[maps]].colours[1] == 1 && cl_lightstyle[surf->styles[maps]].colours[2] == 1) //hopefully a faster alternative.
{
bl = blocklights;
for (i=0 ; i<size ; i++)
{
*bl++ += *lightmap * scale;
*bl++ += *lightmap * scale;
*bl++ += *lightmap * scale;
lightmap++;
}
}
else
{
if (cl_lightstyle[surf->styles[maps]].colours[0])
{
scale = d_lightstylevalue[surf->styles[maps]] * cl_lightstyle[surf->styles[maps]].colours[0];
for (i=0, bl = blocklights; i<size; i++, bl+=3)
*bl += lightmap[i] * scale;
}
if (cl_lightstyle[surf->styles[maps]].colours[1])
{
scale = d_lightstylevalue[surf->styles[maps]] * cl_lightstyle[surf->styles[maps]].colours[1];
for (i=0, bl = blocklights+1; i<size; i++, bl+=3)
*bl += lightmap[i] * scale;
}
if (cl_lightstyle[surf->styles[maps]].colours[2])
{
scale = d_lightstylevalue[surf->styles[maps]] * cl_lightstyle[surf->styles[maps]].colours[2];
for (i=0, bl = blocklights+2; i<size; i++, bl+=3)
*bl += lightmap[i] * scale;
}
lightmap += size; // skip to next lightmap
}
}
}
}
// add all the dynamic lights
if (surf->dlightframe == r_framecount)
Surf_AddDynamicLightsColours (surf);
if (!r_stains.value || !surf->stained)
stainsrc = NULL;
if (lightmap_bytes == 4)
{
if (lightmap_bgra)
{
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, bgra4_os, stainsrc, lmwidth);
}
else
{
/*if (!r_stains.value || !surf->stained)
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, rgba4, NULL);
else
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, rgba4, stainsrc);
*/
}
}
else if (lightmap_bytes == 3)
{
if (lightmap_bgra)
{
/*
if (!r_stains.value || !surf->stained)
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, bgr3, NULL);
else
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, bgr3, stainsrc);
*/
}
else
{
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, rgb3_os, stainsrc, lmwidth);
}
}
}
else
#endif
{
// set to full bright if no light data
if (!surf->samples || !currentmodel->lightdata)
{
for (i=0 ; i<size*3 ; i++)
{
blocklights[i] = 255*256;
}
surf->cached_light[0] = d_lightstylevalue[0];
surf->cached_colour[0] = cl_lightstyle[0].colourkey;
}
else if (r_fullbright.ival)
{
for (i=0 ; i<size ; i++)
blocklights[i] = 255*256;
}
else
{
// clear to no light
for (i=0 ; i<size ; i++)
blocklights[i] = 0;
// add all the lightmaps
if (lightmap)
{
if (currentmodel->engineflags & MDLF_RGBLIGHTING) //rgb
for (maps = 0 ; maps < MAXQ1LIGHTMAPS && surf->styles[maps] != 255 ;
maps++)
{
scale = d_lightstylevalue[surf->styles[maps]]/3;
surf->cached_light[maps] = scale; // 8.8 fraction
surf->cached_colour[maps] = cl_lightstyle[surf->styles[maps]].colourkey;
for (i=0 ; i<size ; i++)
blocklights[i] += (lightmap[i*3]+lightmap[i*3+1]+lightmap[i*3+2]) * scale;
lightmap += size*3; // skip to next lightmap
}
else
for (maps = 0 ; maps < MAXQ1LIGHTMAPS && surf->styles[maps] != 255 ;
maps++)
{
scale = d_lightstylevalue[surf->styles[maps]];
surf->cached_light[maps] = scale; // 8.8 fraction
surf->cached_colour[maps] = cl_lightstyle[surf->styles[maps]].colourkey;
for (i=0 ; i<size ; i++)
blocklights[i] += lightmap[i] * scale;
lightmap += size; // skip to next lightmap
}
}
// add all the dynamic lights
if (surf->dlightframe == r_framecount)
Surf_AddDynamicLights (surf);
}
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, lum, stainsrc, lmwidth);
}
}
#ifdef THREADEDWORLD
static void Surf_BuildLightMap_Worker (model_t *wmodel, msurface_t *surf, qbyte *dest, qbyte *deluxdest, stmap *stainsrc, int shift, int ambient, unsigned int lmwidth, int *d_lightstylevalue)
{
int smax, tmax;
int t;
int i, j;
size_t size;
qbyte *lightmap;
unsigned scale;
int maps;
unsigned *bl;
static size_t maxblocksize;
static vec3_t *blocknormals;
static unsigned int *blocklights;
//int stride = LMBLOCK_WIDTH*lightmap_bytes; //warning: unused variable <20>stride<64>
shift += 7; // increase to base value
surf->cached_dlight = false;
smax = (surf->extents[0]>>surf->lmshift)+1;
tmax = (surf->extents[1]>>surf->lmshift)+1;
size = (size_t)smax*tmax;
lightmap = surf->samples;
if (size > maxblocksize)
{ //fixme: fill in?
maxblocksize = size;
blocknormals = BZ_Realloc(blocknormals, maxblocksize * sizeof(*blocknormals)); //already a vector
blocklights = BZ_Realloc(blocklights, maxblocksize * 3*sizeof(*blocklights));
}
if (wmodel->deluxdata)
Surf_BuildDeluxMap(wmodel, surf, deluxdest, lmwidth, blocknormals);
#ifdef PEXT_LIGHTSTYLECOL
if (lightmap_bytes == 4 || lightmap_bytes == 3)
{
// set to full bright if no light data
if (ambient < 0)
{
t = (-1-ambient)*255;
for (i=0 ; i<size*3 ; i++)
{
blocklights[i] = t;
}
for (maps = 0 ; maps < MAXQ1LIGHTMAPS ; maps++)
{
surf->cached_light[maps] = -1-ambient;
surf->cached_colour[maps] = 0xff;
}
}
else if (r_fullbright.value>0) //not qw
{
for (i=0 ; i<size*3 ; i++)
{
blocklights[i] = r_fullbright.value*255*256;
}
}
else if (!wmodel->lightdata)
{
/*fullbright if map is not lit. but not overbright*/
for (i=0 ; i<size*3 ; i++)
{
blocklights[i] = 128*256;
}
}
else if (!surf->samples)
{
/*no samples, but map is otherwise lit = pure black*/
for (i=0 ; i<size*3 ; i++)
{
blocklights[i] = 0;
}
surf->cached_light[0] = 0;
surf->cached_colour[0] = 0;
}
else
{
// clear to no light
t = ambient;
if (t == 0)
memset(blocklights, 0, size*3*sizeof(*bl));
else
{
for (i=0 ; i<size*3 ; i++)
{
blocklights[i] = t;
}
}
// add all the lightmaps
if (lightmap)
{
if (wmodel->fromgame == fg_quake3) //rgb
{
/*q3 lightmaps are meant to be pre-built
this code is misguided, and ought never be executed anyway.
*/
bl = blocklights;
for (i = 0; i < tmax; i++)
{
for (j = 0; j < smax; j++)
{
bl[0] = 255*lightmap[(i*lmwidth+j)*3];
bl[1] = 255*lightmap[(i*lmwidth+j)*3+1];
bl[2] = 255*lightmap[(i*lmwidth+j)*3+2];
bl+=3;
}
}
}
else if (wmodel->engineflags & MDLF_RGBLIGHTING) //rgb
{
for (maps = 0 ; maps < MAXQ1LIGHTMAPS && surf->styles[maps] != 255 ;
maps++)
{
scale = d_lightstylevalue[surf->styles[maps]];
surf->cached_light[maps] = scale; // 8.8 fraction
surf->cached_colour[maps] = cl_lightstyle[surf->styles[maps]].colourkey;
if (scale)
{
if (cl_lightstyle[surf->styles[maps]].colours[0] == 1 && cl_lightstyle[surf->styles[maps]].colours[1] == 1 && cl_lightstyle[surf->styles[maps]].colours[2] == 1) //hopefully a faster alternative.
{
bl = blocklights;
for (i=0 ; i<size*3 ; i++)
{
*bl++ += *lightmap++ * scale;
}
}
else
{
if (cl_lightstyle[surf->styles[maps]].colours[0])
{
scale = d_lightstylevalue[surf->styles[maps]] * cl_lightstyle[surf->styles[maps]].colours[0];
for (i=0 ; i<size ; i++)
blocklights[i+0] += lightmap[i*3+0] * scale;
}
if (cl_lightstyle[surf->styles[maps]].colours[1])
{
scale = d_lightstylevalue[surf->styles[maps]] * cl_lightstyle[surf->styles[maps]].colours[1];
for (i=0 ; i<size ; i++)
blocklights[i+1] += lightmap[i*3+1] * scale;
}
if (cl_lightstyle[surf->styles[maps]].colours[2])
{
scale = d_lightstylevalue[surf->styles[maps]] * cl_lightstyle[surf->styles[maps]].colours[2];
for (i=0 ; i<size ; i++)
blocklights[i+2] += lightmap[i*3+2] * scale;
}
lightmap += size*3; // skip to next lightmap
}
}
else
lightmap += size*3; // skip to next lightmap
}
}
else
for (maps = 0 ; maps < MAXQ1LIGHTMAPS && surf->styles[maps] != 255 ;
maps++)
{
scale = d_lightstylevalue[surf->styles[maps]];
surf->cached_light[maps] = scale; // 8.8 fraction
surf->cached_colour[maps] = cl_lightstyle[surf->styles[maps]].colourkey;
if (cl_lightstyle[surf->styles[maps]].colours[0] == 1 && cl_lightstyle[surf->styles[maps]].colours[1] == 1 && cl_lightstyle[surf->styles[maps]].colours[2] == 1) //hopefully a faster alternative.
{
bl = blocklights;
for (i=0 ; i<size ; i++)
{
*bl++ += *lightmap * scale;
*bl++ += *lightmap * scale;
*bl++ += *lightmap * scale;
lightmap++;
}
}
else
{
if (cl_lightstyle[surf->styles[maps]].colours[0])
{
scale = d_lightstylevalue[surf->styles[maps]] * cl_lightstyle[surf->styles[maps]].colours[0];
for (i=0, bl = blocklights; i<size; i++, bl+=3)
*bl += lightmap[i] * scale;
}
if (cl_lightstyle[surf->styles[maps]].colours[1])
{
scale = d_lightstylevalue[surf->styles[maps]] * cl_lightstyle[surf->styles[maps]].colours[1];
for (i=0, bl = blocklights+1; i<size; i++, bl+=3)
*bl += lightmap[i] * scale;
}
if (cl_lightstyle[surf->styles[maps]].colours[2])
{
scale = d_lightstylevalue[surf->styles[maps]] * cl_lightstyle[surf->styles[maps]].colours[2];
for (i=0, bl = blocklights+2; i<size; i++, bl+=3)
*bl += lightmap[i] * scale;
}
lightmap += size; // skip to next lightmap
}
}
}
}
if (!r_stains.value || !surf->stained)
stainsrc = NULL;
if (lightmap_bytes == 4)
{
if (lightmap_bgra)
{
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, bgra4_os, stainsrc, lmwidth);
}
else
{
/*if (!r_stains.value || !surf->stained)
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, rgba4, NULL);
else
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, rgba4, stainsrc);
*/
}
}
else if (lightmap_bytes == 3)
{
if (lightmap_bgra)
{
/*
if (!r_stains.value || !surf->stained)
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, bgr3, NULL);
else
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, bgr3, stainsrc);
*/
}
else
{
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, rgb3_os, stainsrc, lmwidth);
}
}
}
else
#endif
{
// set to full bright if no light data
if (!surf->samples || !wmodel->lightdata)
{
for (i=0 ; i<size*3 ; i++)
{
blocklights[i] = 255*256;
}
surf->cached_light[0] = d_lightstylevalue[0];
surf->cached_colour[0] = cl_lightstyle[0].colourkey;
}
else if (r_fullbright.ival)
{
for (i=0 ; i<size ; i++)
blocklights[i] = 255*256;
}
else
{
// clear to no light
for (i=0 ; i<size ; i++)
blocklights[i] = 0;
// add all the lightmaps
if (lightmap)
{
if (wmodel->engineflags & MDLF_RGBLIGHTING) //rgb
for (maps = 0 ; maps < MAXQ1LIGHTMAPS && surf->styles[maps] != 255 ;
maps++)
{
scale = d_lightstylevalue[surf->styles[maps]]/3;
surf->cached_light[maps] = scale; // 8.8 fraction
surf->cached_colour[maps] = cl_lightstyle[surf->styles[maps]].colourkey;
for (i=0 ; i<size ; i++)
blocklights[i] += (lightmap[i*3]+lightmap[i*3+1]+lightmap[i*3+2]) * scale;
lightmap += size*3; // skip to next lightmap
}
else
for (maps = 0 ; maps < MAXQ1LIGHTMAPS && surf->styles[maps] != 255 ;
maps++)
{
scale = d_lightstylevalue[surf->styles[maps]];
surf->cached_light[maps] = scale; // 8.8 fraction
surf->cached_colour[maps] = cl_lightstyle[surf->styles[maps]].colourkey;
for (i=0 ; i<size ; i++)
blocklights[i] += lightmap[i] * scale;
lightmap += size; // skip to next lightmap
}
}
}
Surf_StoreLightmap(dest, blocklights, smax, tmax, shift, lum, stainsrc, lmwidth);
}
}
#endif
/*
=============================================================
BRUSH MODELS
=============================================================
*/
/*
================
R_RenderDynamicLightmaps
Multitexture
================
*/
void Surf_RenderDynamicLightmaps (msurface_t *fa)
{
qbyte *base, *luxbase;
stmap *stainbase;
int maps;
glRect_t *theRect;
int smax, tmax;
lightmapinfo_t *lm, *dlm;
//surfaces without lightmaps
if (fa->lightmaptexturenums[0]<0 || !lightmap)
return;
// check for lightmap modification
if (!fa->samples)
{
if (fa->cached_light[0] != 0
|| fa->cached_colour[0] != 0)
goto dynamic;
}
else
{
for (maps = 0 ; maps < MAXQ1LIGHTMAPS && fa->styles[maps] != 255 ;
maps++)
if (d_lightstylevalue[fa->styles[maps]] != fa->cached_light[maps]
|| cl_lightstyle[fa->styles[maps]].colourkey != fa->cached_colour[maps])
goto dynamic;
}
if (fa->dlightframe == r_framecount // dynamic this frame
|| fa->cached_dlight) // dynamic previously
{
RSpeedLocals();
dynamic:
RSpeedRemark();
#ifdef _DEBUG
if ((unsigned)fa->lightmaptexturenums[0] >= numlightmaps)
Sys_Error("Invalid lightmap index\n");
#endif
lm = lightmap[fa->lightmaptexturenums[0]];
lm->modified = true;
smax = (fa->extents[0]>>fa->lmshift)+1;
tmax = (fa->extents[1]>>fa->lmshift)+1;
theRect = &lm->rectchange;
if (theRect->t > fa->light_t[0])
theRect->t = fa->light_t[0];
if (theRect->b < fa->light_t[0]+tmax)
theRect->b = fa->light_t[0]+tmax;
if (theRect->l > fa->light_s[0])
theRect->l = fa->light_s[0];
if (theRect->r < fa->light_s[0]+smax)
theRect->r = fa->light_s[0]+smax;
if (lm->hasdeluxe)
{
dlm = lightmap[fa->lightmaptexturenums[0]+1];
dlm->modified = true;
theRect = &dlm->rectchange;
if (theRect->t > fa->light_t[0])
theRect->t = fa->light_t[0];
if (theRect->b < fa->light_t[0]+tmax)
theRect->b = fa->light_t[0]+tmax;
if (theRect->l > fa->light_s[0])
theRect->l = fa->light_s[0];
if (theRect->r < fa->light_s[0]+smax)
theRect->r = fa->light_s[0]+smax;
luxbase = dlm->lightmaps;
luxbase += (fa->light_t[0] * dlm->width + fa->light_s[0]) * lightmap_bytes;
}
else
luxbase = NULL;
base = lm->lightmaps;
base += (fa->light_t[0] * lm->width + fa->light_s[0]) * lightmap_bytes;
stainbase = lm->stainmaps;
stainbase += (fa->light_t[0] * lm->width + fa->light_s[0]) * 3;
Surf_BuildLightMap (fa, base, luxbase, stainbase, lightmap_shift, r_ambient.value*255, lm->width);
RSpeedEnd(RSPEED_DYNAMIC);
}
}
#ifdef THREADEDWORLD
static void Surf_RenderDynamicLightmaps_Worker (model_t *wmodel, msurface_t *fa, int *d_lightstylevalue)
{
qbyte *base, *luxbase;
stmap *stainbase;
int maps;
glRect_t *lmr, *dlmr = NULL;
int smax, tmax;
lightmapinfo_t *lm, *dlm = NULL;
//surfaces without lightmaps
if (fa->lightmaptexturenums[0]<0 || !lightmap)
return;
// check for lightmap modification
if (!fa->samples)
{
if (fa->cached_light[0] != 0
|| fa->cached_colour[0] != 0)
goto dynamic;
}
else
{
for (maps = 0 ; maps < MAXQ1LIGHTMAPS && fa->styles[maps] != 255 ;
maps++)
if (d_lightstylevalue[fa->styles[maps]] != fa->cached_light[maps]
|| cl_lightstyle[fa->styles[maps]].colourkey != fa->cached_colour[maps])
goto dynamic;
}
return;
dynamic:
#ifdef _DEBUG
if ((unsigned)fa->lightmaptexturenums[0] >= numlightmaps)
Sys_Error("Invalid lightmap index\n");
#endif
lm = lightmap[fa->lightmaptexturenums[0]];
smax = (fa->extents[0]>>fa->lmshift)+1;
tmax = (fa->extents[1]>>fa->lmshift)+1;
lmr = &lm->rectchange;
if (lm->hasdeluxe)
{
dlm = lightmap[fa->lightmaptexturenums[0]+1];
dlmr = &dlm->rectchange;
luxbase = dlm->lightmaps;
luxbase += (fa->light_t[0] * dlm->width + fa->light_s[0]) * lightmap_bytes;
}
else
luxbase = NULL;
base = lm->lightmaps;
base += (fa->light_t[0] * lm->width + fa->light_s[0]) * lightmap_bytes;
stainbase = lm->stainmaps;
stainbase += (fa->light_t[0] * lm->width + fa->light_s[0]) * 3;
Surf_BuildLightMap_Worker (wmodel, fa, base, luxbase, stainbase, lightmap_shift, r_ambient.value*255, lm->width, d_lightstylevalue);
if (dlm)
{
if (dlmr->t > fa->light_t[0])
dlmr->t = fa->light_t[0];
if (dlmr->b < fa->light_t[0]+tmax)
dlmr->b = fa->light_t[0]+tmax;
if (dlmr->l > fa->light_s[0])
dlmr->l = fa->light_s[0];
if (dlmr->r < fa->light_s[0]+smax)
dlmr->r = fa->light_s[0]+smax;
dlm->modified = true;
}
if (lmr->t > fa->light_t[0])
lmr->t = fa->light_t[0];
if (lmr->b < fa->light_t[0]+tmax)
lmr->b = fa->light_t[0]+tmax;
if (lmr->l > fa->light_s[0])
lmr->l = fa->light_s[0];
if (lmr->r < fa->light_s[0]+smax)
lmr->r = fa->light_s[0]+smax;
lm->modified = true;
}
#endif //THREADEDWORLD
void Surf_RenderAmbientLightmaps (msurface_t *fa, int ambient)
{
qbyte *base, *luxbase;
stmap *stainbase;
glRect_t *theRect;
int smax, tmax;
lightmapinfo_t *lm, *dlm;
if (!fa->mesh)
return;
//surfaces without lightmaps
if (fa->lightmaptexturenums[0]<0)
return;
if (fa->cached_light[0] != ambient || fa->cached_colour[0] != 0xff)
goto dynamic;
if (fa->dlightframe == r_framecount // dynamic this frame
|| fa->cached_dlight) // dynamic previously
{
RSpeedLocals();
dynamic:
RSpeedRemark();
lm = lightmap[fa->lightmaptexturenums[0]];
lm->modified = true;
smax = (fa->extents[0]>>fa->lmshift)+1;
tmax = (fa->extents[1]>>fa->lmshift)+1;
theRect = &lm->rectchange;
if (theRect->t > fa->light_t[0])
theRect->t = fa->light_t[0];
if (theRect->l > fa->light_s[0])
theRect->l = fa->light_s[0];
if (theRect->r < fa->light_s[0]+smax)
theRect->r = fa->light_s[0]+smax;
if (theRect->b < fa->light_t[0]+tmax)
theRect->b = fa->light_t[0]+tmax;
if (lm->hasdeluxe)
{
dlm = lightmap[fa->lightmaptexturenums[0]+1];
lm->modified = true;
theRect = &lm->rectchange;
if (theRect->t > fa->light_t[0])
theRect->t = fa->light_t[0];
if (theRect->l > fa->light_s[0])
theRect->l = fa->light_s[0];
if (theRect->r < fa->light_s[0]+smax)
theRect->r = fa->light_s[0]+smax;
if (theRect->b < fa->light_t[0]+tmax)
theRect->b = fa->light_t[0]+tmax;
luxbase = dlm->lightmaps;
luxbase += (fa->light_t[0] * dlm->width + fa->light_s[0]) * lightmap_bytes;
}
else
luxbase = NULL;
base = lm->lightmaps;
base += (fa->light_t[0] * lm->width + fa->light_s[0]) * lightmap_bytes;
stainbase = lm->stainmaps;
stainbase += (fa->light_t[0] * lm->width + fa->light_s[0]) * 3;
Surf_BuildLightMap (fa, base, luxbase, stainbase, lightmap_shift, -1-ambient, lm->width);
RSpeedEnd(RSPEED_DYNAMIC);
}
}
/*
=============================================================
WORLD MODEL
=============================================================
*/
#if 0
static qbyte *R_MarkLeafSurfaces_Q1 (void)
{
qbyte *vis;
mleaf_t *leaf;
int i, j;
msurface_t *surf;
int shift;
vis = R_CalcVis_Q1();
for (i=0 ; i<cl.worldmodel->numvisleafs ; i++)
{
if (vis[i>>3] & (1<<(i&7)))
{
leaf = (mleaf_t *)&cl.worldmodel->leafs[i+1];
if (R_CullBox (leaf->minmaxs, leaf->minmaxs+3))
continue;
leaf->visframe = r_visframecount;
for (j = 0; j < leaf->nummarksurfaces; j++)
{
surf = leaf->firstmarksurface[j];
if (surf->visframe == r_visframecount)
continue;
surf->visframe = r_visframecount;
*surf->mark = surf;
}
}
}
{
texture_t *tex;
shift = Surf_LightmapShift(cl.worldmodel);
for (i = 0; i < cl.worldmodel->numtextures; i++)
{
tex = cl.worldmodel->textures[i];
if (!tex)
continue;
for (j = 0; j < tex->vbo.meshcount; j++)
{
surf = tex->vbo.meshlist[j];
if (surf)
{
Surf_RenderDynamicLightmaps (surf);
tex->vbo.meshlist[j] = NULL;
surf->sbatch->mesh[surf->sbatch->meshes++] = surf->mesh;
}
}
}
}
return vis;
}
#endif
/*
static qbyte *Surf_MaskVis(qbyte *src, qbyte *dest)
{
int i;
if (cl.worldmodel->leafs[i].ma
}
*/
qbyte *frustumvis;
/*
================
R_RecursiveWorldNode
================
*/
static void Surf_RecursiveWorldNode (mnode_t *node, unsigned int clipflags)
{
int c, side, clipped;
mplane_t *plane, *clipplane;
msurface_t *surf, **mark;
mleaf_t *pleaf;
double dot;
start:
if (node->contents == Q1CONTENTS_SOLID)
return; // solid
if (node->visframe != r_visframecount)
return;
for (c = 0, clipplane = r_refdef.frustum; c < r_refdef.frustum_numworldplanes; c++, clipplane++)
{
if (!(clipflags & (1 << c)))
continue; // don't need to clip against it
clipped = BOX_ON_PLANE_SIDE (node->minmaxs, node->minmaxs + 3, clipplane);
if (clipped == 2)
return;
else if (clipped == 1)
clipflags -= (1<<c); // node is entirely on screen
}
// if a leaf node, draw stuff
if (node->contents < 0)
{
pleaf = (mleaf_t *)node;
c = (pleaf - cl.worldmodel->leafs)-1;
frustumvis[c>>3] |= 1<<(c&7);
mark = pleaf->firstmarksurface;
c = pleaf->nummarksurfaces;
if (c)
{
do
{
(*mark++)->visframe = r_framecount;
} while (--c);
}
return;
}
// node is just a decision point, so go down the apropriate sides
// find which side of the node we are on
plane = node->plane;
switch (plane->type)
{
case PLANE_X:
dot = modelorg[0] - plane->dist;
break;
case PLANE_Y:
dot = modelorg[1] - plane->dist;
break;
case PLANE_Z:
dot = modelorg[2] - plane->dist;
break;
default:
dot = DotProduct (modelorg, plane->normal) - plane->dist;
break;
}
if (dot >= 0)
side = 0;
else
side = 1;
// recurse down the children, front side first
Surf_RecursiveWorldNode (node->children[side], clipflags);
// draw stuff
c = node->numsurfaces;
if (c)
{
surf = cl.worldmodel->surfaces + node->firstsurface;
if (dot < 0 -BACKFACE_EPSILON)
side = SURF_PLANEBACK;
else if (dot > BACKFACE_EPSILON)
side = 0;
{
for ( ; c ; c--, surf++)
{
if (surf->visframe != r_framecount)
continue;
if (((dot < 0) ^ !!(surf->flags & SURF_PLANEBACK)))
continue; // wrong side
Surf_RenderDynamicLightmaps (surf);
surf->sbatch->mesh[surf->sbatch->meshes++] = surf->mesh;
}
}
}
// recurse down the back side
//GLR_RecursiveWorldNode (node->children[!side], clipflags);
node = node->children[!side];
goto start;
}
static void Surf_OrthoRecursiveWorldNode (mnode_t *node, unsigned int clipflags)
{
//when rendering as ortho the front and back sides are technically equal. the only culling comes from frustum culling.
int c, clipped;
mplane_t *clipplane;
msurface_t *surf, **mark;
mleaf_t *pleaf;
if (node->contents == Q1CONTENTS_SOLID)
return; // solid
if (node->visframe != r_visframecount)
return;
for (c = 0, clipplane = r_refdef.frustum; c < r_refdef.frustum_numworldplanes; c++, clipplane++)
{
if (!(clipflags & (1 << c)))
continue; // don't need to clip against it
clipped = BOX_ON_PLANE_SIDE (node->minmaxs, node->minmaxs + 3, clipplane);
if (clipped == 2)
return;
else if (clipped == 1)
clipflags -= (1<<c); // node is entirely on screen
}
// if a leaf node, draw stuff
if (node->contents < 0)
{
pleaf = (mleaf_t *)node;
mark = pleaf->firstmarksurface;
c = pleaf->nummarksurfaces;
if (c)
{
do
{
(*mark++)->visframe = r_framecount;
} while (--c);
}
return;
}
// recurse down the children
Surf_OrthoRecursiveWorldNode (node->children[0], clipflags);
Surf_OrthoRecursiveWorldNode (node->children[1], clipflags);
// draw stuff
c = node->numsurfaces;
if (c)
{
surf = cl.worldmodel->surfaces + node->firstsurface;
for ( ; c ; c--, surf++)
{
if (surf->visframe != r_framecount)
continue;
Surf_RenderDynamicLightmaps (surf);
surf->sbatch->mesh[surf->sbatch->meshes++] = surf->mesh;
}
}
return;
}
#ifdef Q2BSPS
static void Surf_RecursiveQ2WorldNode (mnode_t *node)
{
int c, side;
mplane_t *plane;
msurface_t *surf, **mark;
mleaf_t *pleaf;
double dot;
int sidebit;
if (node->contents == Q2CONTENTS_SOLID)
return; // solid
if (node->visframe != r_visframecount)
return;
if (R_CullBox (node->minmaxs, node->minmaxs+3))
return;
// if a leaf node, draw stuff
if (node->contents != -1)
{
pleaf = (mleaf_t *)node;
// check for door connected areas
if (! (r_refdef.areabits[pleaf->area>>3] & (1<<(pleaf->area&7)) ) )
return; // not visible
c = pleaf->cluster;
if (c >= 0)
frustumvis[c>>3] |= 1<<(c&7);
mark = pleaf->firstmarksurface;
c = pleaf->nummarksurfaces;
if (c)
{
do
{
(*mark)->visframe = r_framecount;
mark++;
} while (--c);
}
return;
}
// node is just a decision point, so go down the apropriate sides
// find which side of the node we are on
plane = node->plane;
switch (plane->type)
{
case PLANE_X:
dot = modelorg[0] - plane->dist;
break;
case PLANE_Y:
dot = modelorg[1] - plane->dist;
break;
case PLANE_Z:
dot = modelorg[2] - plane->dist;
break;
default:
dot = DotProduct (modelorg, plane->normal) - plane->dist;
break;
}
if (dot >= 0)
{
side = 0;
sidebit = 0;
}
else
{
side = 1;
sidebit = SURF_PLANEBACK;
}
// recurse down the children, front side first
Surf_RecursiveQ2WorldNode (node->children[side]);
// draw stuff
for ( c = node->numsurfaces, surf = currentmodel->surfaces + node->firstsurface; c ; c--, surf++)
{
if (surf->visframe != r_framecount)
continue;
if ( (surf->flags & SURF_PLANEBACK) != sidebit )
continue; // wrong side
surf->visframe = 0;//r_framecount+1;//-1;
Surf_RenderDynamicLightmaps (surf);
surf->sbatch->mesh[surf->sbatch->meshes++] = surf->mesh;
}
// recurse down the back side
Surf_RecursiveQ2WorldNode (node->children[!side]);
}
#endif
#ifdef Q3BSPS
#if 0
static void Surf_LeafWorldNode (void)
{
int i;
int clipflags;
msurface_t **mark, *surf;
mleaf_t *pleaf;
int clipped;
mplane_t *clipplane;
for (pleaf = r_vischain; pleaf; pleaf = pleaf->vischain)
{
// check for door connected areas
// if (areabits)
{
// if (!(areabits[pleaf->area>>3] & (1<<(pleaf->area&7))))
// {
// continue; // not visible
// }
}
clipflags = 15; // 1 | 2 | 4 | 8
// if (!r_nocull->value)
{
for (i=0,clipplane=frustum ; i<FRUSTUMPLANES ; i++,clipplane++)
{
clipped = BoxOnPlaneSide (pleaf->minmaxs, pleaf->minmaxs+3, clipplane);
if (clipped == 2)
{
break;
}
else if (clipped == 1)
{
clipflags &= ~(1<<i); // node is entirely on screen
}
}
if (i != FRUSTUMPLANES)
{
continue;
}
}
i = pleaf->nummarksurfaces;
mark = pleaf->firstmarksurface;
do
{
surf = *mark++;
if (surf->visframe != r_framecount) //sufraces exist in multiple leafs.
{
surf->visframe = r_framecount;
if (surf->mark)
*surf->mark = surf;
}
} while (--i);
// c_world_leafs++;
}
{
int j;
texture_t *tex;
for (i = 0; i < cl.worldmodel->numtextures; i++)
{
tex = cl.worldmodel->textures[i];
if (!tex)
continue;
for (j = 0; j < tex->vbo.meshcount; j++)
{
surf = tex->vbo.meshlist[j];
if (surf)
{
tex->vbo.meshlist[j] = NULL;
surf->sbatch->mesh[surf->sbatch->meshes++] = surf->mesh;
}
}
}
}
}
#endif
static void Surf_RecursiveQ3WorldNode (mnode_t *node, unsigned int clipflags)
{
int c, side, clipped;
mplane_t *plane, *clipplane;
msurface_t *surf, **mark;
mleaf_t *pleaf;
double dot;
start:
if (node->visframe != r_visframecount)
return;
for (c = 0, clipplane = r_refdef.frustum; c < r_refdef.frustum_numworldplanes; c++, clipplane++)
{
if (!(clipflags & (1 << c)))
continue; // don't need to clip against it
clipped = BOX_ON_PLANE_SIDE (node->minmaxs, node->minmaxs + 3, clipplane);
if (clipped == 2)
return;
else if (clipped == 1)
clipflags -= (1<<c); // node is entirely on screen
}
// if a leaf node, draw stuff
if (node->contents != -1)
{
pleaf = (mleaf_t *)node;
if (! (r_refdef.areabits[pleaf->area>>3] & (1<<(pleaf->area&7)) ) )
return; // not visible
c = pleaf->cluster;
if (c >= 0)
frustumvis[c>>3] |= 1<<(c&7);
mark = pleaf->firstmarksurface;
for (c = pleaf->nummarksurfaces; c; c--)
{
surf = *mark++;
if (surf->visframe == r_framecount)
continue;
surf->visframe = r_framecount;
// if (((dot < 0) ^ !!(surf->flags & SURF_PLANEBACK)))
// continue; // wrong side
surf->sbatch->mesh[surf->sbatch->meshes++] = surf->mesh;
}
return;
}
// node is just a decision point, so go down the apropriate sides
// find which side of the node we are on
plane = node->plane;
switch (plane->type)
{
case PLANE_X:
dot = modelorg[0] - plane->dist;
break;
case PLANE_Y:
dot = modelorg[1] - plane->dist;
break;
case PLANE_Z:
dot = modelorg[2] - plane->dist;
break;
default:
dot = DotProduct (modelorg, plane->normal) - plane->dist;
break;
}
if (dot >= 0)
side = 0;
else
side = 1;
// recurse down the children, front side first
Surf_RecursiveQ3WorldNode (node->children[side], clipflags);
// q3 nodes contain no drawables
// recurse down the back side
//GLR_RecursiveWorldNode (node->children[!side], clipflags);
node = node->children[!side];
goto start;
}
#endif
static void Surf_PushChains(batch_t **batches)
{
batch_t *batch;
int i;
if (r_refdef.recurse == R_MAX_RECURSE)
Sys_Error("Recursed too deep\n");
if (!r_refdef.recurse)
{
for (i = 0; i < SHADER_SORT_COUNT; i++)
for (batch = batches[i]; batch; batch = batch->next)
{
batch->firstmesh = 0;
}
}
#if R_MAX_RECURSE > 2
else if (r_refdef.recurse > 1)
{
for (i = 0; i < SHADER_SORT_COUNT; i++)
for (batch = batches[i]; batch; batch = batch->next)
{
batch->recursefirst[r_refdef.recurse] = batch->firstmesh;
batch->firstmesh = batch->meshes;
}
}
#endif
else
{
for (i = 0; i < SHADER_SORT_COUNT; i++)
for (batch = batches[i]; batch; batch = batch->next)
{
batch->firstmesh = batch->meshes;
}
}
}
static void Surf_PopChains(batch_t **batches)
{
batch_t *batch;
int i;
if (!r_refdef.recurse)
{
for (i = 0; i < SHADER_SORT_COUNT; i++)
for (batch = batches[i]; batch; batch = batch->next)
{
batch->meshes = 0;
}
}
#if R_MAX_RECURSE > 2
else if (r_refdef.recurse > 1)
{
for (i = 0; i < SHADER_SORT_COUNT; i++)
for (batch = batches[i]; batch; batch = batch->next)
{
batch->meshes = batch->firstmesh;
batch->firstmesh = batch->recursefirst[r_refdef.recurse];
}
}
#endif
else
{
for (i = 0; i < SHADER_SORT_COUNT; i++)
for (batch = batches[i]; batch; batch = batch->next)
{
batch->meshes = batch->firstmesh;
batch->firstmesh = 0;
}
}
}
//most of this is a direct copy from gl
void Surf_SetupFrame(void)
{
mleaf_t *leaf;
vec3_t temp, pvsorg;
if (!cl.worldmodel || (!cl.worldmodel->nodes && cl.worldmodel->type != mod_heightmap))
r_refdef.flags |= RDF_NOWORLDMODEL;
R_AnimateLight();
r_framecount++;
if (r_refdef.recurse)
{
VectorCopy(r_refdef.pvsorigin, pvsorg);
}
else
{
VectorCopy(r_refdef.vieworg, pvsorg);
R_UpdateHDR(r_refdef.vieworg);
}
r_viewcontents = 0;
if (r_refdef.flags & RDF_NOWORLDMODEL)
{
}
else if (!cl.worldmodel || cl.worldmodel->loadstate != MLS_LOADED || cl.worldmodel->fromgame == fg_doom3 )
{
r_viewleaf = NULL;
r_viewleaf2 = NULL;
}
#ifdef Q2BSPS
else if (cl.worldmodel->fromgame == fg_quake2 || cl.worldmodel->fromgame == fg_quake3)
{
static mleaf_t fakeleaf;
mleaf_t *leaf;
//FIXME: do we still need this fakeleaf stuff?
r_viewleaf = &fakeleaf;
r_viewleaf->contents = Q1CONTENTS_EMPTY;
r_viewleaf2 = NULL;
leaf = Mod_PointInLeaf (cl.worldmodel, pvsorg);
r_viewcontents = cl.worldmodel->funcs.PointContents(cl.worldmodel, NULL, pvsorg);
r_viewcluster = r_viewcluster2 = leaf->cluster;
// check above and below so crossing solid water doesn't draw wrong
if (!leaf->contents)
{ // look down a bit
vec3_t temp;
VectorCopy (pvsorg, temp);
temp[2] -= 16;
leaf = Mod_PointInLeaf (cl.worldmodel, temp);
if ( !(leaf->contents & Q2CONTENTS_SOLID) &&
(leaf->cluster != r_viewcluster2) )
r_viewcluster2 = leaf->cluster;
}
else
{ // look up a bit
vec3_t temp;
VectorCopy (pvsorg, temp);
temp[2] += 16;
leaf = Mod_PointInLeaf (cl.worldmodel, temp);
if ( !(leaf->contents & Q2CONTENTS_SOLID) &&
(leaf->cluster != r_viewcluster2) )
r_viewcluster2 = leaf->cluster;
}
}
#endif
else
{
r_viewleaf = Mod_PointInLeaf (cl.worldmodel, pvsorg);
if (!r_viewleaf)
{
}
else if (r_viewleaf->contents == Q1CONTENTS_EMPTY)
{ //look down a bit
VectorCopy (pvsorg, temp);
temp[2] -= 16;
leaf = Mod_PointInLeaf (cl.worldmodel, temp);
if (leaf->contents <= Q1CONTENTS_WATER && leaf->contents >= Q1CONTENTS_LAVA)
r_viewleaf2 = leaf;
else
r_viewleaf2 = NULL;
}
else if (r_viewleaf->contents <= Q1CONTENTS_WATER && r_viewleaf->contents >= Q1CONTENTS_LAVA)
{ //in water, look up a bit.
VectorCopy (pvsorg, temp);
temp[2] += 16;
leaf = Mod_PointInLeaf (cl.worldmodel, temp);
if (leaf->contents == Q1CONTENTS_EMPTY)
r_viewleaf2 = leaf;
else
r_viewleaf2 = NULL;
}
else
r_viewleaf2 = NULL;
if (r_viewleaf)
{
switch(r_viewleaf->contents)
{
case Q1CONTENTS_WATER:
r_viewcontents |= FTECONTENTS_WATER;
break;
case Q1CONTENTS_LAVA:
r_viewcontents |= FTECONTENTS_LAVA;
break;
case Q1CONTENTS_SLIME:
r_viewcontents |= FTECONTENTS_SLIME;
break;
case Q1CONTENTS_SKY:
r_viewcontents |= FTECONTENTS_SKY;
break;
case Q1CONTENTS_SOLID:
r_viewcontents |= FTECONTENTS_SOLID;
break;
case Q1CONTENTS_LADDER:
r_viewcontents |= FTECONTENTS_LADDER;
break;
}
}
}
#ifdef TERRAIN
if (!(r_refdef.flags & RDF_NOWORLDMODEL) && cl.worldmodel && cl.worldmodel->terrain)
{
r_viewcontents |= Heightmap_PointContents(cl.worldmodel, NULL, pvsorg);
}
#endif
/*pick up any extra water entities*/
{
vec3_t t1,t2;
VectorCopy(pmove.player_mins, t1);
VectorCopy(pmove.player_maxs, t2);
VectorClear(pmove.player_maxs);
VectorClear(pmove.player_mins);
r_viewcontents |= PM_ExtraBoxContents(pvsorg);
VectorCopy(t1, pmove.player_mins);
VectorCopy(t2, pmove.player_maxs);
}
if (!r_secondaryview)
V_SetContentsColor (r_viewcontents);
if (r_refdef.playerview->audio.defaulted)
{
//first scene is the 'main' scene and audio defaults to that (unless overridden later in the frame)
r_refdef.playerview->audio.defaulted = false;
r_refdef.playerview->audio.entnum = r_refdef.playerview->viewentity;
VectorCopy(r_refdef.vieworg, r_refdef.playerview->audio.origin);
AngleVectors(r_refdef.viewangles, r_refdef.playerview->audio.forward,r_refdef.playerview->audio.right, r_refdef.playerview->audio.up);
if (r_viewcontents & FTECONTENTS_FLUID)
r_refdef.playerview->audio.reverbtype = 1;
else
r_refdef.playerview->audio.reverbtype = 0;
VectorCopy(r_refdef.playerview->simvel, r_refdef.playerview->audio.velocity);
}
}
/*
static mesh_t *surfbatchmeshes[256];
static void Surf_BuildBrushBatch(batch_t *batch)
{
model_t *model = batch->ent->model;
unsigned int i;
batch->mesh = surfbatchmeshes;
batch->meshes = batch->surf_count;
for (i = 0; i < batch->surf_count; i++)
{
surfbatchmeshes[i] = model->surfaces[batch->surf_first + i].mesh;
}
}
*/
void Surf_GenBrushBatches(batch_t **batches, entity_t *ent)
{
int i;
msurface_t *s;
batch_t *ob;
model_t *model;
batch_t *b;
unsigned int bef;
model = ent->model;
if (R_CullEntityBox (ent, model->mins, model->maxs))
return;
#ifdef RTLIGHTS
if (BE_LightCullModel(ent->origin, model))
return;
#endif
// calculate dynamic lighting for bmodel if it's not an
// instanced model
if (model->fromgame != fg_quake3 && model->fromgame != fg_doom3 && lightmap)
{
int k;
currententity = ent;
currentmodel = ent->model;
if (model->nummodelsurfaces != 0 && r_dynamic.ival > 0)
{
for (k=rtlights_first; k<RTL_FIRST; k++)
{
if (!cl_dlights[k].radius)
continue;
if (!(cl_dlights[k].flags & LFLAG_LIGHTMAP))
continue;
model->funcs.MarkLights (&cl_dlights[k], 1<<k, model->rootnode);
}
}
Surf_LightmapShift(model);
if ((ent->drawflags & MLS_MASK) == MLS_ABSLIGHT)
{
//update lightmaps.
for (s = model->surfaces+model->firstmodelsurface,i = 0; i < model->nummodelsurfaces; i++, s++)
Surf_RenderAmbientLightmaps (s, ent->abslight);
}
else if (ent->drawflags & DRF_TRANSLUCENT)
{
//update lightmaps.
for (s = model->surfaces+model->firstmodelsurface,i = 0; i < model->nummodelsurfaces; i++, s++)
Surf_RenderAmbientLightmaps (s, 255);
}
else
{
//update lightmaps.
for (s = model->surfaces+model->firstmodelsurface,i = 0; i < model->nummodelsurfaces; i++, s++)
Surf_RenderDynamicLightmaps (s);
}
currententity = NULL;
}
bef = BEF_PUSHDEPTH;
if (ent->flags & RF_ADDITIVE)
bef |= BEF_FORCEADDITIVE;
else if ((ent->drawflags & DRF_TRANSLUCENT) && r_wateralpha.value != 1)
{
bef |= BEF_FORCETRANSPARENT;
ent->shaderRGBAf[3] = r_wateralpha.value;
}
else if ((ent->flags & RF_TRANSLUCENT) && cls.protocol != CP_QUAKE3)
bef |= BEF_FORCETRANSPARENT;
if (ent->flags & RF_NODEPTHTEST)
bef |= BEF_FORCENODEPTH;
if (ent->flags & RF_NOSHADOW)
bef |= BEF_NOSHADOWS;
for (i = 0; i < SHADER_SORT_COUNT; i++)
for (ob = model->batches[i]; ob; ob = ob->next)
{
b = BE_GetTempBatch();
if (!b)
continue;
*b = *ob;
// if (b->texture)
// b->shader = R_TextureAnimation(ent->framestate.g[FS_REG].frame[0], b->texture)->shader;
b->meshes = b->maxmeshes;
b->ent = ent;
b->flags = bef;
if (b->buildmeshes)
b->buildmeshes(b);
if (!b->shader)
b->shader = R_TextureAnimation(ent->framestate.g[FS_REG].frame[0], b->texture)->shader;
if (bef & BEF_FORCEADDITIVE)
{
b->next = batches[SHADER_SORT_ADDITIVE];
batches[SHADER_SORT_ADDITIVE] = b;
}
else if (bef & BEF_FORCETRANSPARENT)
{
b->next = batches[SHADER_SORT_BLEND];
batches[SHADER_SORT_BLEND] = b;
}
else
{
b->next = batches[b->shader->sort];
batches[b->shader->sort] = b;
}
}
}
#ifdef THREADEDWORLD
struct webostate_s
{
char dbgid[12];
model_t *wmodel;
mleaf_t *leaf[2];
int cluster[2];
qbyte pvs[MAX_MAP_LEAFS/8];
vboarray_t ebo;
void *ebomem;
size_t idxcount;
int numbatches;
int lightstylevalues[MAX_LIGHTSTYLES]; //when using workers that only reprocessing lighting at 10fps, things get too ugly when things go out of sync
batch_t *rbatches[SHADER_SORT_COUNT];
struct wesbatch_s
{
size_t numidx;
size_t maxidx;
index_t *idxbuffer;
batch_t b;
mesh_t m;
mesh_t *pm;
vbo_t vbo;
} batches[1];
};
static struct webostate_s *webostate;
static struct webostate_s *webogenerating;
static int webogeneratingstate; //1 if generating, 0 if not, for waiting for sync.
static void R_DestroyWorldEBO(struct webostate_s *es)
{
if (!es)
return;
#ifdef GLQUAKE
if (qrenderer == QR_OPENGL)
qglDeleteBuffersARB(1, &es->ebo.gl.vbo);
#endif
#ifdef VKQUAKE
if (qrenderer == QR_VULKAN)
BE_VBO_Destroy(&es->ebo, es->ebomem);
#endif
BZ_Free(es);
}
void R_GeneratedWorldEBO(void *ctx, void *data, size_t a_, size_t b_)
{
size_t idxcount;
unsigned int i;
model_t *mod;
batch_t *b, *batch;
mesh_t *m;
int sortid;
R_DestroyWorldEBO(webostate);
webostate = ctx;
webogenerating = NULL;
webogeneratingstate = 0;
mod = webostate->wmodel;
for (i = 0, idxcount = 0; i < webostate->numbatches; i++)
idxcount += webostate->batches[i].numidx;
#ifdef GLQUAKE
if (qrenderer == QR_OPENGL)
{
GL_DeselectVAO();
webostate->ebo.gl.addr = NULL;
qglGenBuffersARB(1, &webostate->ebo.gl.vbo);
GL_SelectEBO(webostate->ebo.gl.vbo);
qglBufferDataARB(GL_ELEMENT_ARRAY_BUFFER_ARB, idxcount*sizeof(index_t), NULL, GL_STATIC_DRAW_ARB);
for (i = 0, idxcount = 0; i < webostate->numbatches; i++)
{
qglBufferSubDataARB(GL_ELEMENT_ARRAY_BUFFER_ARB, idxcount*sizeof(index_t), webostate->batches[i].numidx*sizeof(index_t), webostate->batches[i].idxbuffer);
BZ_Free(webostate->batches[i].idxbuffer);
webostate->batches[i].idxbuffer = (index_t*)NULL + idxcount;
idxcount += webostate->batches[i].numidx;
}
}
#endif
#ifdef VKQUAKE
if (qrenderer == QR_VULKAN)
{ //this malloc is stupid.
//with vulkan we really should be doing this on the worker instead, at least the staging part.
index_t *indexes = malloc(sizeof(*indexes) * idxcount);
webostate->ebo.vk.offs = 0;
for (i = 0, idxcount = 0; i < webostate->numbatches; i++)
{
memcpy(indexes + idxcount, webostate->batches[i].idxbuffer, webostate->batches[i].numidx*sizeof(index_t));
BZ_Free(webostate->batches[i].idxbuffer);
webostate->batches[i].idxbuffer = (index_t*)NULL + idxcount;
idxcount += webostate->batches[i].numidx;
}
if (idxcount)
BE_VBO_Finish(NULL, indexes, sizeof(*indexes) * idxcount, &webostate->ebo, NULL, &webostate->ebomem);
else
{
memset(&webostate->ebo, 0, sizeof(webostate->ebo));
webostate->ebomem = NULL;
}
free(indexes);
}
#endif
//should be doing this on the worker, but whatever
for (i = 0, sortid = 0; sortid < SHADER_SORT_COUNT; sortid++)
{
webostate->rbatches[sortid] = NULL;
for (batch = mod->batches[sortid]; batch != NULL; batch = batch->next, i++)
{
if (!webostate->batches[i].numidx)
continue;
if (batch->shader->flags & SHADER_NODRAW)
continue;
m = &webostate->batches[i].m;
webostate->batches[i].pm = m;
b = &webostate->batches[i].b;
memcpy(b, batch, sizeof(*b));
memset(m, 0, sizeof(*m));
if (b->shader->flags & SHADER_NEEDSARRAYS)
{
if (b->shader->flags & SHADER_SKY)
continue;
b->shader = R_RegisterShader_Vertex("unsupported");
}
m->numvertexes = webostate->batches[i].b.vbo->vertcount;
b->mesh = &webostate->batches[i].pm;
b->meshes = 1;
m->numindexes = webostate->batches[i].numidx;
m->vbofirstelement = webostate->batches[i].idxbuffer - (index_t*)NULL;
m->vbofirstvert = 0;
m->indexes = NULL;
b->vbo = &webostate->batches[i].vbo;
*b->vbo = *batch->vbo;
b->vbo->indicies = webostate->ebo;
b->vbo->vao = 0;
b->next = webostate->rbatches[sortid];
webostate->rbatches[sortid] = b;
}
}
}
static void Surf_SimpleWorld_Q1BSP(struct webostate_s *es, qbyte *pvs)
{
mleaf_t *leaf;
msurface_t *surf, **mark, **end;
mesh_t *mesh;
model_t *wmodel = es->wmodel;
int l = wmodel->numclusters;
int fc = -r_framecount;
for (leaf = wmodel->leafs+l; l-- > 0; leaf--)
{
if ((pvs[l>>3] & (1u<<(l&7))) && leaf->nummarksurfaces)
{
mark = leaf->firstmarksurface;
end = mark+leaf->nummarksurfaces;
while(mark < end)
{
surf = *mark++;
if (surf->visframe != fc)
{
int i;
struct wesbatch_s *eb;
surf->visframe = fc;
Surf_RenderDynamicLightmaps_Worker (wmodel, surf, es->lightstylevalues);
mesh = surf->mesh;
eb = &es->batches[surf->sbatch->ebobatch];
if (eb->maxidx < eb->numidx + mesh->numindexes)
{
//FIXME: pre-allocate
eb->maxidx = eb->numidx + surf->mesh->numindexes + 512;
eb->idxbuffer = BZ_Realloc(eb->idxbuffer, eb->maxidx * sizeof(index_t));
}
for (i = 0; i < mesh->numindexes; i++)
eb->idxbuffer[eb->numidx+i] = mesh->indexes[i] + mesh->vbofirstvert;
eb->numidx += mesh->numindexes;
}
}
}
}
}
#if defined(Q2BSP) || defined(Q3BSP)
static void Surf_SimpleWorld_Q3BSP(struct webostate_s *es, qbyte *pvs)
{
mleaf_t *leaf;
msurface_t *surf, **mark, **end;
mesh_t *mesh;
model_t *wmodel = es->wmodel;
int l = wmodel->numleafs; //is this doing submodels too?
int c;
int fc = -r_framecount;
for (leaf = wmodel->leafs; l-- > 0; leaf++)
{
c = leaf->cluster;
if (c < 0)
continue; //o.O
if ((pvs[c>>3] & (1u<<(c&7))) && leaf->nummarksurfaces)
{
mark = leaf->firstmarksurface;
end = mark+leaf->nummarksurfaces;
while(mark < end)
{
surf = *mark++;
if (surf->visframe != fc)
{
int i;
struct wesbatch_s *eb;
surf->visframe = fc;
mesh = surf->mesh;
eb = &es->batches[surf->sbatch->ebobatch];
if (eb->maxidx < eb->numidx + mesh->numindexes)
{
//FIXME: pre-allocate
eb->maxidx = eb->numidx + surf->mesh->numindexes + 512;
eb->idxbuffer = BZ_Realloc(eb->idxbuffer, eb->maxidx * sizeof(index_t));
}
for (i = 0; i < mesh->numindexes; i++)
eb->idxbuffer[eb->numidx+i] = mesh->indexes[i] + mesh->vbofirstvert;
eb->numidx += mesh->numindexes;
}
}
}
}
}
#endif
void R_GenWorldEBO(void *ctx, void *data, size_t a, size_t b)
{
int i;
struct webostate_s *es = ctx;
qbyte *pvs;
es->numbatches = es->wmodel->numbatches;
for (i = 0; i < es->numbatches; i++)
{
es->batches[i].numidx = 0;
es->batches[i].maxidx = 0;
es->batches[i].idxbuffer = NULL;
}
#if defined(Q2BSP) || defined(Q3BSP)
if (es->wmodel->fromgame == fg_quake2 || es->wmodel->fromgame == fg_quake3)
{
if (es->cluster[1] != -1 && es->cluster[0] != es->cluster[1])
{ //view is near to a water boundary. this implies the water crosses the near clip plane.
qbyte tmppvs[MAX_MAP_LEAFS/8], *pvs2;
int c;
pvs = es->wmodel->funcs.ClusterPVS(es->wmodel, es->cluster[0], es->pvs, sizeof(es->pvs));
pvs2 = es->wmodel->funcs.ClusterPVS(es->wmodel, es->cluster[1], tmppvs, sizeof(tmppvs));
c = (es->wmodel->numclusters+31)/32;
for (i=0 ; i<c ; i++)
((int *)es->pvs)[i] = ((int *)pvs)[i] | ((int *)pvs2)[i];
pvs = es->pvs;
}
else
pvs = es->wmodel->funcs.ClusterPVS(es->wmodel, es->cluster[0], es->pvs, sizeof(es->pvs));
Surf_SimpleWorld_Q3BSP(es, pvs);
}
else
#endif
{
//maybe we should just use fatpvs instead, and wait for completion when outside?
if (es->leaf[1])
{ //view is near to a water boundary. this implies the water crosses the near clip plane.
qbyte tmppvs[MAX_MAP_LEAFS/8];
int c;
Q1BSP_LeafPVS (es->wmodel, es->leaf[0], es->pvs, sizeof(es->pvs));
Q1BSP_LeafPVS (es->wmodel, es->leaf[1], tmppvs, sizeof(tmppvs));
c = (es->wmodel->numclusters+31)/32;
for (i=0 ; i<c ; i++)
((int *)es->pvs)[i] |= ((int *)tmppvs)[i];
pvs = es->pvs;
}
else
{
pvs = Q1BSP_LeafPVS (es->wmodel, es->leaf[0], es->pvs, sizeof(es->pvs));
}
Surf_SimpleWorld_Q1BSP(es, pvs);
}
COM_AddWork(WG_MAIN, R_GeneratedWorldEBO, es, NULL, 0, 0);
}
#endif
/*
=============
R_DrawWorld
=============
*/
void Surf_DrawWorld (void)
{
//surfvis vs entvis - the key difference is that surfvis is surfaces while entvis is volume. though surfvis should be frustum culled also for lighting. entvis doesn't care.
qbyte *surfvis, *entvis;
qbyte frustumvis_[MAX_MAP_LEAFS/8];
RSpeedLocals();
if (r_refdef.flags & RDF_NOWORLDMODEL)
{
r_refdef.flags |= RDF_NOWORLDMODEL;
BE_DrawWorld(NULL, NULL);
return;
}
if (!cl.worldmodel || cl.worldmodel->loadstate != MLS_LOADED)
{
/*Don't act as a wallhack*/
return;
}
currentmodel = cl.worldmodel;
currententity = &r_worldentity;
{
RSpeedRemark();
Surf_LightmapShift(cl.worldmodel);
#ifdef THREADEDWORLD
if ((r_dynamic.ival < 0 || cl.worldmodel->numbatches) && !r_refdef.recurse && cl.worldmodel->type == mod_brush)
{
if (webostate && webostate->wmodel != cl.worldmodel)
{
R_DestroyWorldEBO(webostate);
webostate = NULL;
}
if (qrenderer != QR_OPENGL && qrenderer != QR_VULKAN)
;
else if (cl.worldmodel->fromgame == fg_quake)
{
int i = MAX_LIGHTSTYLES;
if (webostate && !webogenerating)
for (i = 0; i < MAX_LIGHTSTYLES; i++)
{
if (webostate->lightstylevalues[i] != d_lightstylevalue[i])
break;
}
if (webostate && webostate->leaf[0] == r_viewleaf && webostate->leaf[1] == r_viewleaf2 && i == MAX_LIGHTSTYLES)
{
}
else
{
if (!webogenerating)
{
int i;
if (!cl.worldmodel->numbatches)
{
int sortid;
batch_t *batch;
cl.worldmodel->numbatches = 0;
for (sortid = 0; sortid < SHADER_SORT_COUNT; sortid++)
for (batch = cl.worldmodel->batches[sortid]; batch != NULL; batch = batch->next)
{
batch->ebobatch = cl.worldmodel->numbatches;
cl.worldmodel->numbatches++;
}
}
webogeneratingstate = true;
webogenerating = BZ_Malloc(sizeof(*webogenerating) + sizeof(webogenerating->batches[0]) * (cl.worldmodel->numbatches-1));
webogenerating->wmodel = cl.worldmodel;
webogenerating->leaf[0] = r_viewleaf;
webogenerating->leaf[1] = r_viewleaf2;
for (i = 0; i < MAX_LIGHTSTYLES; i++)
webogenerating->lightstylevalues[i] = d_lightstylevalue[i];
Q_strncpyz(webogenerating->dbgid, "webostate", sizeof(webogenerating->dbgid));
COM_AddWork(WG_LOADER, R_GenWorldEBO, webogenerating, NULL, 0, 0);
}
}
}
else if (cl.worldmodel->fromgame == fg_quake3)
{
if (webostate && webostate->cluster[0] == r_viewcluster && webostate->cluster[1] == r_viewcluster2)
{
}
else
{
if (!webogenerating)
{
if (!cl.worldmodel->numbatches)
{
int sortid;
batch_t *batch;
cl.worldmodel->numbatches = 0;
for (sortid = 0; sortid < SHADER_SORT_COUNT; sortid++)
for (batch = cl.worldmodel->batches[sortid]; batch != NULL; batch = batch->next)
{
batch->ebobatch = cl.worldmodel->numbatches;
cl.worldmodel->numbatches++;
}
}
webogeneratingstate = true;
webogenerating = BZ_Malloc(sizeof(*webogenerating) + sizeof(webogenerating->batches[0]) * (cl.worldmodel->numbatches-1));
webogenerating->wmodel = cl.worldmodel;
webogenerating->cluster[0] = r_viewcluster;
webogenerating->cluster[1] = r_viewcluster2;
Q_strncpyz(webogenerating->dbgid, "webostate", sizeof(webogenerating->dbgid));
COM_AddWork(WG_LOADER, R_GenWorldEBO, webogenerating, NULL, 0, 0);
}
}
}
if (webostate)
{
entvis = surfvis = webostate->pvs;
RSpeedEnd(RSPEED_WORLDNODE);
CL_LinkStaticEntities(entvis);
TRACE(("dbg: calling R_DrawParticles\n"));
if (!r_refdef.recurse)
P_DrawParticles ();
TRACE(("dbg: calling BE_DrawWorld\n"));
BE_DrawWorld(webostate->rbatches, surfvis);
/*FIXME: move this away*/
if (cl.worldmodel->fromgame == fg_quake || cl.worldmodel->fromgame == fg_halflife)
Surf_LessenStains();
return;
}
}
#endif
Surf_PushChains(cl.worldmodel->batches);
#ifdef Q2BSPS
if (cl.worldmodel->fromgame == fg_quake2 || cl.worldmodel->fromgame == fg_quake3)
{
frustumvis = frustumvis_;
memset(frustumvis, 0, (cl.worldmodel->numclusters + 7)>>3);
if (!r_refdef.areabitsknown)
{ //generate the info each frame, as the gamecode didn't tell us what to use.
int leafnum = CM_PointLeafnum (cl.worldmodel, r_refdef.vieworg);
int clientarea = CM_LeafArea (cl.worldmodel, leafnum);
CM_WriteAreaBits(cl.worldmodel, r_refdef.areabits, clientarea, false);
r_refdef.areabitsknown = true;
}
#ifdef Q3BSPS
if (cl.worldmodel->fromgame == fg_quake3)
{
entvis = surfvis = R_MarkLeaves_Q3 ();
Surf_RecursiveQ3WorldNode (cl.worldmodel->nodes, (1<<r_refdef.frustum_numworldplanes)-1);
//Surf_LeafWorldNode ();
}
else
#endif
{
entvis = surfvis = R_MarkLeaves_Q2 ();
VectorCopy (r_refdef.vieworg, modelorg);
Surf_RecursiveQ2WorldNode (cl.worldmodel->nodes);
}
surfvis = frustumvis;
}
else
#endif
#ifdef MAP_PROC
if (cl.worldmodel->fromgame == fg_doom3)
{
entvis = surfvis = D3_CalcVis(cl.worldmodel, r_origin);
}
else
#endif
#ifdef MAP_DOOM
if (currentmodel->fromgame == fg_doom)
{
entvis = surfvis = NULL;
R_DoomWorld();
}
else
#endif
#ifdef TERRAIN
if (currentmodel->type == mod_heightmap)
{
frustumvis = NULL;
entvis = surfvis = NULL;
}
else
#endif
{
//extern cvar_t temp1;
// if (0)//temp1.value)
// entvis = surfvis = R_MarkLeafSurfaces_Q1();
// else
{
entvis = R_MarkLeaves_Q1 (false);
if (!(r_novis.ival & 2))
VectorCopy (r_origin, modelorg);
frustumvis = frustumvis_;
memset(frustumvis, 0, (cl.worldmodel->numclusters + 7)>>3);
if (r_refdef.useperspective)
Surf_RecursiveWorldNode (cl.worldmodel->nodes, 0x1f);
else
Surf_OrthoRecursiveWorldNode (cl.worldmodel->nodes, 0x1f);
surfvis = frustumvis;
}
}
RSpeedEnd(RSPEED_WORLDNODE);
if (!(r_refdef.flags & RDF_NOWORLDMODEL))
{
CL_LinkStaticEntities(entvis);
TRACE(("dbg: calling R_DrawParticles\n"));
if (!r_refdef.recurse)
P_DrawParticles ();
}
TRACE(("dbg: calling BE_DrawWorld\n"));
BE_DrawWorld(cl.worldmodel->batches, surfvis);
Surf_PopChains(cl.worldmodel->batches);
/*FIXME: move this away*/
if (cl.worldmodel->fromgame == fg_quake || cl.worldmodel->fromgame == fg_halflife)
Surf_LessenStains();
}
}
unsigned int Surf_CalcMemSize(msurface_t *surf)
{
if (surf->mesh)
return 0;
if (!surf->numedges)
return 0;
//figure out how much space this surface needs
return sizeof(mesh_t) +
sizeof(index_t)*(surf->numedges-2)*3 +
(sizeof(vecV_t)+sizeof(vec2_t)*2+sizeof(vec3_t)*3+sizeof(vec4_t))*surf->numedges;
}
void Surf_DeInit(void)
{
int i;
#ifdef THREADEDWORLD
while(webogenerating)
COM_WorkerPartialSync(webogenerating, &webogeneratingstate, true);
R_DestroyWorldEBO(webostate);
webostate = NULL;
#endif
for (i = 0; i < numlightmaps; i++)
{
if (!lightmap[i])
continue;
if (!lightmap[i]->external)
Image_DestroyTexture(lightmap[i]->lightmap_texture);
BZ_Free(lightmap[i]);
lightmap[i] = NULL;
}
if (lightmap)
BZ_Free(lightmap);
lightmap=NULL;
numlightmaps=0;
Alias_Shutdown();
Shader_ResetRemaps();
}
void Surf_Clear(model_t *mod)
{
int i;
vbo_t *vbo;
// if (mod->fromgame == fg_doom3)
// return;/*they're on the hunk*/
#ifdef THREADEDWORLD
while(webogenerating)
COM_WorkerPartialSync(webogenerating, &webogeneratingstate, true);
if (webostate && webostate->wmodel == mod)
{
R_DestroyWorldEBO(webostate);
webostate = NULL;
}
#endif
while(mod->vbos)
{
vbo = mod->vbos;
mod->vbos = vbo->next;
BE_ClearVBO(vbo);
}
if (!mod->submodelof)
{
for (i = 0; i < mod->numtextures; i++)
{
R_UnloadShader(mod->textures[i]->shader);
mod->textures[i]->shader = NULL;
}
}
mod->numtextures = 0;
BZ_Free(mod->shadowbatches);
mod->numshadowbatches = 0;
mod->shadowbatches = NULL;
#ifdef RTLIGHTS
Sh_PurgeShadowMeshes();
#endif
BZ_Free(blocklights);
BZ_Free(blocknormals);
blocklights = NULL;
blocknormals = NULL;
maxblocksize = 0;
}
//pick fastest mode for lightmap data
void Surf_LightmapMode(void)
{
lightmap_bgra = true;
switch(qrenderer)
{
default:
case QR_SOFTWARE:
lightmap_fmt = TF_BGRA32;
lightmap_bytes = 4;
lightmap_bgra = true;
break;
#ifdef D3DQUAKE
case QR_DIRECT3D9:
case QR_DIRECT3D11:
/*always bgra, hope your card supports it*/
lightmap_fmt = TF_BGRA32;
lightmap_bytes = 4;
lightmap_bgra = true;
break;
#endif
#ifdef GLQUAKE
case QR_OPENGL:
/*favour bgra if the gpu supports it, otherwise use rgb only if it'll be used*/
lightmap_bgra = false;
if (gl_config.gles)
{
//rgb is a supported format, where bgr or rgbx are not.
lightmap_fmt = TF_RGB24;
lightmap_bytes = 3;
lightmap_bgra = false;
}
else if (gl_config.glversion >= 1.2)
{
/*the more common case*/
lightmap_fmt = TF_BGRA32;
lightmap_bytes = 4;
lightmap_bgra = true;
}
else if (cl.worldmodel->fromgame == fg_quake3 || (cl.worldmodel->engineflags & MDLF_RGBLIGHTING) || cl.worldmodel->deluxdata || r_loadlits.value)
{
lightmap_fmt = TF_RGB24;
lightmap_bgra = false;
lightmap_bytes = 3;
}
else
{
lightmap_fmt = TF_LUM8;
lightmap_bytes = 1;
}
break;
#endif
}
}
//needs to be followed by a BE_UploadAllLightmaps at some point
int Surf_NewLightmaps(int count, int width, int height, qboolean deluxe)
{
int first = numlightmaps;
int i;
if (!count)
return -1;
if (deluxe && (count & 1))
{
deluxe = false;
Con_Print("WARNING: Deluxemapping with odd number of lightmaps\n");
}
i = numlightmaps + count;
lightmap = BZ_Realloc(lightmap, sizeof(*lightmap)*(i));
while(i > first)
{
i--;
if (deluxe && ((i - numlightmaps)&1))
{
lightmap[i] = Z_Malloc(sizeof(*lightmap[i]) + (sizeof(qbyte)*4)*width*height);
lightmap[i]->width = width;
lightmap[i]->height = height;
lightmap[i]->lightmaps = (qbyte*)(lightmap[i]+1);
lightmap[i]->stainmaps = NULL;
lightmap[i]->hasdeluxe = false;
}
else
{
lightmap[i] = Z_Malloc(sizeof(*lightmap[i]) + (sizeof(qbyte)*4 + sizeof(stmap)*3)*width*height);
lightmap[i]->width = width;
lightmap[i]->height = height;
lightmap[i]->lightmaps = (qbyte*)(lightmap[i]+1);
lightmap[i]->stainmaps = (stmap*)(lightmap[i]->lightmaps+4*width*height);
lightmap[i]->hasdeluxe = deluxe;
}
lightmap[i]->rectchange.l = 0;
lightmap[i]->rectchange.t = 0;
lightmap[i]->rectchange.b = lightmap[i]->height;
lightmap[i]->rectchange.r = lightmap[i]->width;
lightmap[i]->lightmap_texture = r_nulltex;
lightmap[i]->modified = true;
// lightmap[i]->shader = NULL;
lightmap[i]->external = false;
// reset stainmap since it now starts at 255
if (lightmap[i]->stainmaps)
memset(lightmap[i]->stainmaps, 255, width*height*3*sizeof(stmap));
}
numlightmaps += count;
return first;
}
int Surf_NewExternalLightmaps(int count, char *filepattern, qboolean deluxe)
{
int first = numlightmaps;
int i;
char nname[MAX_QPATH];
qboolean odd = (count & 1) && deluxe;
if (!count)
return -1;
if (odd)
count++;
i = numlightmaps + count;
lightmap = BZ_Realloc(lightmap, sizeof(*lightmap)*(i));
while(i > first)
{
i--;
lightmap[i] = Z_Malloc(sizeof(*lightmap[i]));
lightmap[i]->width = 0;
lightmap[i]->height = 0;
lightmap[i]->lightmaps = NULL;
lightmap[i]->stainmaps = NULL;
lightmap[i]->modified = false;
lightmap[i]->external = true;
lightmap[i]->hasdeluxe = (deluxe && ((i - numlightmaps)&1));
Q_snprintfz(nname, sizeof(nname), filepattern, i - numlightmaps);
TEXASSIGN(lightmap[i]->lightmap_texture, R_LoadHiResTexture(nname, NULL, (gl_lightmap_nearest.ival?IF_NEAREST:IF_LINEAR)|IF_NOMIPMAP));
if (lightmap[i]->lightmap_texture->status == TEX_LOADING)
COM_WorkerPartialSync(lightmap[i]->lightmap_texture, &lightmap[i]->lightmap_texture->status, TEX_LOADING);
lightmap[i]->width = lightmap[i]->lightmap_texture->width;
lightmap[i]->height = lightmap[i]->lightmap_texture->height;
}
if (odd)
{
i = numlightmaps+count-1;
if (!TEXVALID(lightmap[i]->lightmap_texture))
{ //FIXME: no deluxemaps after all...
Z_Free(lightmap[i]);
lightmap[i] = NULL;
count--;
}
}
numlightmaps += count;
return first;
}
void Surf_BuildModelLightmaps (model_t *m)
{
int i;
int shift;
msurface_t *surf;
batch_t *batch;
int sortid;
int newfirst;
if (m->loadstate != MLS_LOADED)
return;
if (!lightmap_bytes)
return;
#ifdef TERRAIN
//easiest way to deal with heightmap lightmaps is to just purge the entire thing.
if (m->terrain)
Terr_PurgeTerrainModel(m, false, false); //FIXME: cop out. middle arg should be 'true'.
#endif
if (m->type != mod_brush)
return;
if (!m->lightmaps.count)
return;
currentmodel = m;
shift = Surf_LightmapShift(currentmodel);
if (m->submodelof && m->fromgame == fg_quake3) //FIXME: should be all bsp formats
{
if (m->submodelof->loadstate != MLS_LOADED)
return;
newfirst = cl.model_precache[1]->lightmaps.first;
}
else
{
if (!m->lightdata && m->lightmaps.count && m->fromgame == fg_quake3)
{
char pattern[MAX_QPATH];
COM_StripAllExtensions(m->name, pattern, sizeof(pattern));
Q_strncatz(pattern, "/lm_%04u.tga", sizeof(pattern));
newfirst = Surf_NewExternalLightmaps(m->lightmaps.count, pattern, m->lightmaps.deluxemapping);
m->lightmaps.count = numlightmaps - newfirst;
}
else
newfirst = Surf_NewLightmaps(m->lightmaps.count, m->lightmaps.width, m->lightmaps.height, m->lightmaps.deluxemapping);
}
//fixup batch lightmaps
for (sortid = 0; sortid < SHADER_SORT_COUNT; sortid++)
for (batch = m->batches[sortid]; batch != NULL; batch = batch->next)
{
for (i = 0; i < MAXRLIGHTMAPS; i++)
{
if (batch->lightmap[i] < 0)
continue;
batch->lightmap[i] = batch->lightmap[i] - m->lightmaps.first + newfirst;
}
}
if (m->fromgame == fg_quake3)
{
int j;
unsigned char *src;
unsigned char *dst;
if (!m->submodelof)
for (i = 0; i < m->lightmaps.count; i++)
{
if (lightmap[newfirst+i]->external)
continue;
dst = lightmap[newfirst+i]->lightmaps;
src = m->lightdata + i*m->lightmaps.width*m->lightmaps.height*3;
if (m->lightdata)
{
if (lightmap_bgra && lightmap_bytes == 4)
{
for (j = min((m->lightdatasize-i*m->lightmaps.width*m->lightmaps.height*3)/3,m->lightmaps.width*m->lightmaps.height); j > 0; j--, dst += 4, src += 3)
//for (j = 0; j < m->lightmaps.width*m->lightmaps.height; j++, dst += 4, src += 3)
{
dst[0] = src[2];
dst[1] = src[1];
dst[2] = src[0];
dst[3] = 255;
}
}
else if (!lightmap_bgra && lightmap_bytes == 4)
{
for (j = min((m->lightdatasize-i*m->lightmaps.width*m->lightmaps.height*3)/3,m->lightmaps.width*m->lightmaps.height); j > 0; j--, dst += 4, src += 3)
//for (j = 0; j < m->lightmaps.width*m->lightmaps.height; j++, dst += 4, src += 3)
{
dst[0] = src[0];
dst[1] = src[1];
dst[2] = src[2];
dst[3] = 255;
}
}
else if (lightmap_bgra && lightmap_bytes == 3)
{
for (j = 0; j < m->lightmaps.width*m->lightmaps.height; j++, dst += 3, src += 3)
{
dst[0] = src[2];
dst[1] = src[1];
dst[2] = src[0];
}
}
else if (!lightmap_bgra && lightmap_bytes == 3)
{
for (j = 0; j < m->lightmaps.width*m->lightmaps.height; j++, dst += 3, src += 3)
{
dst[0] = src[0];
dst[1] = src[1];
dst[2] = src[2];
}
}
}
}
}
else
{
int j;
lightmapinfo_t *lm, *dlm;
qbyte *deluxemap;
// if (*m->name == '*')
// {
// if (!cl.worldmodel || cl.worldmodel->loadstate != MLS_LOADED)
// return;
// }
//fixup surface lightmaps, and paint
for (i=0; i<m->nummodelsurfaces; i++)
{
surf = m->surfaces + i + m->firstmodelsurface;
for (j = 0; j < MAXRLIGHTMAPS; j++)
{
if (surf->lightmaptexturenums[j] < m->lightmaps.first)
{
surf->lightmaptexturenums[j] = -1;
continue;
}
if (surf->lightmaptexturenums[j] >= m->lightmaps.first+m->lightmaps.count)
{
surf->lightmaptexturenums[j] = -1;
continue;
}
surf->lightmaptexturenums[j] = surf->lightmaptexturenums[0] - m->lightmaps.first + newfirst;
lm = lightmap[surf->lightmaptexturenums[j]];
if (lm->hasdeluxe)
{
dlm = lightmap[surf->lightmaptexturenums[j]+1];
deluxemap = dlm->lightmaps + (surf->light_t[j] * dlm->width + surf->light_s[j]) * lightmap_bytes;
}
else
deluxemap = NULL;
Surf_BuildLightMap (surf,
lm->lightmaps + (surf->light_t[j] * lm->width + surf->light_s[j]) * lightmap_bytes,
deluxemap,
lm->stainmaps + (surf->light_t[j] * lm->width + surf->light_s[j]) * 3,
shift, r_ambient.value*255, lm->width);
}
}
}
m->lightmaps.first = newfirst;
}
void Surf_ClearLightmaps(void)
{
lightmap_bytes = 0;
#ifdef THREADEDWORLD
while(webogenerating)
COM_WorkerPartialSync(webogenerating, &webogeneratingstate, true);
R_DestroyWorldEBO(webostate);
webostate = NULL;
#endif
}
/*
==================
GL_BuildLightmaps
Builds the lightmap texture
with all the surfaces from all brush models
Groups surfaces into their respective batches (based on the lightmap number).
==================
*/
void Surf_BuildLightmaps (void)
{
int i;
model_t *m;
extern model_t *mod_known;
extern int mod_numknown;
//make sure the lightstyle values are correct.
R_AnimateLight();
r_framecount = 1; // no dlightcache
while(numlightmaps > 0)
{
numlightmaps--;
if (!lightmap[numlightmaps])
continue;
if (!lightmap[numlightmaps]->external)
Image_DestroyTexture(lightmap[numlightmaps]->lightmap_texture);
BZ_Free(lightmap[numlightmaps]);
lightmap[numlightmaps] = NULL;
}
Surf_LightmapMode();
r_oldviewleaf = NULL;
r_oldviewleaf2 = NULL;
r_oldviewcluster = -1;
r_oldviewcluster2 = -1;
//FIXME: unload stuff that's no longer relevant somehow.
for (i = 0; i < mod_numknown; i++)
{
m = &mod_known[i];
if (m->loadstate != MLS_LOADED)
continue;
Surf_BuildModelLightmaps(m);
}
BE_UploadAllLightmaps();
}
/*
===============
Surf_NewMap
===============
*/
void Surf_NewMap (void)
{
char namebuf[MAX_QPATH];
extern cvar_t host_mapname;
int i;
memset (&r_worldentity, 0, sizeof(r_worldentity));
AngleVectors(r_worldentity.angles, r_worldentity.axis[0], r_worldentity.axis[1], r_worldentity.axis[2]);
VectorInverse(r_worldentity.axis[1]);
r_worldentity.model = cl.worldmodel;
Vector4Set(r_worldentity.shaderRGBAf, 1, 1, 1, 1);
VectorSet(r_worldentity.light_avg, 1, 1, 1);
if (cl.worldmodel)
COM_StripExtension(COM_SkipPath(cl.worldmodel->name), namebuf, sizeof(namebuf));
else
*namebuf = '\0';
Cvar_Set(&host_mapname, namebuf);
Surf_DeInit();
r_viewleaf = NULL;
r_oldviewleaf = NULL;
r_viewcluster = -1;
r_oldviewcluster = 0;
r_viewcluster2 = -1;
if (cl.worldmodel)
{
if (cl.worldmodel->loadstate == MLS_LOADING)
COM_WorkerPartialSync(cl.worldmodel, &cl.worldmodel->loadstate, MLS_LOADING);
Mod_ParseInfoFromEntityLump(cl.worldmodel);
}
if (!pe)
Cvar_ForceCallback(&r_particlesystem);
R_Clutter_Purge();
TRACE(("dbg: Surf_NewMap: clear particles\n"));
P_ClearParticles ();
TRACE(("dbg: Surf_NewMap: wiping them stains (getting the cloth out)\n"));
Surf_WipeStains();
CL_RegisterParticles();
TRACE(("dbg: Surf_NewMap: building lightmaps\n"));
Surf_BuildLightmaps ();
TRACE(("dbg: Surf_NewMap: ui\n"));
#ifdef VM_UI
UI_Reset();
#endif
TRACE(("dbg: Surf_NewMap: tp\n"));
TP_NewMap();
R_SetSky(cl.skyname);
for (i = 0; i < cl.num_statics; i++)
{
vec3_t mins, maxs;
//fixme: no rotation
if (cl_static_entities[i].ent.model)
{
//unfortunately, we need to know the actual size so that we can get this right. bum.
if (cl_static_entities[i].ent.model->loadstate == MLS_NOTLOADED)
Mod_LoadModel(cl_static_entities[i].ent.model, MLV_WARNSYNC);
if (cl_static_entities[i].ent.model->loadstate == MLS_LOADING)
COM_WorkerPartialSync(cl_static_entities[i].ent.model, &cl_static_entities[i].ent.model->loadstate, MLS_LOADING);
VectorAdd(cl_static_entities[i].ent.origin, cl_static_entities[i].ent.model->mins, mins);
VectorAdd(cl_static_entities[i].ent.origin, cl_static_entities[i].ent.model->maxs, maxs);
}
else
{
VectorCopy(mins, cl_static_entities[i].ent.origin);
VectorCopy(maxs, cl_static_entities[i].ent.origin);
}
if (cl.worldmodel->funcs.FindTouchedLeafs)
cl.worldmodel->funcs.FindTouchedLeafs(cl.worldmodel, &cl_static_entities[i].pvscache, mins, maxs);
cl_static_entities[i].emit = NULL;
}
#ifdef RTLIGHTS
Sh_PreGenerateLights();
#endif
}
void Surf_PreNewMap(void)
{
r_loadbumpmapping = r_deluxemapping || r_glsl_offsetmapping.ival;
#ifdef RTLIGHTS
r_loadbumpmapping |= r_shadow_realtime_world.ival || r_shadow_realtime_dlight.ival;
#endif
r_viewleaf = NULL;
r_oldviewleaf = NULL;
r_viewleaf2 = NULL;
r_oldviewleaf2 = NULL;
}
static float sgn(float a)
{
if (a > 0.0F) return (1.0F);
if (a < 0.0F) return (-1.0F);
return (0.0F);
}
void R_ObliqueNearClip(float *viewmat, mplane_t *wplane)
{
float f;
vec4_t q, c;
vec3_t ping, pong;
vec4_t vplane;
//convert world plane into view space
Matrix4x4_CM_Transform3x3(viewmat, wplane->normal, vplane);
VectorScale(wplane->normal, wplane->dist, ping);
Matrix4x4_CM_Transform3(viewmat, ping, pong);
vplane[3] = -DotProduct(pong, vplane);
// Calculate the clip-space corner point opposite the clipping plane
// as (sgn(clipPlane.x), sgn(clipPlane.y), 1, 1) and
// transform it into camera space by multiplying it
// by the inverse of the projection matrix
q[0] = (sgn(vplane[0]) + r_refdef.m_projection[8]) / r_refdef.m_projection[0];
q[1] = (sgn(vplane[1]) + fabs(r_refdef.m_projection[9])) / fabs(r_refdef.m_projection[5]);
q[2] = -1.0F;
q[3] = (1.0F + r_refdef.m_projection[10]) / r_refdef.m_projection[14];
// Calculate the scaled plane vector
f = 2.0F / DotProduct4(vplane, q);
Vector4Scale(vplane, f, c);
// Replace the third row of the projection matrix
r_refdef.m_projection[2] = c[0];
r_refdef.m_projection[6] = c[1];
r_refdef.m_projection[10] = c[2] + 1.0F;
r_refdef.m_projection[14] = c[3];
}
#endif