fteqw/engine/gl/gl_rmisc.c

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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_misc.c
#include "quakedef.h"
#ifdef GLQUAKE
#include "glquake.h"
#include "gl_draw.h"
static void R_ReloadRTLights_f(void);
static void R_SaveRTLights_f(void);
extern void R_InitBubble();
/*
==================
R_InitTextures
==================
*
void GLR_InitTextures (void)
{
int x,y, m;
qbyte *dest;
// create a simple checkerboard texture for the default
r_notexture_mip = Hunk_AllocName (sizeof(texture_t) + 16*16+8*8+4*4+2*2, "notexture");
r_notexture_mip->width = r_notexture_mip->height = 16;
r_notexture_mip->offsets[0] = sizeof(texture_t);
r_notexture_mip->offsets[1] = r_notexture_mip->offsets[0] + 16*16;
r_notexture_mip->offsets[2] = r_notexture_mip->offsets[1] + 8*8;
r_notexture_mip->offsets[3] = r_notexture_mip->offsets[2] + 4*4;
for (m=0 ; m<4 ; m++)
{
dest = (qbyte *)r_notexture_mip + r_notexture_mip->offsets[m];
for (y=0 ; y< (16>>m) ; y++)
for (x=0 ; x< (16>>m) ; x++)
{
if ( (y< (8>>m) ) ^ (x< (8>>m) ) )
*dest++ = 0;
else
*dest++ = 0xff;
}
}
}*/
#if 0
qboolean GenerateNormalisationCubeMap()
{
unsigned char data[32*32*3];
//some useful variables
int size=32;
float offset=0.5f;
float halfSize=16.0f;
vec3_t tempVector;
unsigned char * bytePtr;
int i, j;
normalisationCubeMap = GL_AllocNewTexture();
GL_BindType(GL_TEXTURE_CUBE_MAP_ARB, normalisationCubeMap);
//positive x
bytePtr=data;
for(j=0; j<size; j++)
{
for(i=0; i<size; i++)
{
tempVector[0] = halfSize;
tempVector[1] = -(j+offset-halfSize);
tempVector[2] = -(i+offset-halfSize);
VectorNormalize(tempVector);
bytePtr[0]=(unsigned char)((tempVector[0]/2 + 0.5)*255);
bytePtr[1]=(unsigned char)((tempVector[1]/2 + 0.5)*255);
bytePtr[2]=(unsigned char)((tempVector[2]/2 + 0.5)*255);
bytePtr+=3;
}
}
qglTexImage2D( GL_TEXTURE_CUBE_MAP_POSITIVE_X_ARB,
0, GL_RGBA8, 32, 32, 0, GL_RGB, GL_UNSIGNED_BYTE, data);
//negative x
bytePtr=data;
for(j=0; j<size; j++)
{
for(i=0; i<size; i++)
{
tempVector[0] = (-halfSize);
tempVector[1] = (-(j+offset-halfSize));
tempVector[2] = ((i+offset-halfSize));
VectorNormalize(tempVector);
bytePtr[0]=(unsigned char)((tempVector[0]/2 + 0.5)*255);
bytePtr[1]=(unsigned char)((tempVector[1]/2 + 0.5)*255);
bytePtr[2]=(unsigned char)((tempVector[2]/2 + 0.5)*255);
bytePtr+=3;
}
}
qglTexImage2D( GL_TEXTURE_CUBE_MAP_NEGATIVE_X_ARB,
0, GL_RGBA8, 32, 32, 0, GL_RGB, GL_UNSIGNED_BYTE, data);
//positive y
bytePtr=data;
for(j=0; j<size; j++)
{
for(i=0; i<size; i++)
{
tempVector[0] = (i+offset-halfSize);
tempVector[1] = (halfSize);
tempVector[2] = ((j+offset-halfSize));
VectorNormalize(tempVector);
bytePtr[0]=(unsigned char)((tempVector[0]/2 + 0.5)*255);
bytePtr[1]=(unsigned char)((tempVector[1]/2 + 0.5)*255);
bytePtr[2]=(unsigned char)((tempVector[2]/2 + 0.5)*255);
bytePtr+=3;
}
}
qglTexImage2D( GL_TEXTURE_CUBE_MAP_POSITIVE_Y_ARB,
0, GL_RGBA8, 32, 32, 0, GL_RGB, GL_UNSIGNED_BYTE, data);
//negative y
bytePtr=data;
for(j=0; j<size; j++)
{
for(i=0; i<size; i++)
{
tempVector[0] = (i+offset-halfSize);
tempVector[1] = (-halfSize);
tempVector[2] = (-(j+offset-halfSize));
VectorNormalize(tempVector);
bytePtr[0]=(unsigned char)((tempVector[0]/2 + 0.5)*255);
bytePtr[1]=(unsigned char)((tempVector[1]/2 + 0.5)*255);
bytePtr[2]=(unsigned char)((tempVector[2]/2 + 0.5)*255);
bytePtr+=3;
}
}
qglTexImage2D( GL_TEXTURE_CUBE_MAP_NEGATIVE_Y_ARB,
0, GL_RGBA8, 32, 32, 0, GL_RGB, GL_UNSIGNED_BYTE, data);
//positive z
bytePtr=data;
for(j=0; j<size; j++)
{
for(i=0; i<size; i++)
{
tempVector[0] = (i+offset-halfSize);
tempVector[1] = (-(j+offset-halfSize));
tempVector[2] = (halfSize);
VectorNormalize(tempVector);
bytePtr[0]=(unsigned char)((tempVector[0]/2 + 0.5)*255);
bytePtr[1]=(unsigned char)((tempVector[1]/2 + 0.5)*255);
bytePtr[2]=(unsigned char)((tempVector[2]/2 + 0.5)*255);
bytePtr+=3;
}
}
qglTexImage2D( GL_TEXTURE_CUBE_MAP_POSITIVE_Z_ARB,
0, GL_RGBA8, 32, 32, 0, GL_RGB, GL_UNSIGNED_BYTE, data);
//negative z
bytePtr=data;
for(j=0; j<size; j++)
{
for(i=0; i<size; i++)
{
tempVector[0] = (-(i+offset-halfSize));
tempVector[1] = (-(j+offset-halfSize));
tempVector[2] = (-halfSize);
VectorNormalize(tempVector);
bytePtr[0]=(unsigned char)((tempVector[0]/2 + 0.5)*255);
bytePtr[1]=(unsigned char)((tempVector[1]/2 + 0.5)*255);
bytePtr[2]=(unsigned char)((tempVector[2]/2 + 0.5)*255);
bytePtr+=3;
}
}
qglTexImage2D( GL_TEXTURE_CUBE_MAP_NEGATIVE_Z_ARB,
0, GL_RGBA8, 32, 32, 0, GL_RGB, GL_UNSIGNED_BYTE, data);
qglTexParameteri(GL_TEXTURE_CUBE_MAP_ARB, GL_TEXTURE_MAG_FILTER, GL_LINEAR);
qglTexParameteri(GL_TEXTURE_CUBE_MAP_ARB, GL_TEXTURE_MIN_FILTER, GL_LINEAR);
qglTexParameteri(GL_TEXTURE_CUBE_MAP_ARB, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE);
qglTexParameteri(GL_TEXTURE_CUBE_MAP_ARB, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE);
qglTexParameteri(GL_TEXTURE_CUBE_MAP_ARB, GL_TEXTURE_WRAP_R, GL_CLAMP_TO_EDGE);
return true;
}
texid_t normalisationCubeMap;
#endif
/*
===============
R_Init
===============
*/
void GLR_ReInit (void)
{
#if 0
extern int gl_bumpmappingpossible;
if (gl_bumpmappingpossible)
GenerateNormalisationCubeMap();
else
normalisationCubeMap = 0;
#endif
netgraphtexture = GL_AllocNewTexture(0, 0);
R_InitBloomTextures();
R_InitFlashblends();
}
/*
typedef struct
{
long offset; // Position of the entry in WAD
long dsize; // Size of the entry in WAD file
long size; // Size of the entry in memory
char type; // type of entry
char cmprs; // Compression. 0 if none.
short dummy; // Not used
char name[16]; // we use only first 8
} wad2entry_t;
typedef struct
{
char magic[4]; //should be WAD2
long num; //number of entries
long offset; //location of directory
} wad2_t;
void R_MakeTexWad_f(void)
{
miptex_t dummymip = {"", 0, 0, {0, 0, 0, 0}};
wad2_t wad2 = {"WAD2",0,0};
wad2entry_t entry[2048];
int entries = 0, i;
FILE *f;
char base[128];
char *texname;
// qbyte b;
float scale;
int width, height;
qbyte *buf, *outmip;
qbyte *mip, *stack;
// WIN32_FIND_DATA fd;
// HANDLE h;
scale = atof(Cmd_Argv(2));
if (!scale)
scale = 2;
// h = FindFirstFile(va("%s/textures/ *.tga", com_gamedir), &fd); //if this is uncommented, clear that space... (gcc warning fix)
if (!shader)
return;
mip = BZ_Malloc(1024*1024);
// initbuf = BZ_Malloc(1024*1024*4);
stack = BZ_Malloc(1024*1024*4+1024);
f=fopen(va("%s/shadrtex.wad", com_gamedir), "wb");
fwrite(&wad2, 1, sizeof(wad2_t), f);
for (shad = shader; shad; shad=shad->next)
{
texname = shad->editorname;
if (!*texname)
continue;
COM_StripExtension(shad->name, base);
base[15]=0;
for (i =0; i < entries; i++)
if (!strcmp(entry[entries].name, base))
break;
if (i != entries)
{
Con_Printf("Skipped %s - duplicated shrunken name\n", texname);
continue;
}
entry[entries].offset = ftell(f);
entry[entries].dsize = entry[entries].size = 0;
entry[entries].type = TYP_MIPTEX;
entry[entries].cmprs = 0;
entry[entries].dummy = 0;
strcpy(entry[entries].name, base);
strcpy(dummymip.name, base);
{
qbyte *data;
int h;
float x, xi;
float y, yi;
char *path[] ={
"%s",
"override/%s.tga",
"override/%s.pcx",
"%s.tga",
"progs/%s"};
for (h = 0, buf=NULL; h < sizeof(path)/sizeof(char *); h++)
{
buf = COM_LoadStackFile(va(path[h], texname), stack, 1024*1024*4+1024);
if (buf)
break;
}
if (!buf)
{
Con_Printf("Failed to find texture \"%s\"\n", texname);
continue;
}
data = ReadTargaFile(buf, com_filesize, &width, &height, false);
if (!data)
{
BZ_Free(data);
Con_Printf("Skipped %s - file type not supported (bad bpp?)\n", texname);
continue;
}
dummymip.width = (int)(width/scale) & ~0xf;
dummymip.height = (int)(height/scale) & ~0xf;
if (dummymip.width<=0)
dummymip.width=16;
if (dummymip.height<=0)
dummymip.height=16;
dummymip.offsets[0] = sizeof(dummymip);
dummymip.offsets[1] = dummymip.offsets[0]+dummymip.width*dummymip.height;
dummymip.offsets[2] = dummymip.offsets[1]+dummymip.width/2*dummymip.height/2;
dummymip.offsets[3] = dummymip.offsets[2]+dummymip.width/4*dummymip.height/4;
entry[entries].dsize = entry[entries].size = dummymip.offsets[3]+dummymip.width/8*dummymip.height/8;
xi = (float)width/dummymip.width;
yi = (float)height/dummymip.height;
fwrite(&dummymip, 1, sizeof(dummymip), f);
outmip=mip;
for (outmip=mip, y = 0; y < height; y+=yi)
for (x = 0; x < width; x+=xi)
{
*outmip++ = GetPaletteIndex( data[(int)(x+y*width)*4+0],
data[(int)(x+y*width)*4+1],
data[(int)(x+y*width)*4+2]);
}
fwrite(mip, dummymip.width, dummymip.height, f);
for (outmip=mip, y = 0; y < height; y+=yi*2)
for (x = 0; x < width; x+=xi*2)
{
*outmip++ = GetPaletteIndex( data[(int)(x+y*width)*4+0],
data[(int)(x+y*width)*4+1],
data[(int)(x+y*width)*4+2]);
}
fwrite(mip, dummymip.width/2, dummymip.height/2, f);
for (outmip=mip, y = 0; y < height; y+=yi*4)
for (x = 0; x < width; x+=xi*4)
{
*outmip++ = GetPaletteIndex( data[(int)(x+y*width)*4+0],
data[(int)(x+y*width)*4+1],
data[(int)(x+y*width)*4+2]);
}
fwrite(mip, dummymip.width/4, dummymip.height/4, f);
for (outmip=mip, y = 0; y < height; y+=yi*8)
for (x = 0; x < width; x+=xi*8)
{
*outmip++ = GetPaletteIndex( data[(int)(x+y*width)*4+0],
data[(int)(x+y*width)*4+1],
data[(int)(x+y*width)*4+2]);
}
fwrite(mip, dummymip.width/8, dummymip.height/8, f);
BZ_Free(data);
}
entries++;
Con_Printf("Added %s\n", base);
GLSCR_UpdateScreen();
}
wad2.offset = ftell(f);
wad2.num = entries;
fwrite(entry, entries, sizeof(wad2entry_t), f);
fseek(f, 0, SEEK_SET);
fwrite(&wad2, 1, sizeof(wad2_t), f);
fclose(f);
BZ_Free(mip);
// BZ_Free(initbuf);
BZ_Free(stack);
Con_Printf("Written %i mips to textures.wad\n", entries);
}
*/
void GLR_TimeRefresh_f (void);
extern cvar_t gl_bump, v_contrast, r_drawflat;
extern cvar_t r_stains, r_stainfadetime, r_stainfadeammount;
// callback defines
extern cvar_t gl_font, r_menutint;
extern cvar_t vid_conautoscale, vid_conheight, vid_conwidth;
extern cvar_t crosshair, crosshairimage, crosshaircolor, r_skyboxname;
extern cvar_t r_floorcolour, r_wallcolour, r_floortexture, r_walltexture;
extern cvar_t r_fastskycolour;
void GLCrosshairimage_Callback(struct cvar_s *var, char *oldvalue);
void GLCrosshair_Callback(struct cvar_s *var, char *oldvalue);
void GLCrosshaircolor_Callback(struct cvar_s *var, char *oldvalue);
void GLR_Menutint_Callback (struct cvar_s *var, char *oldvalue);
void GLV_Gamma_Callback(struct cvar_s *var, char *oldvalue);
void GLR_DeInit (void)
{
Cmd_RemoveCommand ("timerefresh");
Cmd_RemoveCommand ("r_editlights_reload");
Cmd_RemoveCommand ("r_editlights_save");
Cmd_RemoveCommand ("makewad");
Cvar_Unhook(&crosshair);
Cvar_Unhook(&crosshairimage);
Cvar_Unhook(&crosshaircolor);
Cvar_Unhook(&r_skyboxname);
Cvar_Unhook(&r_menutint);
Cvar_Unhook(&vid_conautoscale);
Cvar_Unhook(&vid_conheight);
Cvar_Unhook(&vid_conwidth);
Cvar_Unhook(&r_wallcolour);
Cvar_Unhook(&r_floorcolour);
Cvar_Unhook(&r_walltexture);
Cvar_Unhook(&r_floortexture);
Cvar_Unhook(&r_fastskycolour);
Cvar_Unhook(&r_drawflat);
Cvar_Unhook(&v_gamma);
Cvar_Unhook(&v_contrast);
GLDraw_DeInit();
Surf_DeInit();
}
void GLR_Init (void)
{
Cmd_AddRemCommand ("timerefresh", GLR_TimeRefresh_f);
#ifdef RTLIGHTS
Cmd_AddRemCommand ("r_editlights_reload", R_ReloadRTLights_f);
Cmd_AddRemCommand ("r_editlights_save", R_SaveRTLights_f);
#endif
// Cmd_AddRemCommand ("makewad", R_MakeTexWad_f);
Cvar_Hook(&crosshair, GLCrosshair_Callback);
Cvar_Hook(&crosshairimage, GLCrosshairimage_Callback);
Cvar_Hook(&crosshaircolor, GLCrosshaircolor_Callback);
Cvar_Hook(&r_menutint, GLR_Menutint_Callback);
// Cvar_Hook(&r_floorcolour, GLR_Floorcolour_Callback);
// Cvar_Hook(&r_fastskycolour, GLR_Fastskycolour_Callback);
// Cvar_Hook(&r_wallcolour, GLR_Wallcolour_Callback);
// Cvar_Hook(&r_floortexture, GLR_Floortexture_Callback);
// Cvar_Hook(&r_walltexture, GLR_Walltexture_Callback);
// Cvar_Hook(&r_drawflat, GLR_Drawflat_Callback);
Cvar_Hook(&v_gamma, GLV_Gamma_Callback);
Cvar_Hook(&v_contrast, GLV_Gamma_Callback);
R_InitBubble();
GLR_ReInit();
}
#ifdef RTLIGHTS
static void R_ImportRTLights(char *entlump)
{
typedef enum lighttype_e {LIGHTTYPE_MINUSX, LIGHTTYPE_RECIPX, LIGHTTYPE_RECIPXX, LIGHTTYPE_NONE, LIGHTTYPE_SUN, LIGHTTYPE_MINUSXX} lighttype_t;
/*I'm using the DP code so I know I'll get the DP results*/
int entnum, style, islight, skin, pflags, effects, n;
lighttype_t type;
float origin[3], angles[3], radius, color[3], light[4], fadescale, lightscale, originhack[3], overridecolor[3], vec[4];
char key[256], value[8192];
for (entnum = 0; ;entnum++)
{
entlump = COM_Parse(entlump);
if (com_token[0] != '{')
break;
type = LIGHTTYPE_MINUSX;
origin[0] = origin[1] = origin[2] = 0;
originhack[0] = originhack[1] = originhack[2] = 0;
angles[0] = angles[1] = angles[2] = 0;
color[0] = color[1] = color[2] = 1;
light[0] = light[1] = light[2] = 1;light[3] = 300;
overridecolor[0] = overridecolor[1] = overridecolor[2] = 1;
fadescale = 1;
lightscale = 1;
style = 0;
skin = 0;
pflags = 0;
effects = 0;
islight = false;
while (1)
{
entlump = COM_Parse(entlump);
if (!entlump)
break; // error
if (com_token[0] == '}')
break; // end of entity
if (com_token[0] == '_')
Q_strncpyz(key, com_token + 1, sizeof(key));
else
Q_strncpyz(key, com_token, sizeof(key));
while (key[strlen(key)-1] == ' ') // remove trailing spaces
key[strlen(key)-1] = 0;
entlump = COM_Parse(entlump);
if (!entlump)
break; // error
Q_strncpyz(value, com_token, sizeof(value));
// now that we have the key pair worked out...
if (!strcmp("light", key))
{
n = sscanf(value, "%f %f %f %f", &vec[0], &vec[1], &vec[2], &vec[3]);
if (n == 1)
{
// quake
light[0] = vec[0] * (1.0f / 256.0f);
light[1] = vec[0] * (1.0f / 256.0f);
light[2] = vec[0] * (1.0f / 256.0f);
light[3] = vec[0];
}
else if (n == 4)
{
// halflife
light[0] = vec[0] * (1.0f / 255.0f);
light[1] = vec[1] * (1.0f / 255.0f);
light[2] = vec[2] * (1.0f / 255.0f);
light[3] = vec[3];
}
}
else if (!strcmp("delay", key))
type = atoi(value);
else if (!strcmp("origin", key))
sscanf(value, "%f %f %f", &origin[0], &origin[1], &origin[2]);
else if (!strcmp("angle", key))
angles[0] = 0, angles[1] = atof(value), angles[2] = 0;
else if (!strcmp("angles", key))
sscanf(value, "%f %f %f", &angles[0], &angles[1], &angles[2]);
else if (!strcmp("color", key))
sscanf(value, "%f %f %f", &color[0], &color[1], &color[2]);
else if (!strcmp("wait", key))
fadescale = atof(value);
else if (!strcmp("classname", key))
{
if (!strncmp(value, "light", 5))
{
islight = true;
if (!strcmp(value, "light_fluoro"))
{
originhack[0] = 0;
originhack[1] = 0;
originhack[2] = 0;
overridecolor[0] = 1;
overridecolor[1] = 1;
overridecolor[2] = 1;
}
if (!strcmp(value, "light_fluorospark"))
{
originhack[0] = 0;
originhack[1] = 0;
originhack[2] = 0;
overridecolor[0] = 1;
overridecolor[1] = 1;
overridecolor[2] = 1;
}
if (!strcmp(value, "light_globe"))
{
originhack[0] = 0;
originhack[1] = 0;
originhack[2] = 0;
overridecolor[0] = 1;
overridecolor[1] = 0.8;
overridecolor[2] = 0.4;
}
if (!strcmp(value, "light_flame_large_yellow"))
{
originhack[0] = 0;
originhack[1] = 0;
originhack[2] = 0;
overridecolor[0] = 1;
overridecolor[1] = 0.5;
overridecolor[2] = 0.1;
}
if (!strcmp(value, "light_flame_small_yellow"))
{
originhack[0] = 0;
originhack[1] = 0;
originhack[2] = 0;
overridecolor[0] = 1;
overridecolor[1] = 0.5;
overridecolor[2] = 0.1;
}
if (!strcmp(value, "light_torch_small_white"))
{
originhack[0] = 0;
originhack[1] = 0;
originhack[2] = 0;
overridecolor[0] = 1;
overridecolor[1] = 0.5;
overridecolor[2] = 0.1;
}
if (!strcmp(value, "light_torch_small_walltorch"))
{
originhack[0] = 0;
originhack[1] = 0;
originhack[2] = 0;
overridecolor[0] = 1;
overridecolor[1] = 0.5;
overridecolor[2] = 0.1;
}
}
}
else if (!strcmp("style", key))
style = atoi(value);
else if (!strcmp("skin", key))
skin = (int)atof(value);
else if (!strcmp("pflags", key))
pflags = (int)atof(value);
else if (!strcmp("effects", key))
effects = (int)atof(value);
else if (!strcmp("scale", key))
lightscale = atof(value);
else if (!strcmp("fade", key))
fadescale = atof(value);
}
if (!islight)
continue;
if (lightscale <= 0)
lightscale = 1;
if (fadescale <= 0)
fadescale = 1;
if (color[0] == color[1] && color[0] == color[2])
{
color[0] *= overridecolor[0];
color[1] *= overridecolor[1];
color[2] *= overridecolor[2];
}
radius = light[3] * 1/*r_editlights_quakelightsizescale*/ * lightscale / fadescale;
color[0] = color[0] * light[0];
color[1] = color[1] * light[1];
color[2] = color[2] * light[2];
switch (type)
{
case LIGHTTYPE_MINUSX:
break;
case LIGHTTYPE_RECIPX:
radius *= 2;
VectorScale(color, (1.0f / 16.0f), color);
break;
case LIGHTTYPE_RECIPXX:
radius *= 2;
VectorScale(color, (1.0f / 16.0f), color);
break;
default:
case LIGHTTYPE_NONE:
break;
case LIGHTTYPE_SUN:
break;
case LIGHTTYPE_MINUSXX:
break;
}
VectorAdd(origin, originhack, origin);
if (radius >= 1)
{
dlight_t *dl = CL_AllocSlight();
if (!dl)
break;
VectorCopy(origin, dl->origin);
AngleVectors(angles, dl->axis[0], dl->axis[1], dl->axis[2]);
dl->radius = radius;
VectorCopy(color, dl->color);
dl->flags = 0;
dl->flags |= LFLAG_REALTIMEMODE;
dl->flags |= (pflags & PFLAGS_CORONA)?LFLAG_ALLOW_FLASH:0;
dl->flags |= (pflags & PFLAGS_NOSHADOW)?LFLAG_NOSHADOWS:0;
dl->flags |= LFLAG_ALLOW_PPL;
dl->style = style+1;
//FIXME: cubemaps if skin >= 16
}
}
}
static void R_LoadRTLights(void)
{
dlight_t *dl;
char fname[MAX_QPATH];
char cubename[MAX_QPATH];
char *file;
char *end;
int style;
vec3_t org;
float radius;
vec3_t rgb;
unsigned int flags;
vec3_t angles;
//delete all old lights, even dynamic ones
rtlights_first = RTL_FIRST;
rtlights_max = RTL_FIRST;
COM_StripExtension(cl.worldmodel->name, fname, sizeof(fname));
strncat(fname, ".rtlights", MAX_QPATH-1);
file = COM_LoadTempFile(fname);
if (file)
while(1)
{
end = strchr(file, '\n');
if (!end)
end = file + strlen(file);
if (end == file)
break;
*end = '\0';
while(*file == ' ' || *file == '\t')
file++;
if (*file == '!')
{
flags = LFLAG_NOSHADOWS;
file++;
}
else
flags = 0;
file = COM_Parse(file);
org[0] = atof(com_token);
file = COM_Parse(file);
org[1] = atof(com_token);
file = COM_Parse(file);
org[2] = atof(com_token);
file = COM_Parse(file);
radius = atof(com_token);
file = COM_Parse(file);
rgb[0] = file?atof(com_token):1;
file = COM_Parse(file);
rgb[1] = file?atof(com_token):1;
file = COM_Parse(file);
rgb[2] = file?atof(com_token):1;
file = COM_Parse(file);
style = file?atof(com_token):0;
file = COM_Parse(file);
//cubemap
Q_strncpyz(cubename, com_token, sizeof(cubename));
file = COM_Parse(file);
//corona
file = COM_Parse(file);
angles[0] = atof(com_token);
file = COM_Parse(file);
angles[1] = atof(com_token);
file = COM_Parse(file);
angles[2] = atof(com_token);
file = COM_Parse(file);
//corrona scale
file = COM_Parse(file);
//ambient
file = COM_Parse(file);
//diffuse
file = COM_Parse(file);
//specular
file = COM_Parse(file);
if (*com_token)
flags |= atoi(com_token);
else
flags |= LFLAG_REALTIMEMODE;
if (radius)
{
dl = CL_AllocSlight();
if (!dl)
break;
VectorCopy(org, dl->origin);
dl->radius = radius;
VectorCopy(rgb, dl->color);
dl->die = 0;
dl->flags = flags|LFLAG_ALLOW_PPL;
/*if (*cubename)
{
dl->fov = 90;
dl->flags |= LFLAG_SHADOWMAP;
}*/
AngleVectors(angles, dl->axis[0], dl->axis[1], dl->axis[2]);
dl->style = style+1;
}
file = end+1;
}
}
static void R_SaveRTLights_f(void)
{
dlight_t *light;
vfsfile_t *f;
unsigned int i;
char fname[MAX_QPATH];
COM_StripExtension(cl.worldmodel->name, fname, sizeof(fname));
strncat(fname, ".rtlights", MAX_QPATH-1);
FS_CreatePath(fname, FS_GAMEONLY);
f = FS_OpenVFS(fname, "wb", FS_GAMEONLY);
if (!f)
{
Con_Printf("couldn't open %s\n", fname);
return;
}
for (light = cl_dlights+rtlights_first, i=rtlights_first; i<rtlights_max; i++, light++)
{
if (light->die)
continue;
if (!light->radius)
continue;
VFS_PUTS(f, va(
"%s%f %f %f "
"%f %f %f %f "
"%i "
"\"%s\" %f "
"%f %f %f "
"%f %f %f %i "
"\n"
,
(light->flags & LFLAG_NOSHADOWS)?"!":"", light->origin[0], light->origin[1], light->origin[2],
light->radius, light->color[0], light->color[1], light->color[2],
light->style-1,
"", 0.0f,
0.0f, 0.0f, 0.0f,
0.0f, 0.0f, 0.0f, light->flags&(LFLAG_NORMALMODE|LFLAG_REALTIMEMODE)
));
}
VFS_CLOSE(f);
Con_Printf("rtlights saved to %s\n", fname);
}
void R_ReloadRTLights_f(void)
{
if (!cl.worldmodel)
{
Con_Printf("Cannot reload lights at this time\n");
return;
}
rtlights_first = RTL_FIRST;
rtlights_max = RTL_FIRST;
if (!strcmp(Cmd_Argv(1), "bsp"))
R_ImportRTLights(cl.worldmodel->entities);
else if (!strcmp(Cmd_Argv(1), "rtlights"))
R_LoadRTLights();
else if (strcmp(Cmd_Argv(1), "none"))
{
R_LoadRTLights();
if (rtlights_first == rtlights_max)
R_ImportRTLights(cl.worldmodel->entities);
}
}
#endif
/*
===============
R_NewMap
===============
*/
void GLR_NewMap (void)
{
char namebuf[MAX_QPATH];
extern cvar_t host_mapname, r_shadow_realtime_dlight, r_shadow_realtime_world;
int i;
for (i=0 ; i<256 ; i++)
d_lightstylevalue[i] = 264; // normal light value
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;
COM_StripExtension(COM_SkipPath(cl.worldmodel->name), namebuf, sizeof(namebuf));
Cvar_Set(&host_mapname, namebuf);
Surf_DeInit();
r_viewleaf = NULL;
r_viewcluster = -1;
r_oldviewcluster = 0;
r_viewcluster2 = -1;
Mod_ParseInfoFromEntityLump(cl.worldmodel, cl.worldmodel->entities, cl.worldmodel->name);
TRACE(("dbg: GLR_NewMap: clear particles\n"));
P_ClearParticles ();
TRACE(("dbg: GLR_NewMap: wiping them stains (getting the cloth out)\n"));
Surf_WipeStains();
CL_RegisterParticles();
TRACE(("dbg: GLR_NewMap: building lightmaps\n"));
Surf_BuildLightmaps ();
TRACE(("dbg: GLR_NewMap: ui\n"));
#ifdef VM_UI
UI_Reset();
#endif
TRACE(("dbg: GLR_NewMap: tp\n"));
TP_NewMap();
R_SetSky(cl.skyname);
#ifdef MAP_PROC
if (cl.worldmodel->fromgame == fg_doom3)
D3_GenerateAreas(cl.worldmodel);
#endif
#ifdef RTLIGHTS
if (r_shadow_realtime_dlight.ival || r_shadow_realtime_world.ival)
{
R_LoadRTLights();
if (rtlights_first == rtlights_max)
R_ImportRTLights(cl.worldmodel->entities);
}
#endif
}
void GLR_PreNewMap(void)
{
}
/*
====================
R_TimeRefresh_f
For program optimization
====================
*/
void GLR_TimeRefresh_f (void)
{
int i;
float start, stop, time;
qboolean finish;
int frames = 128;
finish = atoi(Cmd_Argv(1));
frames = atoi(Cmd_Argv(2));
if (frames < 1)
frames = 128;
#if defined(_WIN32) && !defined(_SDL)
if (finish == 2)
{
extern HDC maindc;
qglFinish ();
start = Sys_DoubleTime ();
for (i=0 ; i<frames ; i++)
{
r_refdef.viewangles[1] = i/(float)frames*360.0;
R_RenderView ();
qSwapBuffers(maindc);
}
}
else
#endif
{
qglDrawBuffer (GL_FRONT);
qglFinish ();
start = Sys_DoubleTime ();
for (i=0 ; i<frames ; i++)
{
r_refdef.viewangles[1] = i/(float)frames*360.0;
R_RenderView ();
if (finish)
qglFinish ();
}
}
qglFinish ();
stop = Sys_DoubleTime ();
time = stop-start;
Con_Printf ("%f seconds (%f fps)\n", time, frames/time);
qglDrawBuffer (GL_BACK);
GL_EndRendering ();
GL_DoSwap();
}
#endif