2 Copyright (C) 1996-1997 Id Software, Inc.
4 This program is free software; you can redistribute it and/or
5 modify it under the terms of the GNU General Public License
6 as published by the Free Software Foundation; either version 2
7 of the License, or (at your option) any later version.
9 This program is distributed in the hope that it will be useful,
10 but WITHOUT ANY WARRANTY; without even the implied warranty of
11 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
13 See the GNU General Public License for more details.
15 You should have received a copy of the GNU General Public License
16 along with this program; if not, write to the Free Software
17 Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
26 mempool_t *r_main_mempool;
27 rtexturepool_t *r_main_texturepool;
34 r_viewcache_t r_viewcache;
36 cvar_t r_nearclip = {0, "r_nearclip", "1", "distance from camera of nearclip plane" };
37 cvar_t r_showsurfaces = {0, "r_showsurfaces", "0", "1 shows surfaces as different colors, or a value of 2 shows triangle draw order (for analyzing whether meshes are optimized for vertex cache)"};
38 cvar_t r_showtris = {0, "r_showtris", "0", "shows triangle outlines, value controls brightness (can be above 1)"};
39 cvar_t r_shownormals = {0, "r_shownormals", "0", "shows per-vertex surface normals and tangent vectors for bumpmapped lighting"};
40 cvar_t r_showlighting = {0, "r_showlighting", "0", "shows areas lit by lights, useful for finding out why some areas of a map render slowly (bright orange = lots of passes = slow), a value of 2 disables depth testing which can be interesting but not very useful"};
41 cvar_t r_showshadowvolumes = {0, "r_showshadowvolumes", "0", "shows areas shadowed by lights, useful for finding out why some areas of a map render slowly (bright blue = lots of passes = slow), a value of 2 disables depth testing which can be interesting but not very useful"};
42 cvar_t r_showcollisionbrushes = {0, "r_showcollisionbrushes", "0", "draws collision brushes in quake3 maps (mode 1), mode 2 disables rendering of world (trippy!)"};
43 cvar_t r_showcollisionbrushes_polygonfactor = {0, "r_showcollisionbrushes_polygonfactor", "-1", "expands outward the brush polygons a little bit, used to make collision brushes appear infront of walls"};
44 cvar_t r_showcollisionbrushes_polygonoffset = {0, "r_showcollisionbrushes_polygonoffset", "0", "nudges brush polygon depth in hardware depth units, used to make collision brushes appear infront of walls"};
45 cvar_t r_showdisabledepthtest = {0, "r_showdisabledepthtest", "0", "disables depth testing on r_show* cvars, allowing you to see what hidden geometry the graphics card is processing"};
46 cvar_t r_drawportals = {0, "r_drawportals", "0", "shows portals (separating polygons) in world interior in quake1 maps"};
47 cvar_t r_drawentities = {0, "r_drawentities","1", "draw entities (doors, players, projectiles, etc)"};
48 cvar_t r_drawviewmodel = {0, "r_drawviewmodel","1", "draw your weapon model"};
49 cvar_t r_cullentities_trace = {0, "r_cullentities_trace", "1", "probabistically cull invisible entities"};
50 cvar_t r_cullentities_trace_samples = {0, "r_cullentities_trace_samples", "2", "number of samples to test for entity culling"};
51 cvar_t r_cullentities_trace_enlarge = {0, "r_cullentities_trace_enlarge", "0", "box enlargement for entity culling"};
52 cvar_t r_cullentities_trace_delay = {0, "r_cullentities_trace_delay", "1", "number of seconds until the entity gets actually culled"};
53 cvar_t r_speeds = {0, "r_speeds","0", "displays rendering statistics and per-subsystem timings"};
54 cvar_t r_fullbright = {0, "r_fullbright","0", "make everything bright cheat (not allowed in multiplayer)"};
55 cvar_t r_wateralpha = {CVAR_SAVE, "r_wateralpha","1", "opacity of water polygons"};
56 cvar_t r_dynamic = {CVAR_SAVE, "r_dynamic","1", "enables dynamic lights (rocket glow and such)"};
57 cvar_t r_fullbrights = {CVAR_SAVE, "r_fullbrights", "1", "enables glowing pixels in quake textures (changes need r_restart to take effect)"};
58 cvar_t r_shadows = {CVAR_SAVE, "r_shadows", "0", "casts fake stencil shadows from models onto the world (rtlights are unaffected by this)"};
59 cvar_t r_shadows_throwdistance = {CVAR_SAVE, "r_shadows_throwdistance", "500", "how far to cast shadows from models"};
60 cvar_t r_q1bsp_skymasking = {0, "r_qb1sp_skymasking", "1", "allows sky polygons in quake1 maps to obscure other geometry"};
62 cvar_t gl_fogenable = {0, "gl_fogenable", "0", "nehahra fog enable (for Nehahra compatibility only)"};
63 cvar_t gl_fogdensity = {0, "gl_fogdensity", "0.25", "nehahra fog density (recommend values below 0.1) (for Nehahra compatibility only)"};
64 cvar_t gl_fogred = {0, "gl_fogred","0.3", "nehahra fog color red value (for Nehahra compatibility only)"};
65 cvar_t gl_foggreen = {0, "gl_foggreen","0.3", "nehahra fog color green value (for Nehahra compatibility only)"};
66 cvar_t gl_fogblue = {0, "gl_fogblue","0.3", "nehahra fog color blue value (for Nehahra compatibility only)"};
67 cvar_t gl_fogstart = {0, "gl_fogstart", "0", "nehahra fog start distance (for Nehahra compatibility only)"};
68 cvar_t gl_fogend = {0, "gl_fogend","0", "nehahra fog end distance (for Nehahra compatibility only)"};
70 cvar_t r_textureunits = {0, "r_textureunits", "32", "number of hardware texture units reported by driver (note: setting this to 1 turns off gl_combine)"};
72 cvar_t r_glsl = {CVAR_SAVE, "r_glsl", "1", "enables use of OpenGL 2.0 pixel shaders for lighting"};
73 cvar_t r_glsl_offsetmapping = {CVAR_SAVE, "r_glsl_offsetmapping", "0", "offset mapping effect (also known as parallax mapping or virtual displacement mapping)"};
74 cvar_t r_glsl_offsetmapping_reliefmapping = {CVAR_SAVE, "r_glsl_offsetmapping_reliefmapping", "0", "relief mapping effect (higher quality)"};
75 cvar_t r_glsl_offsetmapping_scale = {CVAR_SAVE, "r_glsl_offsetmapping_scale", "0.04", "how deep the offset mapping effect is"};
76 cvar_t r_glsl_deluxemapping = {CVAR_SAVE, "r_glsl_deluxemapping", "1", "use per pixel lighting on deluxemap-compiled q3bsp maps (or a value of 2 forces deluxemap shading even without deluxemaps)"};
78 cvar_t r_lerpsprites = {CVAR_SAVE, "r_lerpsprites", "1", "enables animation smoothing on sprites (requires r_lerpmodels 1)"};
79 cvar_t r_lerpmodels = {CVAR_SAVE, "r_lerpmodels", "1", "enables animation smoothing on models"};
80 cvar_t r_waterscroll = {CVAR_SAVE, "r_waterscroll", "1", "makes water scroll around, value controls how much"};
82 cvar_t r_bloom = {CVAR_SAVE, "r_bloom", "0", "enables bloom effect (makes bright pixels affect neighboring pixels)"};
83 cvar_t r_bloom_colorscale = {CVAR_SAVE, "r_bloom_colorscale", "1", "how bright the glow is"};
84 cvar_t r_bloom_brighten = {CVAR_SAVE, "r_bloom_brighten", "2", "how bright the glow is, after subtract/power"};
85 cvar_t r_bloom_blur = {CVAR_SAVE, "r_bloom_blur", "4", "how large the glow is"};
86 cvar_t r_bloom_resolution = {CVAR_SAVE, "r_bloom_resolution", "320", "what resolution to perform the bloom effect at (independent of screen resolution)"};
87 cvar_t r_bloom_colorexponent = {CVAR_SAVE, "r_bloom_colorexponent", "1", "how exagerated the glow is"};
88 cvar_t r_bloom_colorsubtract = {CVAR_SAVE, "r_bloom_colorsubtract", "0.125", "reduces bloom colors by a certain amount"};
90 cvar_t r_hdr = {CVAR_SAVE, "r_hdr", "0", "enables High Dynamic Range bloom effect (higher quality version of r_bloom)"};
91 cvar_t r_hdr_scenebrightness = {CVAR_SAVE, "r_hdr_scenebrightness", "1", "global rendering brightness"};
92 cvar_t r_hdr_glowintensity = {CVAR_SAVE, "r_hdr_glowintensity", "1", "how bright light emitting textures should appear"};
93 cvar_t r_hdr_range = {CVAR_SAVE, "r_hdr_range", "4", "how much dynamic range to render bloom with (equivilant to multiplying r_bloom_brighten by this value and dividing r_bloom_colorscale by this value)"};
95 cvar_t r_smoothnormals_areaweighting = {0, "r_smoothnormals_areaweighting", "1", "uses significantly faster (and supposedly higher quality) area-weighted vertex normals and tangent vectors rather than summing normalized triangle normals and tangents"};
97 cvar_t developer_texturelogging = {0, "developer_texturelogging", "0", "produces a textures.log file containing names of skins and map textures the engine tried to load"};
99 cvar_t gl_lightmaps = {0, "gl_lightmaps", "0", "draws only lightmaps, no texture (for level designers)"};
101 cvar_t r_test = {0, "r_test", "0", "internal development use only, leave it alone (usually does nothing anyway)"};
102 cvar_t r_batchmode = {0, "r_batchmode", "1", "selects method of rendering multiple surfaces with one driver call (values are 0, 1, 2, etc...)"};
104 typedef struct r_glsl_bloomshader_s
107 int loc_Texture_Bloom;
109 r_glsl_bloomshader_t;
111 static struct r_bloomstate_s
116 int bloomwidth, bloomheight;
118 int screentexturewidth, screentextureheight;
119 rtexture_t *texture_screen;
121 int bloomtexturewidth, bloomtextureheight;
122 rtexture_t *texture_bloom;
124 r_glsl_bloomshader_t *shader;
126 // arrays for rendering the screen passes
127 float screentexcoord2f[8];
128 float bloomtexcoord2f[8];
129 float offsettexcoord2f[8];
133 // shadow volume bsp struct with automatically growing nodes buffer
136 rtexture_t *r_texture_blanknormalmap;
137 rtexture_t *r_texture_white;
138 rtexture_t *r_texture_black;
139 rtexture_t *r_texture_notexture;
140 rtexture_t *r_texture_whitecube;
141 rtexture_t *r_texture_normalizationcube;
142 rtexture_t *r_texture_fogattenuation;
143 //rtexture_t *r_texture_fogintensity;
145 // information about each possible shader permutation
146 r_glsl_permutation_t r_glsl_permutations[SHADERPERMUTATION_MAX];
147 // currently selected permutation
148 r_glsl_permutation_t *r_glsl_permutation;
150 // temporary variable used by a macro
153 // vertex coordinates for a quad that covers the screen exactly
154 const static float r_screenvertex3f[12] =
162 extern void R_DrawModelShadows(void);
164 void R_ModulateColors(float *in, float *out, int verts, float r, float g, float b)
167 for (i = 0;i < verts;i++)
178 void R_FillColors(float *out, int verts, float r, float g, float b, float a)
181 for (i = 0;i < verts;i++)
191 // FIXME: move this to client?
194 if (gamemode == GAME_NEHAHRA)
196 Cvar_Set("gl_fogenable", "0");
197 Cvar_Set("gl_fogdensity", "0.2");
198 Cvar_Set("gl_fogred", "0.3");
199 Cvar_Set("gl_foggreen", "0.3");
200 Cvar_Set("gl_fogblue", "0.3");
202 r_refdef.fog_density = r_refdef.fog_red = r_refdef.fog_green = r_refdef.fog_blue = 0.0f;
205 // FIXME: move this to client?
206 void FOG_registercvars(void)
211 if (gamemode == GAME_NEHAHRA)
213 Cvar_RegisterVariable (&gl_fogenable);
214 Cvar_RegisterVariable (&gl_fogdensity);
215 Cvar_RegisterVariable (&gl_fogred);
216 Cvar_RegisterVariable (&gl_foggreen);
217 Cvar_RegisterVariable (&gl_fogblue);
218 Cvar_RegisterVariable (&gl_fogstart);
219 Cvar_RegisterVariable (&gl_fogend);
222 r = (-1.0/256.0) * (FOGTABLEWIDTH * FOGTABLEWIDTH);
223 for (x = 0;x < FOGTABLEWIDTH;x++)
225 alpha = exp(r / ((double)x*(double)x));
226 if (x == FOGTABLEWIDTH - 1)
228 r_refdef.fogtable[x] = bound(0, alpha, 1);
232 static void R_BuildBlankTextures(void)
234 unsigned char data[4];
235 data[0] = 128; // normal X
236 data[1] = 128; // normal Y
237 data[2] = 255; // normal Z
238 data[3] = 128; // height
239 r_texture_blanknormalmap = R_LoadTexture2D(r_main_texturepool, "blankbump", 1, 1, data, TEXTYPE_RGBA, TEXF_PRECACHE, NULL);
244 r_texture_white = R_LoadTexture2D(r_main_texturepool, "blankwhite", 1, 1, data, TEXTYPE_RGBA, TEXF_PRECACHE, NULL);
249 r_texture_black = R_LoadTexture2D(r_main_texturepool, "blankblack", 1, 1, data, TEXTYPE_RGBA, TEXF_PRECACHE, NULL);
252 static void R_BuildNoTexture(void)
255 unsigned char pix[16][16][4];
256 // this makes a light grey/dark grey checkerboard texture
257 for (y = 0;y < 16;y++)
259 for (x = 0;x < 16;x++)
261 if ((y < 8) ^ (x < 8))
277 r_texture_notexture = R_LoadTexture2D(r_main_texturepool, "notexture", 16, 16, &pix[0][0][0], TEXTYPE_RGBA, TEXF_MIPMAP, NULL);
280 static void R_BuildWhiteCube(void)
282 unsigned char data[6*1*1*4];
283 data[ 0] = 255;data[ 1] = 255;data[ 2] = 255;data[ 3] = 255;
284 data[ 4] = 255;data[ 5] = 255;data[ 6] = 255;data[ 7] = 255;
285 data[ 8] = 255;data[ 9] = 255;data[10] = 255;data[11] = 255;
286 data[12] = 255;data[13] = 255;data[14] = 255;data[15] = 255;
287 data[16] = 255;data[17] = 255;data[18] = 255;data[19] = 255;
288 data[20] = 255;data[21] = 255;data[22] = 255;data[23] = 255;
289 r_texture_whitecube = R_LoadTextureCubeMap(r_main_texturepool, "whitecube", 1, data, TEXTYPE_RGBA, TEXF_PRECACHE | TEXF_CLAMP, NULL);
292 static void R_BuildNormalizationCube(void)
296 vec_t s, t, intensity;
298 unsigned char data[6][NORMSIZE][NORMSIZE][4];
299 for (side = 0;side < 6;side++)
301 for (y = 0;y < NORMSIZE;y++)
303 for (x = 0;x < NORMSIZE;x++)
305 s = (x + 0.5f) * (2.0f / NORMSIZE) - 1.0f;
306 t = (y + 0.5f) * (2.0f / NORMSIZE) - 1.0f;
341 intensity = 127.0f / sqrt(DotProduct(v, v));
342 data[side][y][x][0] = (unsigned char)(128.0f + intensity * v[0]);
343 data[side][y][x][1] = (unsigned char)(128.0f + intensity * v[1]);
344 data[side][y][x][2] = (unsigned char)(128.0f + intensity * v[2]);
345 data[side][y][x][3] = 255;
349 r_texture_normalizationcube = R_LoadTextureCubeMap(r_main_texturepool, "normalcube", NORMSIZE, &data[0][0][0][0], TEXTYPE_RGBA, TEXF_PRECACHE | TEXF_CLAMP, NULL);
352 static void R_BuildFogTexture(void)
357 unsigned char data1[FOGWIDTH][4];
358 //unsigned char data2[FOGWIDTH][4];
359 r = (-1.0/256.0) * (FOGWIDTH * FOGWIDTH);
360 for (x = 0;x < FOGWIDTH;x++)
362 alpha = exp(r / ((double)x*(double)x));
363 if (x == FOGWIDTH - 1)
365 b = (int)(256.0 * alpha);
366 b = bound(0, b, 255);
367 data1[x][0] = 255 - b;
368 data1[x][1] = 255 - b;
369 data1[x][2] = 255 - b;
376 r_texture_fogattenuation = R_LoadTexture2D(r_main_texturepool, "fogattenuation", FOGWIDTH, 1, &data1[0][0], TEXTYPE_RGBA, TEXF_PRECACHE | TEXF_FORCELINEAR | TEXF_CLAMP, NULL);
377 //r_texture_fogintensity = R_LoadTexture2D(r_main_texturepool, "fogintensity", FOGWIDTH, 1, &data2[0][0], TEXTYPE_RGBA, TEXF_PRECACHE | TEXF_FORCELINEAR | TEXF_CLAMP, NULL);
380 static const char *builtinshaderstring =
381 "// ambient+diffuse+specular+normalmap+attenuation+cubemap+fog shader\n"
382 "// written by Forest 'LordHavoc' Hale\n"
384 "// common definitions between vertex shader and fragment shader:\n"
386 "#ifdef __GLSL_CG_DATA_TYPES\n"
387 "#define myhalf half\n"
388 "#define myhvec2 hvec2\n"
389 "#define myhvec3 hvec3\n"
390 "#define myhvec4 hvec4\n"
392 "#define myhalf float\n"
393 "#define myhvec2 vec2\n"
394 "#define myhvec3 vec3\n"
395 "#define myhvec4 vec4\n"
398 "varying vec2 TexCoord;\n"
399 "varying vec2 TexCoordLightmap;\n"
401 "varying vec3 CubeVector;\n"
402 "varying vec3 LightVector;\n"
403 "varying vec3 EyeVector;\n"
405 "varying vec3 EyeVectorModelSpace;\n"
408 "varying vec3 VectorS; // direction of S texcoord (sometimes crudely called tangent)\n"
409 "varying vec3 VectorT; // direction of T texcoord (sometimes crudely called binormal)\n"
410 "varying vec3 VectorR; // direction of R texcoord (surface normal)\n"
415 "// vertex shader specific:\n"
416 "#ifdef VERTEX_SHADER\n"
418 "uniform vec3 LightPosition;\n"
419 "uniform vec3 EyePosition;\n"
420 "uniform vec3 LightDir;\n"
422 "// TODO: get rid of tangentt (texcoord2) and use a crossproduct to regenerate it from tangents (texcoord1) and normal (texcoord3)\n"
426 " gl_FrontColor = gl_Color;\n"
427 " // copy the surface texcoord\n"
428 " TexCoord = vec2(gl_TextureMatrix[0] * gl_MultiTexCoord0);\n"
429 "#if !defined(MODE_LIGHTSOURCE) && !defined(MODE_LIGHTDIRECTION)\n"
430 " TexCoordLightmap = vec2(gl_MultiTexCoord4);\n"
433 "#ifdef MODE_LIGHTSOURCE\n"
434 " // transform vertex position into light attenuation/cubemap space\n"
435 " // (-1 to +1 across the light box)\n"
436 " CubeVector = vec3(gl_TextureMatrix[3] * gl_Vertex);\n"
438 " // transform unnormalized light direction into tangent space\n"
439 " // (we use unnormalized to ensure that it interpolates correctly and then\n"
440 " // normalize it per pixel)\n"
441 " vec3 lightminusvertex = LightPosition - gl_Vertex.xyz;\n"
442 " LightVector.x = dot(lightminusvertex, gl_MultiTexCoord1.xyz);\n"
443 " LightVector.y = dot(lightminusvertex, gl_MultiTexCoord2.xyz);\n"
444 " LightVector.z = dot(lightminusvertex, gl_MultiTexCoord3.xyz);\n"
447 "#ifdef MODE_LIGHTDIRECTION\n"
448 " LightVector.x = dot(LightDir, gl_MultiTexCoord1.xyz);\n"
449 " LightVector.y = dot(LightDir, gl_MultiTexCoord2.xyz);\n"
450 " LightVector.z = dot(LightDir, gl_MultiTexCoord3.xyz);\n"
453 " // transform unnormalized eye direction into tangent space\n"
455 " vec3 EyeVectorModelSpace;\n"
457 " EyeVectorModelSpace = EyePosition - gl_Vertex.xyz;\n"
458 " EyeVector.x = dot(EyeVectorModelSpace, gl_MultiTexCoord1.xyz);\n"
459 " EyeVector.y = dot(EyeVectorModelSpace, gl_MultiTexCoord2.xyz);\n"
460 " EyeVector.z = dot(EyeVectorModelSpace, gl_MultiTexCoord3.xyz);\n"
462 "#ifdef MODE_LIGHTDIRECTIONMAP_MODELSPACE\n"
463 " VectorS = gl_MultiTexCoord1.xyz;\n"
464 " VectorT = gl_MultiTexCoord2.xyz;\n"
465 " VectorR = gl_MultiTexCoord3.xyz;\n"
468 " // transform vertex to camera space, using ftransform to match non-VS\n"
470 " gl_Position = ftransform();\n"
473 "#endif // VERTEX_SHADER\n"
478 "// fragment shader specific:\n"
479 "#ifdef FRAGMENT_SHADER\n"
481 "// 11 textures, we can only use up to 16 on DX9-class hardware\n"
482 "uniform sampler2D Texture_Normal;\n"
483 "uniform sampler2D Texture_Color;\n"
484 "uniform sampler2D Texture_Gloss;\n"
485 "uniform samplerCube Texture_Cube;\n"
486 "uniform sampler2D Texture_Attenuation;\n"
487 "uniform sampler2D Texture_FogMask;\n"
488 "uniform sampler2D Texture_Pants;\n"
489 "uniform sampler2D Texture_Shirt;\n"
490 "uniform sampler2D Texture_Lightmap;\n"
491 "uniform sampler2D Texture_Deluxemap;\n"
492 "uniform sampler2D Texture_Glow;\n"
494 "uniform myhvec3 LightColor;\n"
495 "uniform myhvec3 AmbientColor;\n"
496 "uniform myhvec3 DiffuseColor;\n"
497 "uniform myhvec3 SpecularColor;\n"
498 "uniform myhvec3 Color_Pants;\n"
499 "uniform myhvec3 Color_Shirt;\n"
500 "uniform myhvec3 FogColor;\n"
502 "uniform myhalf GlowScale;\n"
503 "uniform myhalf SceneBrightness;\n"
505 "uniform float OffsetMapping_Scale;\n"
506 "uniform float OffsetMapping_Bias;\n"
507 "uniform float FogRangeRecip;\n"
509 "uniform myhalf AmbientScale;\n"
510 "uniform myhalf DiffuseScale;\n"
511 "uniform myhalf SpecularScale;\n"
512 "uniform myhalf SpecularPower;\n"
514 "vec2 OffsetMapping(vec2 TexCoord)\n"
516 " vec3 eyedir = vec3(normalize(EyeVector));\n"
517 " float depthbias = 1.0 - eyedir.z; // should this be a -?\n"
518 " depthbias = 1.0 - depthbias * depthbias;\n"
520 "#ifdef USEOFFSETMAPPING_RELIEFMAPPING\n"
521 " // 14 sample relief mapping: linear search and then binary search\n"
522 " //vec3 OffsetVector = vec3(EyeVector.xy * (1.0 / EyeVector.z) * depthbias * OffsetMapping_Scale * vec2(-0.1, 0.1), -0.1);\n"
523 " //vec3 OffsetVector = vec3(normalize(EyeVector.xy) * OffsetMapping_Scale * vec2(-0.1, 0.1), -0.1);\n"
524 " vec3 OffsetVector = vec3(eyedir.xy * OffsetMapping_Scale * vec2(-0.1, 0.1), -0.1);\n"
525 " vec3 RT = vec3(TexCoord - OffsetVector.xy * 10.0, 1.0) + OffsetVector;\n"
526 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;\n"
527 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;\n"
528 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;\n"
529 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;\n"
530 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;\n"
531 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;\n"
532 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;\n"
533 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;\n"
534 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;OffsetVector *= 0.5;RT -= OffsetVector;\n"
535 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;OffsetVector *= 0.5;RT -= OffsetVector;\n"
536 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;OffsetVector *= 0.5;RT -= OffsetVector;\n"
537 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;OffsetVector *= 0.5;RT -= OffsetVector;\n"
538 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;OffsetVector *= 0.5;RT -= OffsetVector;\n"
539 " if (RT.z > texture2D(Texture_Normal, RT.xy).a) RT += OffsetVector;OffsetVector *= 0.5;RT -= OffsetVector;\n"
540 " TexCoord = RT.xy;\n"
542 " // 3 sample offset mapping (only 3 samples because of ATI Radeon 9500-9800/X300 limits)\n"
543 " //vec2 OffsetVector = vec2(EyeVector.xy * (1.0 / EyeVector.z) * depthbias) * OffsetMapping_Scale * vec2(-0.333, 0.333);\n"
544 " //vec2 OffsetVector = vec2(normalize(EyeVector.xy)) * OffsetMapping_Scale * vec2(-0.333, 0.333);\n"
545 " vec2 OffsetVector = vec2(eyedir.xy) * OffsetMapping_Scale * vec2(-0.333, 0.333);\n"
546 " //TexCoord += OffsetVector * 3.0;\n"
547 " TexCoord -= OffsetVector * texture2D(Texture_Normal, TexCoord).a;\n"
548 " TexCoord -= OffsetVector * texture2D(Texture_Normal, TexCoord).a;\n"
549 " TexCoord -= OffsetVector * texture2D(Texture_Normal, TexCoord).a;\n"
551 " return TexCoord;\n"
556 " // apply offsetmapping\n"
557 "#ifdef USEOFFSETMAPPING\n"
558 " vec2 TexCoordOffset = OffsetMapping(TexCoord);\n"
559 "#define TexCoord TexCoordOffset\n"
562 " // combine the diffuse textures (base, pants, shirt)\n"
563 " myhvec4 color = myhvec4(texture2D(Texture_Color, TexCoord));\n"
564 "#ifdef USECOLORMAPPING\n"
565 " color.rgb += myhvec3(texture2D(Texture_Pants, TexCoord)) * Color_Pants + myhvec3(texture2D(Texture_Shirt, TexCoord)) * Color_Shirt;\n"
571 "#ifdef MODE_LIGHTSOURCE\n"
574 " // calculate surface normal, light normal, and specular normal\n"
575 " // compute color intensity for the two textures (colormap and glossmap)\n"
576 " // scale by light color and attenuation as efficiently as possible\n"
577 " // (do as much scalar math as possible rather than vector math)\n"
578 "#ifdef USESPECULAR\n"
579 " myhvec3 surfacenormal = normalize(myhvec3(texture2D(Texture_Normal, TexCoord)) - myhvec3(0.5));\n"
580 " myhvec3 diffusenormal = myhvec3(normalize(LightVector));\n"
581 " myhvec3 specularnormal = normalize(diffusenormal + myhvec3(normalize(EyeVector)));\n"
583 " // calculate directional shading\n"
584 " color.rgb = LightColor * myhalf(texture2D(Texture_Attenuation, length(CubeVector))) * (color.rgb * (AmbientScale + DiffuseScale * myhalf(max(float(dot(surfacenormal, diffusenormal)), 0.0))) + (SpecularScale * pow(myhalf(max(float(dot(surfacenormal, specularnormal)), 0.0)), SpecularPower)) * myhvec3(texture2D(Texture_Gloss, TexCoord)));\n"
586 "#ifdef USEDIFFUSE\n"
587 " myhvec3 surfacenormal = normalize(myhvec3(texture2D(Texture_Normal, TexCoord)) - myhvec3(0.5));\n"
588 " myhvec3 diffusenormal = myhvec3(normalize(LightVector));\n"
590 " // calculate directional shading\n"
591 " color.rgb = LightColor * myhalf(texture2D(Texture_Attenuation, length(CubeVector))) * color.rgb * (AmbientScale + DiffuseScale * myhalf(max(float(dot(surfacenormal, diffusenormal)), 0.0)));\n"
593 " // calculate directionless shading\n"
594 " color.rgb = color.rgb * LightColor * myhalf(texture2D(Texture_Attenuation, length(CubeVector)));\n"
598 "#ifdef USECUBEFILTER\n"
599 " // apply light cubemap filter\n"
600 " //color.rgb *= normalize(CubeVector) * 0.5 + 0.5;//vec3(textureCube(Texture_Cube, CubeVector));\n"
601 " color.rgb *= myhvec3(textureCube(Texture_Cube, CubeVector));\n"
607 "#elif defined(MODE_LIGHTDIRECTION)\n"
608 " // directional model lighting\n"
610 " // get the surface normal and light normal\n"
611 " myhvec3 surfacenormal = normalize(myhvec3(texture2D(Texture_Normal, TexCoord)) - myhvec3(0.5));\n"
612 " myhvec3 diffusenormal = myhvec3(normalize(LightVector));\n"
614 " // calculate directional shading\n"
615 " color.rgb *= AmbientColor + DiffuseColor * myhalf(max(float(dot(surfacenormal, diffusenormal)), 0.0));\n"
616 "#ifdef USESPECULAR\n"
617 " myhvec3 specularnormal = normalize(diffusenormal + myhvec3(normalize(EyeVector)));\n"
618 " color.rgb += myhvec3(texture2D(Texture_Gloss, TexCoord)) * SpecularColor * pow(myhalf(max(float(dot(surfacenormal, specularnormal)), 0.0)), SpecularPower);\n"
624 "#elif defined(MODE_LIGHTDIRECTIONMAP_MODELSPACE) || defined(MODE_LIGHTDIRECTIONMAP_TANGENTSPACE)\n"
625 " // deluxemap lightmapping using light vectors in modelspace (evil q3map2)\n"
627 " // get the surface normal and light normal\n"
628 " myhvec3 surfacenormal = normalize(myhvec3(texture2D(Texture_Normal, TexCoord)) - myhvec3(0.5));\n"
630 "#ifdef MODE_LIGHTDIRECTIONMAP_MODELSPACE\n"
631 " myhvec3 diffusenormal_modelspace = myhvec3(texture2D(Texture_Deluxemap, TexCoordLightmap)) - myhvec3(0.5);\n"
632 " myhvec3 diffusenormal = normalize(myhvec3(dot(diffusenormal_modelspace, myhvec3(VectorS)), dot(diffusenormal_modelspace, myhvec3(VectorT)), dot(diffusenormal_modelspace, myhvec3(VectorR))));\n"
634 " myhvec3 diffusenormal = normalize(myhvec3(texture2D(Texture_Deluxemap, TexCoordLightmap)) - myhvec3(0.5));\n"
636 " // calculate directional shading\n"
637 " myhvec3 tempcolor = color.rgb * (DiffuseScale * myhalf(max(float(dot(surfacenormal, diffusenormal)), 0.0)));\n"
638 "#ifdef USESPECULAR\n"
639 " myhvec3 specularnormal = myhvec3(normalize(diffusenormal + myhvec3(normalize(EyeVector))));\n"
640 " tempcolor += myhvec3(texture2D(Texture_Gloss, TexCoord)) * SpecularScale * pow(myhalf(max(float(dot(surfacenormal, specularnormal)), 0.0)), SpecularPower);\n"
643 " // apply lightmap color\n"
644 " color.rgb = tempcolor * myhvec3(texture2D(Texture_Lightmap, TexCoordLightmap)) + color.rgb * AmbientScale;\n"
647 "#else // MODE none (lightmap)\n"
648 " // apply lightmap color\n"
649 " color.rgb *= myhvec3(texture2D(Texture_Lightmap, TexCoordLightmap)) * DiffuseScale + myhvec3(AmbientScale);\n"
652 " color *= myhvec4(gl_Color);\n"
655 " color.rgb += myhvec3(texture2D(Texture_Glow, TexCoord)) * GlowScale;\n"
660 " myhalf fog = myhalf(texture2D(Texture_FogMask, myhvec2(length(EyeVectorModelSpace)*FogRangeRecip, 0.0)).x);\n"
661 " color.rgb = color.rgb * fog + FogColor * (1.0 - fog);\n"
664 " color.rgb *= SceneBrightness;\n"
666 " gl_FragColor = vec4(color);\n"
669 "#endif // FRAGMENT_SHADER\n"
672 // NOTE: MUST MATCH ORDER OF SHADERPERMUTATION_* DEFINES!
673 const char *permutationinfo[][2] =
675 {"#define MODE_LIGHTSOURCE\n", " lightsource"},
676 {"#define MODE_LIGHTDIRECTIONMAP_MODELSPACE\n", " lightdirectionmap_modelspace"},
677 {"#define MODE_LIGHTDIRECTIONMAP_TANGENTSPACE\n", " lightdirectionmap_tangentspace"},
678 {"#define MODE_LIGHTDIRECTION\n", " lightdirection"},
679 {"#define USEGLOW\n", " glow"},
680 {"#define USEFOG\n", " fog"},
681 {"#define USECOLORMAPPING\n", " colormapping"},
682 {"#define USEDIFFUSE\n", " diffuse"},
683 {"#define USESPECULAR\n", " specular"},
684 {"#define USECUBEFILTER\n", " cubefilter"},
685 {"#define USEOFFSETMAPPING\n", " offsetmapping"},
686 {"#define USEOFFSETMAPPING_RELIEFMAPPING\n", " reliefmapping"},
690 void R_GLSL_CompilePermutation(const char *filename, int permutation)
693 qboolean shaderfound;
694 r_glsl_permutation_t *p = r_glsl_permutations + (permutation & SHADERPERMUTATION_MASK);
695 int vertstrings_count;
696 int geomstrings_count;
697 int fragstrings_count;
699 const char *vertstrings_list[32+1];
700 const char *geomstrings_list[32+1];
701 const char *fragstrings_list[32+1];
702 char permutationname[256];
707 vertstrings_list[0] = "#define VERTEX_SHADER\n";
708 geomstrings_list[0] = "#define GEOMETRY_SHADER\n";
709 fragstrings_list[0] = "#define FRAGMENT_SHADER\n";
710 vertstrings_count = 1;
711 geomstrings_count = 1;
712 fragstrings_count = 1;
713 permutationname[0] = 0;
714 for (i = 0;permutationinfo[i][0];i++)
716 if (permutation & (1<<i))
718 vertstrings_list[vertstrings_count++] = permutationinfo[i][0];
719 geomstrings_list[geomstrings_count++] = permutationinfo[i][0];
720 fragstrings_list[fragstrings_count++] = permutationinfo[i][0];
721 strlcat(permutationname, permutationinfo[i][1], sizeof(permutationname));
725 // keep line numbers correct
726 vertstrings_list[vertstrings_count++] = "\n";
727 geomstrings_list[geomstrings_count++] = "\n";
728 fragstrings_list[fragstrings_count++] = "\n";
731 shaderstring = (char *)FS_LoadFile(filename, r_main_mempool, false, NULL);
735 Con_DPrintf("GLSL shader text for \"%s\" loaded from disk\n", filename);
736 vertstrings_list[vertstrings_count++] = shaderstring;
737 geomstrings_list[geomstrings_count++] = shaderstring;
738 fragstrings_list[fragstrings_count++] = shaderstring;
741 else if (!strcmp(filename, "glsl/default.glsl"))
743 Con_DPrintf("GLSL shader text for \"%s\" loaded from engine\n", filename);
744 vertstrings_list[vertstrings_count++] = builtinshaderstring;
745 geomstrings_list[geomstrings_count++] = builtinshaderstring;
746 fragstrings_list[fragstrings_count++] = builtinshaderstring;
749 // clear any lists that are not needed by this shader
750 if (!(permutation & SHADERPERMUTATION_USES_VERTEXSHADER))
751 vertstrings_count = 0;
752 if (!(permutation & SHADERPERMUTATION_USES_GEOMETRYSHADER))
753 geomstrings_count = 0;
754 if (!(permutation & SHADERPERMUTATION_USES_FRAGMENTSHADER))
755 fragstrings_count = 0;
756 // compile the shader program
757 if (shaderfound && vertstrings_count + geomstrings_count + fragstrings_count)
758 p->program = GL_Backend_CompileProgram(vertstrings_count, vertstrings_list, geomstrings_count, geomstrings_list, fragstrings_count, fragstrings_list);
762 qglUseProgramObjectARB(p->program);CHECKGLERROR
763 // look up all the uniform variable names we care about, so we don't
764 // have to look them up every time we set them
765 p->loc_Texture_Normal = qglGetUniformLocationARB(p->program, "Texture_Normal");
766 p->loc_Texture_Color = qglGetUniformLocationARB(p->program, "Texture_Color");
767 p->loc_Texture_Gloss = qglGetUniformLocationARB(p->program, "Texture_Gloss");
768 p->loc_Texture_Cube = qglGetUniformLocationARB(p->program, "Texture_Cube");
769 p->loc_Texture_Attenuation = qglGetUniformLocationARB(p->program, "Texture_Attenuation");
770 p->loc_Texture_FogMask = qglGetUniformLocationARB(p->program, "Texture_FogMask");
771 p->loc_Texture_Pants = qglGetUniformLocationARB(p->program, "Texture_Pants");
772 p->loc_Texture_Shirt = qglGetUniformLocationARB(p->program, "Texture_Shirt");
773 p->loc_Texture_Lightmap = qglGetUniformLocationARB(p->program, "Texture_Lightmap");
774 p->loc_Texture_Deluxemap = qglGetUniformLocationARB(p->program, "Texture_Deluxemap");
775 p->loc_Texture_Glow = qglGetUniformLocationARB(p->program, "Texture_Glow");
776 p->loc_FogColor = qglGetUniformLocationARB(p->program, "FogColor");
777 p->loc_LightPosition = qglGetUniformLocationARB(p->program, "LightPosition");
778 p->loc_EyePosition = qglGetUniformLocationARB(p->program, "EyePosition");
779 p->loc_LightColor = qglGetUniformLocationARB(p->program, "LightColor");
780 p->loc_Color_Pants = qglGetUniformLocationARB(p->program, "Color_Pants");
781 p->loc_Color_Shirt = qglGetUniformLocationARB(p->program, "Color_Shirt");
782 p->loc_FogRangeRecip = qglGetUniformLocationARB(p->program, "FogRangeRecip");
783 p->loc_AmbientScale = qglGetUniformLocationARB(p->program, "AmbientScale");
784 p->loc_DiffuseScale = qglGetUniformLocationARB(p->program, "DiffuseScale");
785 p->loc_SpecularPower = qglGetUniformLocationARB(p->program, "SpecularPower");
786 p->loc_SpecularScale = qglGetUniformLocationARB(p->program, "SpecularScale");
787 p->loc_GlowScale = qglGetUniformLocationARB(p->program, "GlowScale");
788 p->loc_SceneBrightness = qglGetUniformLocationARB(p->program, "SceneBrightness");
789 p->loc_OffsetMapping_Scale = qglGetUniformLocationARB(p->program, "OffsetMapping_Scale");
790 p->loc_AmbientColor = qglGetUniformLocationARB(p->program, "AmbientColor");
791 p->loc_DiffuseColor = qglGetUniformLocationARB(p->program, "DiffuseColor");
792 p->loc_SpecularColor = qglGetUniformLocationARB(p->program, "SpecularColor");
793 p->loc_LightDir = qglGetUniformLocationARB(p->program, "LightDir");
794 // initialize the samplers to refer to the texture units we use
795 if (p->loc_Texture_Normal >= 0) qglUniform1iARB(p->loc_Texture_Normal, 0);
796 if (p->loc_Texture_Color >= 0) qglUniform1iARB(p->loc_Texture_Color, 1);
797 if (p->loc_Texture_Gloss >= 0) qglUniform1iARB(p->loc_Texture_Gloss, 2);
798 if (p->loc_Texture_Cube >= 0) qglUniform1iARB(p->loc_Texture_Cube, 3);
799 if (p->loc_Texture_FogMask >= 0) qglUniform1iARB(p->loc_Texture_FogMask, 4);
800 if (p->loc_Texture_Pants >= 0) qglUniform1iARB(p->loc_Texture_Pants, 5);
801 if (p->loc_Texture_Shirt >= 0) qglUniform1iARB(p->loc_Texture_Shirt, 6);
802 if (p->loc_Texture_Lightmap >= 0) qglUniform1iARB(p->loc_Texture_Lightmap, 7);
803 if (p->loc_Texture_Deluxemap >= 0) qglUniform1iARB(p->loc_Texture_Deluxemap, 8);
804 if (p->loc_Texture_Glow >= 0) qglUniform1iARB(p->loc_Texture_Glow, 9);
805 if (p->loc_Texture_Attenuation >= 0) qglUniform1iARB(p->loc_Texture_Attenuation, 10);
807 qglUseProgramObjectARB(0);CHECKGLERROR
810 Con_Printf("permutation%s failed for shader %s, some features may not work properly!\n", permutationname, "glsl/default.glsl");
812 Mem_Free(shaderstring);
815 void R_GLSL_Restart_f(void)
818 for (i = 0;i < SHADERPERMUTATION_MAX;i++)
819 if (r_glsl_permutations[i].program)
820 GL_Backend_FreeProgram(r_glsl_permutations[i].program);
821 memset(r_glsl_permutations, 0, sizeof(r_glsl_permutations));
824 extern rtexture_t *r_shadow_attenuationgradienttexture;
825 extern rtexture_t *r_shadow_attenuation2dtexture;
826 extern rtexture_t *r_shadow_attenuation3dtexture;
827 int R_SetupSurfaceShader(const vec3_t lightcolorbase, qboolean modellighting, float ambientscale, float diffusescale, float specularscale)
829 // select a permutation of the lighting shader appropriate to this
830 // combination of texture, entity, light source, and fogging, only use the
831 // minimum features necessary to avoid wasting rendering time in the
832 // fragment shader on features that are not being used
833 const char *shaderfilename = NULL;
834 unsigned int permutation = 0;
835 r_glsl_permutation = NULL;
836 // TODO: implement geometry-shader based shadow volumes someday
837 if (r_shadow_rtlight)
840 shaderfilename = "glsl/default.glsl";
841 permutation = SHADERPERMUTATION_MODE_LIGHTSOURCE | SHADERPERMUTATION_USES_VERTEXSHADER | SHADERPERMUTATION_USES_FRAGMENTSHADER;
842 if (r_shadow_rtlight->currentcubemap != r_texture_whitecube)
843 permutation |= SHADERPERMUTATION_CUBEFILTER;
844 if (diffusescale > 0)
845 permutation |= SHADERPERMUTATION_DIFFUSE;
846 if (specularscale > 0)
847 permutation |= SHADERPERMUTATION_SPECULAR | SHADERPERMUTATION_DIFFUSE;
848 if (r_refdef.fogenabled)
849 permutation |= SHADERPERMUTATION_FOG;
850 if (rsurface_texture->colormapping)
851 permutation |= SHADERPERMUTATION_COLORMAPPING;
852 if (r_glsl_offsetmapping.integer)
854 permutation |= SHADERPERMUTATION_OFFSETMAPPING;
855 if (r_glsl_offsetmapping_reliefmapping.integer)
856 permutation |= SHADERPERMUTATION_OFFSETMAPPING_RELIEFMAPPING;
859 else if (rsurface_texture->currentmaterialflags & MATERIALFLAG_FULLBRIGHT)
861 // bright unshaded geometry
862 shaderfilename = "glsl/default.glsl";
863 permutation = SHADERPERMUTATION_USES_VERTEXSHADER | SHADERPERMUTATION_USES_FRAGMENTSHADER;
864 if (rsurface_texture->currentskinframe->glow)
865 permutation |= SHADERPERMUTATION_GLOW;
866 if (r_refdef.fogenabled)
867 permutation |= SHADERPERMUTATION_FOG;
868 if (rsurface_texture->colormapping)
869 permutation |= SHADERPERMUTATION_COLORMAPPING;
870 if (r_glsl_offsetmapping.integer)
872 permutation |= SHADERPERMUTATION_OFFSETMAPPING;
873 if (r_glsl_offsetmapping_reliefmapping.integer)
874 permutation |= SHADERPERMUTATION_OFFSETMAPPING_RELIEFMAPPING;
877 else if (modellighting)
879 // directional model lighting
880 shaderfilename = "glsl/default.glsl";
881 permutation = SHADERPERMUTATION_USES_VERTEXSHADER | SHADERPERMUTATION_USES_FRAGMENTSHADER;
882 permutation |= SHADERPERMUTATION_MODE_LIGHTDIRECTION;
883 if (rsurface_texture->currentskinframe->glow)
884 permutation |= SHADERPERMUTATION_GLOW;
885 if (specularscale > 0)
886 permutation |= SHADERPERMUTATION_SPECULAR;
887 if (r_refdef.fogenabled)
888 permutation |= SHADERPERMUTATION_FOG;
889 if (rsurface_texture->colormapping)
890 permutation |= SHADERPERMUTATION_COLORMAPPING;
891 if (r_glsl_offsetmapping.integer)
893 permutation |= SHADERPERMUTATION_OFFSETMAPPING;
894 if (r_glsl_offsetmapping_reliefmapping.integer)
895 permutation |= SHADERPERMUTATION_OFFSETMAPPING_RELIEFMAPPING;
901 shaderfilename = "glsl/default.glsl";
902 permutation = SHADERPERMUTATION_USES_VERTEXSHADER | SHADERPERMUTATION_USES_FRAGMENTSHADER;
903 if (r_glsl_deluxemapping.integer >= 1 && rsurface_uselightmaptexture && r_refdef.worldmodel && r_refdef.worldmodel->brushq3.deluxemapping)
905 // deluxemapping (light direction texture)
906 if (rsurface_uselightmaptexture && r_refdef.worldmodel && r_refdef.worldmodel->brushq3.deluxemapping && r_refdef.worldmodel->brushq3.deluxemapping_modelspace)
907 permutation |= SHADERPERMUTATION_MODE_LIGHTDIRECTIONMAP_MODELSPACE;
909 permutation |= SHADERPERMUTATION_MODE_LIGHTDIRECTIONMAP_TANGENTSPACE;
910 if (specularscale > 0)
911 permutation |= SHADERPERMUTATION_SPECULAR;
913 else if (r_glsl_deluxemapping.integer >= 2)
915 // fake deluxemapping (uniform light direction in tangentspace)
916 permutation |= SHADERPERMUTATION_MODE_LIGHTDIRECTIONMAP_TANGENTSPACE;
917 if (specularscale > 0)
918 permutation |= SHADERPERMUTATION_SPECULAR;
922 // ordinary lightmapping
925 if (rsurface_texture->currentskinframe->glow)
926 permutation |= SHADERPERMUTATION_GLOW;
927 if (r_refdef.fogenabled)
928 permutation |= SHADERPERMUTATION_FOG;
929 if (rsurface_texture->colormapping)
930 permutation |= SHADERPERMUTATION_COLORMAPPING;
931 if (r_glsl_offsetmapping.integer)
933 permutation |= SHADERPERMUTATION_OFFSETMAPPING;
934 if (r_glsl_offsetmapping_reliefmapping.integer)
935 permutation |= SHADERPERMUTATION_OFFSETMAPPING_RELIEFMAPPING;
938 if (!r_glsl_permutations[permutation & SHADERPERMUTATION_MASK].program)
940 if (!r_glsl_permutations[permutation & SHADERPERMUTATION_MASK].compiled)
941 R_GLSL_CompilePermutation(shaderfilename, permutation);
942 if (!r_glsl_permutations[permutation & SHADERPERMUTATION_MASK].program)
944 // remove features until we find a valid permutation
946 for (i = SHADERPERMUTATION_MASK;;i>>=1)
949 return 0; // utterly failed
950 // reduce i more quickly whenever it would not remove any bits
954 if (!r_glsl_permutations[permutation & SHADERPERMUTATION_MASK].compiled)
955 R_GLSL_CompilePermutation(shaderfilename, permutation);
956 if (r_glsl_permutations[permutation & SHADERPERMUTATION_MASK].program)
961 r_glsl_permutation = r_glsl_permutations + (permutation & SHADERPERMUTATION_MASK);
963 qglUseProgramObjectARB(r_glsl_permutation->program);CHECKGLERROR
964 R_Mesh_TexMatrix(0, &rsurface_texture->currenttexmatrix);
965 if (permutation & SHADERPERMUTATION_MODE_LIGHTSOURCE)
967 if (r_glsl_permutation->loc_Texture_Cube >= 0 && r_shadow_rtlight) R_Mesh_TexBindCubeMap(3, R_GetTexture(r_shadow_rtlight->currentcubemap));
968 if (r_glsl_permutation->loc_LightPosition >= 0) qglUniform3fARB(r_glsl_permutation->loc_LightPosition, r_shadow_entitylightorigin[0], r_shadow_entitylightorigin[1], r_shadow_entitylightorigin[2]);
969 if (permutation & SHADERPERMUTATION_DIFFUSE)
971 if (r_glsl_permutation->loc_LightColor >= 0) qglUniform3fARB(r_glsl_permutation->loc_LightColor, lightcolorbase[0], lightcolorbase[1], lightcolorbase[2]);
972 if (r_glsl_permutation->loc_AmbientScale >= 0) qglUniform1fARB(r_glsl_permutation->loc_AmbientScale, ambientscale);
973 if (r_glsl_permutation->loc_DiffuseScale >= 0) qglUniform1fARB(r_glsl_permutation->loc_DiffuseScale, diffusescale);
974 if (r_glsl_permutation->loc_SpecularScale >= 0) qglUniform1fARB(r_glsl_permutation->loc_SpecularScale, specularscale);
978 // ambient only is simpler
979 if (r_glsl_permutation->loc_LightColor >= 0) qglUniform3fARB(r_glsl_permutation->loc_LightColor, lightcolorbase[0] * ambientscale, lightcolorbase[1] * ambientscale, lightcolorbase[2] * ambientscale);
980 if (r_glsl_permutation->loc_AmbientScale >= 0) qglUniform1fARB(r_glsl_permutation->loc_AmbientScale, 1);
981 if (r_glsl_permutation->loc_DiffuseScale >= 0) qglUniform1fARB(r_glsl_permutation->loc_DiffuseScale, 0);
982 if (r_glsl_permutation->loc_SpecularScale >= 0) qglUniform1fARB(r_glsl_permutation->loc_SpecularScale, 0);
985 else if (permutation & SHADERPERMUTATION_MODE_LIGHTDIRECTION)
987 if (r_glsl_permutation->loc_AmbientColor >= 0)
988 qglUniform3fARB(r_glsl_permutation->loc_AmbientColor, rsurface_entity->modellight_ambient[0] * ambientscale, rsurface_entity->modellight_ambient[1] * ambientscale, rsurface_entity->modellight_ambient[2] * ambientscale);
989 if (r_glsl_permutation->loc_DiffuseColor >= 0)
990 qglUniform3fARB(r_glsl_permutation->loc_DiffuseColor, rsurface_entity->modellight_diffuse[0] * diffusescale, rsurface_entity->modellight_diffuse[1] * diffusescale, rsurface_entity->modellight_diffuse[2] * diffusescale);
991 if (r_glsl_permutation->loc_SpecularColor >= 0)
992 qglUniform3fARB(r_glsl_permutation->loc_SpecularColor, rsurface_entity->modellight_diffuse[0] * specularscale, rsurface_entity->modellight_diffuse[1] * specularscale, rsurface_entity->modellight_diffuse[2] * specularscale);
993 if (r_glsl_permutation->loc_LightDir >= 0)
994 qglUniform3fARB(r_glsl_permutation->loc_LightDir, rsurface_entity->modellight_lightdir[0], rsurface_entity->modellight_lightdir[1], rsurface_entity->modellight_lightdir[2]);
998 if (r_glsl_permutation->loc_AmbientScale >= 0) qglUniform1fARB(r_glsl_permutation->loc_AmbientScale, r_ambient.value * 2.0f / 128.0f);
999 if (r_glsl_permutation->loc_DiffuseScale >= 0) qglUniform1fARB(r_glsl_permutation->loc_DiffuseScale, r_refdef.lightmapintensity * 2.0f);
1000 if (r_glsl_permutation->loc_SpecularScale >= 0) qglUniform1fARB(r_glsl_permutation->loc_SpecularScale, r_refdef.lightmapintensity * specularscale * 2.0f);
1002 if (r_glsl_permutation->loc_Texture_Normal >= 0) R_Mesh_TexBind(0, R_GetTexture(rsurface_texture->currentskinframe->nmap));
1003 if (r_glsl_permutation->loc_Texture_Color >= 0) R_Mesh_TexBind(1, R_GetTexture(rsurface_texture->basetexture));
1004 if (r_glsl_permutation->loc_Texture_Gloss >= 0) R_Mesh_TexBind(2, R_GetTexture(rsurface_texture->glosstexture));
1005 //if (r_glsl_permutation->loc_Texture_Cube >= 0 && permutation & SHADERPERMUTATION_MODE_LIGHTSOURCE) R_Mesh_TexBindCubeMap(3, R_GetTexture(r_shadow_rtlight->currentcubemap));
1006 if (r_glsl_permutation->loc_Texture_Attenuation >= 0) R_Mesh_TexBind(10, R_GetTexture(r_shadow_attenuationgradienttexture));
1007 if (r_glsl_permutation->loc_Texture_FogMask >= 0) R_Mesh_TexBind(4, R_GetTexture(r_texture_fogattenuation));
1008 if (r_glsl_permutation->loc_Texture_Pants >= 0) R_Mesh_TexBind(5, R_GetTexture(rsurface_texture->currentskinframe->pants));
1009 if (r_glsl_permutation->loc_Texture_Shirt >= 0) R_Mesh_TexBind(6, R_GetTexture(rsurface_texture->currentskinframe->shirt));
1010 //if (r_glsl_permutation->loc_Texture_Lightmap >= 0) R_Mesh_TexBind(7, R_GetTexture(r_texture_white));
1011 //if (r_glsl_permutation->loc_Texture_Deluxemap >= 0) R_Mesh_TexBind(8, R_GetTexture(r_texture_blanknormalmap));
1012 if (r_glsl_permutation->loc_Texture_Glow >= 0) R_Mesh_TexBind(9, R_GetTexture(rsurface_texture->currentskinframe->glow));
1013 if (r_glsl_permutation->loc_GlowScale >= 0) qglUniform1fARB(r_glsl_permutation->loc_GlowScale, r_hdr_glowintensity.value);
1014 if (r_glsl_permutation->loc_SceneBrightness >= 0) qglUniform1fARB(r_glsl_permutation->loc_SceneBrightness, r_view.colorscale);
1015 if (r_glsl_permutation->loc_FogColor >= 0)
1017 // additive passes are only darkened by fog, not tinted
1018 if (r_shadow_rtlight || (rsurface_texture->currentmaterialflags & MATERIALFLAG_ADD))
1019 qglUniform3fARB(r_glsl_permutation->loc_FogColor, 0, 0, 0);
1021 qglUniform3fARB(r_glsl_permutation->loc_FogColor, r_refdef.fogcolor[0], r_refdef.fogcolor[1], r_refdef.fogcolor[2]);
1023 if (r_glsl_permutation->loc_EyePosition >= 0) qglUniform3fARB(r_glsl_permutation->loc_EyePosition, rsurface_modelorg[0], rsurface_modelorg[1], rsurface_modelorg[2]);
1024 if (r_glsl_permutation->loc_Color_Pants >= 0)
1026 if (rsurface_texture->currentskinframe->pants)
1027 qglUniform3fARB(r_glsl_permutation->loc_Color_Pants, rsurface_entity->colormap_pantscolor[0], rsurface_entity->colormap_pantscolor[1], rsurface_entity->colormap_pantscolor[2]);
1029 qglUniform3fARB(r_glsl_permutation->loc_Color_Pants, 0, 0, 0);
1031 if (r_glsl_permutation->loc_Color_Shirt >= 0)
1033 if (rsurface_texture->currentskinframe->shirt)
1034 qglUniform3fARB(r_glsl_permutation->loc_Color_Shirt, rsurface_entity->colormap_shirtcolor[0], rsurface_entity->colormap_shirtcolor[1], rsurface_entity->colormap_shirtcolor[2]);
1036 qglUniform3fARB(r_glsl_permutation->loc_Color_Shirt, 0, 0, 0);
1038 if (r_glsl_permutation->loc_FogRangeRecip >= 0) qglUniform1fARB(r_glsl_permutation->loc_FogRangeRecip, r_refdef.fograngerecip);
1039 if (r_glsl_permutation->loc_SpecularPower >= 0) qglUniform1fARB(r_glsl_permutation->loc_SpecularPower, rsurface_texture->specularpower);
1040 if (r_glsl_permutation->loc_OffsetMapping_Scale >= 0) qglUniform1fARB(r_glsl_permutation->loc_OffsetMapping_Scale, r_glsl_offsetmapping_scale.value);
1045 void R_SwitchSurfaceShader(int permutation)
1047 if (r_glsl_permutation != r_glsl_permutations + (permutation & SHADERPERMUTATION_MASK))
1049 r_glsl_permutation = r_glsl_permutations + (permutation & SHADERPERMUTATION_MASK);
1051 qglUseProgramObjectARB(r_glsl_permutation->program);
1056 void gl_main_start(void)
1058 r_main_texturepool = R_AllocTexturePool();
1059 R_BuildBlankTextures();
1061 if (gl_texturecubemap)
1064 R_BuildNormalizationCube();
1066 R_BuildFogTexture();
1067 memset(&r_bloomstate, 0, sizeof(r_bloomstate));
1068 memset(r_glsl_permutations, 0, sizeof(r_glsl_permutations));
1069 memset(&r_svbsp, 0, sizeof (r_svbsp));
1072 void gl_main_shutdown(void)
1075 Mem_Free(r_svbsp.nodes);
1076 memset(&r_svbsp, 0, sizeof (r_svbsp));
1077 R_FreeTexturePool(&r_main_texturepool);
1078 r_texture_blanknormalmap = NULL;
1079 r_texture_white = NULL;
1080 r_texture_black = NULL;
1081 r_texture_whitecube = NULL;
1082 r_texture_normalizationcube = NULL;
1083 memset(&r_bloomstate, 0, sizeof(r_bloomstate));
1087 extern void CL_ParseEntityLump(char *entitystring);
1088 void gl_main_newmap(void)
1090 // FIXME: move this code to client
1092 char *entities, entname[MAX_QPATH];
1095 strlcpy(entname, cl.worldmodel->name, sizeof(entname));
1096 l = (int)strlen(entname) - 4;
1097 if (l >= 0 && !strcmp(entname + l, ".bsp"))
1099 memcpy(entname + l, ".ent", 5);
1100 if ((entities = (char *)FS_LoadFile(entname, tempmempool, true, NULL)))
1102 CL_ParseEntityLump(entities);
1107 if (cl.worldmodel->brush.entities)
1108 CL_ParseEntityLump(cl.worldmodel->brush.entities);
1112 void GL_Main_Init(void)
1114 r_main_mempool = Mem_AllocPool("Renderer", 0, NULL);
1116 Cmd_AddCommand("r_glsl_restart", R_GLSL_Restart_f, "unloads GLSL shaders, they will then be reloaded as needed");
1117 FOG_registercvars(); // FIXME: move this fog stuff to client?
1118 Cvar_RegisterVariable(&r_nearclip);
1119 Cvar_RegisterVariable(&r_showsurfaces);
1120 Cvar_RegisterVariable(&r_showtris);
1121 Cvar_RegisterVariable(&r_shownormals);
1122 Cvar_RegisterVariable(&r_showlighting);
1123 Cvar_RegisterVariable(&r_showshadowvolumes);
1124 Cvar_RegisterVariable(&r_showcollisionbrushes);
1125 Cvar_RegisterVariable(&r_showcollisionbrushes_polygonfactor);
1126 Cvar_RegisterVariable(&r_showcollisionbrushes_polygonoffset);
1127 Cvar_RegisterVariable(&r_showdisabledepthtest);
1128 Cvar_RegisterVariable(&r_drawportals);
1129 Cvar_RegisterVariable(&r_drawentities);
1130 Cvar_RegisterVariable(&r_cullentities_trace);
1131 Cvar_RegisterVariable(&r_cullentities_trace_samples);
1132 Cvar_RegisterVariable(&r_cullentities_trace_enlarge);
1133 Cvar_RegisterVariable(&r_cullentities_trace_delay);
1134 Cvar_RegisterVariable(&r_drawviewmodel);
1135 Cvar_RegisterVariable(&r_speeds);
1136 Cvar_RegisterVariable(&r_fullbrights);
1137 Cvar_RegisterVariable(&r_wateralpha);
1138 Cvar_RegisterVariable(&r_dynamic);
1139 Cvar_RegisterVariable(&r_fullbright);
1140 Cvar_RegisterVariable(&r_shadows);
1141 Cvar_RegisterVariable(&r_shadows_throwdistance);
1142 Cvar_RegisterVariable(&r_q1bsp_skymasking);
1143 Cvar_RegisterVariable(&r_textureunits);
1144 Cvar_RegisterVariable(&r_glsl);
1145 Cvar_RegisterVariable(&r_glsl_offsetmapping);
1146 Cvar_RegisterVariable(&r_glsl_offsetmapping_reliefmapping);
1147 Cvar_RegisterVariable(&r_glsl_offsetmapping_scale);
1148 Cvar_RegisterVariable(&r_glsl_deluxemapping);
1149 Cvar_RegisterVariable(&r_lerpsprites);
1150 Cvar_RegisterVariable(&r_lerpmodels);
1151 Cvar_RegisterVariable(&r_waterscroll);
1152 Cvar_RegisterVariable(&r_bloom);
1153 Cvar_RegisterVariable(&r_bloom_colorscale);
1154 Cvar_RegisterVariable(&r_bloom_brighten);
1155 Cvar_RegisterVariable(&r_bloom_blur);
1156 Cvar_RegisterVariable(&r_bloom_resolution);
1157 Cvar_RegisterVariable(&r_bloom_colorexponent);
1158 Cvar_RegisterVariable(&r_bloom_colorsubtract);
1159 Cvar_RegisterVariable(&r_hdr);
1160 Cvar_RegisterVariable(&r_hdr_scenebrightness);
1161 Cvar_RegisterVariable(&r_hdr_glowintensity);
1162 Cvar_RegisterVariable(&r_hdr_range);
1163 Cvar_RegisterVariable(&r_smoothnormals_areaweighting);
1164 Cvar_RegisterVariable(&developer_texturelogging);
1165 Cvar_RegisterVariable(&gl_lightmaps);
1166 Cvar_RegisterVariable(&r_test);
1167 Cvar_RegisterVariable(&r_batchmode);
1168 if (gamemode == GAME_NEHAHRA || gamemode == GAME_TENEBRAE)
1169 Cvar_SetValue("r_fullbrights", 0);
1170 R_RegisterModule("GL_Main", gl_main_start, gl_main_shutdown, gl_main_newmap);
1173 extern void R_Textures_Init(void);
1174 extern void GL_Draw_Init(void);
1175 extern void GL_Main_Init(void);
1176 extern void R_Shadow_Init(void);
1177 extern void R_Sky_Init(void);
1178 extern void GL_Surf_Init(void);
1179 extern void R_Light_Init(void);
1180 extern void R_Particles_Init(void);
1181 extern void R_Explosion_Init(void);
1182 extern void gl_backend_init(void);
1183 extern void Sbar_Init(void);
1184 extern void R_LightningBeams_Init(void);
1185 extern void Mod_RenderInit(void);
1187 void Render_Init(void)
1200 R_LightningBeams_Init();
1209 extern char *ENGINE_EXTENSIONS;
1212 VID_CheckExtensions();
1214 // LordHavoc: report supported extensions
1215 Con_DPrintf("\nQuakeC extensions for server and client: %s\nQuakeC extensions for menu: %s\n", vm_sv_extensions, vm_m_extensions );
1217 // clear to black (loading plaque will be seen over this)
1219 qglClearColor(0,0,0,1);CHECKGLERROR
1220 qglClear(GL_COLOR_BUFFER_BIT);CHECKGLERROR
1223 int R_CullBox(const vec3_t mins, const vec3_t maxs)
1227 for (i = 0;i < 4;i++)
1229 p = r_view.frustum + i;
1234 if (p->normal[0]*maxs[0] + p->normal[1]*maxs[1] + p->normal[2]*maxs[2] < p->dist)
1238 if (p->normal[0]*mins[0] + p->normal[1]*maxs[1] + p->normal[2]*maxs[2] < p->dist)
1242 if (p->normal[0]*maxs[0] + p->normal[1]*mins[1] + p->normal[2]*maxs[2] < p->dist)
1246 if (p->normal[0]*mins[0] + p->normal[1]*mins[1] + p->normal[2]*maxs[2] < p->dist)
1250 if (p->normal[0]*maxs[0] + p->normal[1]*maxs[1] + p->normal[2]*mins[2] < p->dist)
1254 if (p->normal[0]*mins[0] + p->normal[1]*maxs[1] + p->normal[2]*mins[2] < p->dist)
1258 if (p->normal[0]*maxs[0] + p->normal[1]*mins[1] + p->normal[2]*mins[2] < p->dist)
1262 if (p->normal[0]*mins[0] + p->normal[1]*mins[1] + p->normal[2]*mins[2] < p->dist)
1270 int R_CullBoxCustomPlanes(const vec3_t mins, const vec3_t maxs, int numplanes, const mplane_t *planes)
1274 for (i = 0;i < numplanes;i++)
1281 if (p->normal[0]*maxs[0] + p->normal[1]*maxs[1] + p->normal[2]*maxs[2] < p->dist)
1285 if (p->normal[0]*mins[0] + p->normal[1]*maxs[1] + p->normal[2]*maxs[2] < p->dist)
1289 if (p->normal[0]*maxs[0] + p->normal[1]*mins[1] + p->normal[2]*maxs[2] < p->dist)
1293 if (p->normal[0]*mins[0] + p->normal[1]*mins[1] + p->normal[2]*maxs[2] < p->dist)
1297 if (p->normal[0]*maxs[0] + p->normal[1]*maxs[1] + p->normal[2]*mins[2] < p->dist)
1301 if (p->normal[0]*mins[0] + p->normal[1]*maxs[1] + p->normal[2]*mins[2] < p->dist)
1305 if (p->normal[0]*maxs[0] + p->normal[1]*mins[1] + p->normal[2]*mins[2] < p->dist)
1309 if (p->normal[0]*mins[0] + p->normal[1]*mins[1] + p->normal[2]*mins[2] < p->dist)
1317 //==================================================================================
1319 static void R_UpdateEntityLighting(entity_render_t *ent)
1321 vec3_t tempdiffusenormal;
1323 // fetch the lighting from the worldmodel data
1324 VectorSet(ent->modellight_ambient, r_ambient.value * (2.0f / 128.0f), r_ambient.value * (2.0f / 128.0f), r_ambient.value * (2.0f / 128.0f));
1325 VectorClear(ent->modellight_diffuse);
1326 VectorClear(tempdiffusenormal);
1327 if ((ent->flags & RENDER_LIGHT) && r_refdef.worldmodel && r_refdef.worldmodel->brush.LightPoint)
1330 Matrix4x4_OriginFromMatrix(&ent->matrix, org);
1331 r_refdef.worldmodel->brush.LightPoint(r_refdef.worldmodel, org, ent->modellight_ambient, ent->modellight_diffuse, tempdiffusenormal);
1334 VectorSet(ent->modellight_ambient, 1, 1, 1);
1336 // move the light direction into modelspace coordinates for lighting code
1337 Matrix4x4_Transform3x3(&ent->inversematrix, tempdiffusenormal, ent->modellight_lightdir);
1338 VectorNormalize(ent->modellight_lightdir);
1340 // scale ambient and directional light contributions according to rendering variables
1341 ent->modellight_ambient[0] *= ent->colormod[0] * r_refdef.lightmapintensity;
1342 ent->modellight_ambient[1] *= ent->colormod[1] * r_refdef.lightmapintensity;
1343 ent->modellight_ambient[2] *= ent->colormod[2] * r_refdef.lightmapintensity;
1344 ent->modellight_diffuse[0] *= ent->colormod[0] * r_refdef.lightmapintensity;
1345 ent->modellight_diffuse[1] *= ent->colormod[1] * r_refdef.lightmapintensity;
1346 ent->modellight_diffuse[2] *= ent->colormod[2] * r_refdef.lightmapintensity;
1349 static void R_View_UpdateEntityVisible (void)
1352 entity_render_t *ent;
1354 if (!r_drawentities.integer)
1357 renderimask = r_refdef.envmap ? (RENDER_EXTERIORMODEL | RENDER_VIEWMODEL) : (chase_active.integer ? 0 : RENDER_EXTERIORMODEL);
1358 if (r_refdef.worldmodel && r_refdef.worldmodel->brush.BoxTouchingVisibleLeafs)
1360 // worldmodel can check visibility
1361 for (i = 0;i < r_refdef.numentities;i++)
1363 ent = r_refdef.entities[i];
1364 r_viewcache.entityvisible[i] = !(ent->flags & renderimask) && !R_CullBox(ent->mins, ent->maxs) && ((ent->effects & EF_NODEPTHTEST) || r_refdef.worldmodel->brush.BoxTouchingVisibleLeafs(r_refdef.worldmodel, r_viewcache.world_leafvisible, ent->mins, ent->maxs));
1366 if(r_cullentities_trace.integer)
1368 for (i = 0;i < r_refdef.numentities;i++)
1370 ent = r_refdef.entities[i];
1371 if(r_viewcache.entityvisible[i] && !(ent->effects & EF_NODEPTHTEST) && !(ent->model && (ent->model->name[0] == '*')))
1373 if(Mod_CanSeeBox_Trace(r_cullentities_trace_samples.integer, r_cullentities_trace_enlarge.value, r_refdef.worldmodel, r_view.origin, ent->mins, ent->maxs))
1374 ent->last_trace_visibility = realtime;
1375 if(ent->last_trace_visibility < realtime - r_cullentities_trace_delay.value)
1376 r_viewcache.entityvisible[i] = 0;
1383 // no worldmodel or it can't check visibility
1384 for (i = 0;i < r_refdef.numentities;i++)
1386 ent = r_refdef.entities[i];
1387 r_viewcache.entityvisible[i] = !(ent->flags & renderimask) && !R_CullBox(ent->mins, ent->maxs);
1391 // update entity lighting (even on hidden entities for r_shadows)
1392 for (i = 0;i < r_refdef.numentities;i++)
1393 R_UpdateEntityLighting(r_refdef.entities[i]);
1396 // only used if skyrendermasked, and normally returns false
1397 int R_DrawBrushModelsSky (void)
1400 entity_render_t *ent;
1402 if (!r_drawentities.integer)
1406 for (i = 0;i < r_refdef.numentities;i++)
1408 if (!r_viewcache.entityvisible[i])
1410 ent = r_refdef.entities[i];
1411 if (!ent->model || !ent->model->DrawSky)
1413 ent->model->DrawSky(ent);
1419 void R_DrawNoModel(entity_render_t *ent);
1420 void R_DrawModels(void)
1423 entity_render_t *ent;
1425 if (!r_drawentities.integer)
1428 for (i = 0;i < r_refdef.numentities;i++)
1430 if (!r_viewcache.entityvisible[i])
1432 ent = r_refdef.entities[i];
1433 r_refdef.stats.entities++;
1434 if (ent->model && ent->model->Draw != NULL)
1435 ent->model->Draw(ent);
1441 static void R_View_SetFrustum(void)
1443 double slopex, slopey;
1445 // break apart the view matrix into vectors for various purposes
1446 Matrix4x4_ToVectors(&r_view.matrix, r_view.forward, r_view.left, r_view.up, r_view.origin);
1447 VectorNegate(r_view.left, r_view.right);
1450 r_view.frustum[0].normal[0] = 0 - 1.0 / r_view.frustum_x;
1451 r_view.frustum[0].normal[1] = 0 - 0;
1452 r_view.frustum[0].normal[2] = -1 - 0;
1453 r_view.frustum[1].normal[0] = 0 + 1.0 / r_view.frustum_x;
1454 r_view.frustum[1].normal[1] = 0 + 0;
1455 r_view.frustum[1].normal[2] = -1 + 0;
1456 r_view.frustum[2].normal[0] = 0 - 0;
1457 r_view.frustum[2].normal[1] = 0 - 1.0 / r_view.frustum_y;
1458 r_view.frustum[2].normal[2] = -1 - 0;
1459 r_view.frustum[3].normal[0] = 0 + 0;
1460 r_view.frustum[3].normal[1] = 0 + 1.0 / r_view.frustum_y;
1461 r_view.frustum[3].normal[2] = -1 + 0;
1465 zNear = r_refdef.nearclip;
1466 nudge = 1.0 - 1.0 / (1<<23);
1467 r_view.frustum[4].normal[0] = 0 - 0;
1468 r_view.frustum[4].normal[1] = 0 - 0;
1469 r_view.frustum[4].normal[2] = -1 - -nudge;
1470 r_view.frustum[4].dist = 0 - -2 * zNear * nudge;
1471 r_view.frustum[5].normal[0] = 0 + 0;
1472 r_view.frustum[5].normal[1] = 0 + 0;
1473 r_view.frustum[5].normal[2] = -1 + -nudge;
1474 r_view.frustum[5].dist = 0 + -2 * zNear * nudge;
1480 r_view.frustum[0].normal[0] = m[3] - m[0];
1481 r_view.frustum[0].normal[1] = m[7] - m[4];
1482 r_view.frustum[0].normal[2] = m[11] - m[8];
1483 r_view.frustum[0].dist = m[15] - m[12];
1485 r_view.frustum[1].normal[0] = m[3] + m[0];
1486 r_view.frustum[1].normal[1] = m[7] + m[4];
1487 r_view.frustum[1].normal[2] = m[11] + m[8];
1488 r_view.frustum[1].dist = m[15] + m[12];
1490 r_view.frustum[2].normal[0] = m[3] - m[1];
1491 r_view.frustum[2].normal[1] = m[7] - m[5];
1492 r_view.frustum[2].normal[2] = m[11] - m[9];
1493 r_view.frustum[2].dist = m[15] - m[13];
1495 r_view.frustum[3].normal[0] = m[3] + m[1];
1496 r_view.frustum[3].normal[1] = m[7] + m[5];
1497 r_view.frustum[3].normal[2] = m[11] + m[9];
1498 r_view.frustum[3].dist = m[15] + m[13];
1500 r_view.frustum[4].normal[0] = m[3] - m[2];
1501 r_view.frustum[4].normal[1] = m[7] - m[6];
1502 r_view.frustum[4].normal[2] = m[11] - m[10];
1503 r_view.frustum[4].dist = m[15] - m[14];
1505 r_view.frustum[5].normal[0] = m[3] + m[2];
1506 r_view.frustum[5].normal[1] = m[7] + m[6];
1507 r_view.frustum[5].normal[2] = m[11] + m[10];
1508 r_view.frustum[5].dist = m[15] + m[14];
1513 slopex = 1.0 / r_view.frustum_x;
1514 slopey = 1.0 / r_view.frustum_y;
1515 VectorMA(r_view.forward, -slopex, r_view.left, r_view.frustum[0].normal);
1516 VectorMA(r_view.forward, slopex, r_view.left, r_view.frustum[1].normal);
1517 VectorMA(r_view.forward, -slopey, r_view.up , r_view.frustum[2].normal);
1518 VectorMA(r_view.forward, slopey, r_view.up , r_view.frustum[3].normal);
1519 VectorCopy(r_view.forward, r_view.frustum[4].normal);
1520 VectorNormalize(r_view.frustum[0].normal);
1521 VectorNormalize(r_view.frustum[1].normal);
1522 VectorNormalize(r_view.frustum[2].normal);
1523 VectorNormalize(r_view.frustum[3].normal);
1524 r_view.frustum[0].dist = DotProduct (r_view.origin, r_view.frustum[0].normal);
1525 r_view.frustum[1].dist = DotProduct (r_view.origin, r_view.frustum[1].normal);
1526 r_view.frustum[2].dist = DotProduct (r_view.origin, r_view.frustum[2].normal);
1527 r_view.frustum[3].dist = DotProduct (r_view.origin, r_view.frustum[3].normal);
1528 r_view.frustum[4].dist = DotProduct (r_view.origin, r_view.frustum[4].normal) + r_refdef.nearclip;
1529 PlaneClassify(&r_view.frustum[0]);
1530 PlaneClassify(&r_view.frustum[1]);
1531 PlaneClassify(&r_view.frustum[2]);
1532 PlaneClassify(&r_view.frustum[3]);
1533 PlaneClassify(&r_view.frustum[4]);
1535 // calculate frustum corners, which are used to calculate deformed frustum planes for shadow caster culling
1536 VectorMAMAMAM(1, r_view.origin, 1024, r_view.forward, -1024 * slopex, r_view.left, -1024 * slopey, r_view.up, r_view.frustumcorner[0]);
1537 VectorMAMAMAM(1, r_view.origin, 1024, r_view.forward, 1024 * slopex, r_view.left, -1024 * slopey, r_view.up, r_view.frustumcorner[1]);
1538 VectorMAMAMAM(1, r_view.origin, 1024, r_view.forward, -1024 * slopex, r_view.left, 1024 * slopey, r_view.up, r_view.frustumcorner[2]);
1539 VectorMAMAMAM(1, r_view.origin, 1024, r_view.forward, 1024 * slopex, r_view.left, 1024 * slopey, r_view.up, r_view.frustumcorner[3]);
1541 // LordHavoc: note to all quake engine coders, Quake had a special case
1542 // for 90 degrees which assumed a square view (wrong), so I removed it,
1543 // Quake2 has it disabled as well.
1545 // rotate R_VIEWFORWARD right by FOV_X/2 degrees
1546 //RotatePointAroundVector( r_view.frustum[0].normal, r_view.up, r_view.forward, -(90 - r_refdef.fov_x / 2));
1547 //r_view.frustum[0].dist = DotProduct (r_view.origin, frustum[0].normal);
1548 //PlaneClassify(&frustum[0]);
1550 // rotate R_VIEWFORWARD left by FOV_X/2 degrees
1551 //RotatePointAroundVector( r_view.frustum[1].normal, r_view.up, r_view.forward, (90 - r_refdef.fov_x / 2));
1552 //r_view.frustum[1].dist = DotProduct (r_view.origin, frustum[1].normal);
1553 //PlaneClassify(&frustum[1]);
1555 // rotate R_VIEWFORWARD up by FOV_X/2 degrees
1556 //RotatePointAroundVector( r_view.frustum[2].normal, r_view.left, r_view.forward, -(90 - r_refdef.fov_y / 2));
1557 //r_view.frustum[2].dist = DotProduct (r_view.origin, frustum[2].normal);
1558 //PlaneClassify(&frustum[2]);
1560 // rotate R_VIEWFORWARD down by FOV_X/2 degrees
1561 //RotatePointAroundVector( r_view.frustum[3].normal, r_view.left, r_view.forward, (90 - r_refdef.fov_y / 2));
1562 //r_view.frustum[3].dist = DotProduct (r_view.origin, frustum[3].normal);
1563 //PlaneClassify(&frustum[3]);
1566 //VectorCopy(r_view.forward, r_view.frustum[4].normal);
1567 //r_view.frustum[4].dist = DotProduct (r_view.origin, frustum[4].normal) + r_nearclip.value;
1568 //PlaneClassify(&frustum[4]);
1571 void R_View_Update(void)
1573 R_View_SetFrustum();
1574 R_View_WorldVisibility();
1575 R_View_UpdateEntityVisible();
1578 void R_SetupView(const matrix4x4_t *matrix)
1580 if (r_refdef.rtworldshadows || r_refdef.rtdlightshadows)
1581 GL_SetupView_Mode_PerspectiveInfiniteFarClip(r_view.frustum_x, r_view.frustum_y, r_refdef.nearclip);
1583 GL_SetupView_Mode_Perspective(r_view.frustum_x, r_view.frustum_y, r_refdef.nearclip, r_refdef.farclip);
1585 GL_SetupView_Orientation_FromEntity(matrix);
1588 void R_ResetViewRendering2D(void)
1590 if (gl_support_fragment_shader)
1592 qglUseProgramObjectARB(0);CHECKGLERROR
1597 // GL is weird because it's bottom to top, r_view.y is top to bottom
1598 qglViewport(r_view.x, vid.height - (r_view.y + r_view.height), r_view.width, r_view.height);CHECKGLERROR
1599 GL_SetupView_Mode_Ortho(0, 0, 1, 1, -10, 100);
1600 GL_Scissor(r_view.x, r_view.y, r_view.width, r_view.height);
1601 GL_Color(1, 1, 1, 1);
1602 GL_ColorMask(r_view.colormask[0], r_view.colormask[1], r_view.colormask[2], 1);
1603 GL_BlendFunc(GL_ONE, GL_ZERO);
1604 GL_AlphaTest(false);
1605 GL_ScissorTest(false);
1606 GL_DepthMask(false);
1607 GL_DepthTest(false);
1608 R_Mesh_Matrix(&identitymatrix);
1609 R_Mesh_ResetTextureState();
1610 qglPolygonOffset(r_refdef.polygonfactor, r_refdef.polygonoffset);CHECKGLERROR
1611 qglEnable(GL_POLYGON_OFFSET_FILL);CHECKGLERROR
1612 qglDepthFunc(GL_LEQUAL);CHECKGLERROR
1613 qglDisable(GL_STENCIL_TEST);CHECKGLERROR
1614 qglStencilMask(~0);CHECKGLERROR
1615 qglStencilFunc(GL_ALWAYS, 128, ~0);CHECKGLERROR
1616 qglStencilOp(GL_KEEP, GL_KEEP, GL_KEEP);CHECKGLERROR
1617 GL_CullFace(GL_FRONT); // quake is backwards, this culls back faces
1620 void R_ResetViewRendering3D(void)
1622 if (gl_support_fragment_shader)
1624 qglUseProgramObjectARB(0);CHECKGLERROR
1629 // GL is weird because it's bottom to top, r_view.y is top to bottom
1630 qglViewport(r_view.x, vid.height - (r_view.y + r_view.height), r_view.width, r_view.height);CHECKGLERROR
1631 R_SetupView(&r_view.matrix);
1632 GL_Scissor(r_view.x, r_view.y, r_view.width, r_view.height);
1633 GL_Color(1, 1, 1, 1);
1634 GL_ColorMask(r_view.colormask[0], r_view.colormask[1], r_view.colormask[2], 1);
1635 GL_BlendFunc(GL_ONE, GL_ZERO);
1636 GL_AlphaTest(false);
1637 GL_ScissorTest(true);
1640 R_Mesh_Matrix(&identitymatrix);
1641 R_Mesh_ResetTextureState();
1642 qglPolygonOffset(r_refdef.polygonfactor, r_refdef.polygonoffset);CHECKGLERROR
1643 qglEnable(GL_POLYGON_OFFSET_FILL);CHECKGLERROR
1644 qglDepthFunc(GL_LEQUAL);CHECKGLERROR
1645 qglDisable(GL_STENCIL_TEST);CHECKGLERROR
1646 qglStencilMask(~0);CHECKGLERROR
1647 qglStencilFunc(GL_ALWAYS, 128, ~0);CHECKGLERROR
1648 qglStencilOp(GL_KEEP, GL_KEEP, GL_KEEP);CHECKGLERROR
1649 GL_CullFace(GL_FRONT); // quake is backwards, this culls back faces
1653 R_Bloom_SetupShader(
1655 "// written by Forest 'LordHavoc' Hale\n"
1657 "// common definitions between vertex shader and fragment shader:\n"
1659 "#ifdef __GLSL_CG_DATA_TYPES\n"
1660 "#define myhalf half\n"
1661 "#define myhvec2 hvec2\n"
1662 "#define myhvec3 hvec3\n"
1663 "#define myhvec4 hvec4\n"
1665 "#define myhalf float\n"
1666 "#define myhvec2 vec2\n"
1667 "#define myhvec3 vec3\n"
1668 "#define myhvec4 vec4\n"
1671 "varying vec2 ScreenTexCoord;\n"
1672 "varying vec2 BloomTexCoord;\n"
1677 "// vertex shader specific:\n"
1678 "#ifdef VERTEX_SHADER\n"
1682 " ScreenTexCoord = vec2(gl_MultiTexCoord0);\n"
1683 " BloomTexCoord = vec2(gl_MultiTexCoord1);\n"
1684 " // transform vertex to camera space, using ftransform to match non-VS\n"
1686 " gl_Position = ftransform();\n"
1689 "#endif // VERTEX_SHADER\n"
1694 "// fragment shader specific:\n"
1695 "#ifdef FRAGMENT_SHADER\n"
1700 " myhvec3 color = myhvec3(texture2D(Texture_Screen, ScreenTexCoord));\n"
1701 " for (x = -BLUR_X;x <= BLUR_X;x++)
1702 " color.rgb += myhvec3(texture2D(Texture_Bloom, BloomTexCoord));\n"
1703 " color.rgb += myhvec3(texture2D(Texture_Bloom, BloomTexCoord));\n"
1704 " color.rgb += myhvec3(texture2D(Texture_Bloom, BloomTexCoord));\n"
1705 " color.rgb += myhvec3(texture2D(Texture_Bloom, BloomTexCoord));\n"
1707 " gl_FragColor = vec4(color);\n"
1710 "#endif // FRAGMENT_SHADER\n"
1713 void R_RenderScene(void);
1715 void R_Bloom_StartFrame(void)
1717 int bloomtexturewidth, bloomtextureheight, screentexturewidth, screentextureheight;
1719 // set bloomwidth and bloomheight to the bloom resolution that will be
1720 // used (often less than the screen resolution for faster rendering)
1721 r_bloomstate.bloomwidth = bound(1, r_bloom_resolution.integer, r_view.width);
1722 r_bloomstate.bloomheight = r_bloomstate.bloomwidth * r_view.height / r_view.width;
1723 r_bloomstate.bloomheight = bound(1, r_bloomstate.bloomheight, r_view.height);
1725 // calculate desired texture sizes
1726 if (gl_support_arb_texture_non_power_of_two)
1728 screentexturewidth = r_view.width;
1729 screentextureheight = r_view.height;
1730 bloomtexturewidth = r_bloomstate.bloomwidth;
1731 bloomtextureheight = r_bloomstate.bloomheight;
1735 for (screentexturewidth = 1;screentexturewidth < vid.width ;screentexturewidth *= 2);
1736 for (screentextureheight = 1;screentextureheight < vid.height ;screentextureheight *= 2);
1737 for (bloomtexturewidth = 1;bloomtexturewidth < r_bloomstate.bloomwidth ;bloomtexturewidth *= 2);
1738 for (bloomtextureheight = 1;bloomtextureheight < r_bloomstate.bloomheight;bloomtextureheight *= 2);
1743 screentexturewidth = screentextureheight = 0;
1745 else if (r_bloom.integer)
1750 screentexturewidth = screentextureheight = 0;
1751 bloomtexturewidth = bloomtextureheight = 0;
1754 if ((!bloomtexturewidth && !bloomtextureheight) || r_bloom_resolution.integer < 4 || r_bloom_blur.value < 1 || r_bloom_blur.value >= 512 || screentexturewidth > gl_max_texture_size || screentextureheight > gl_max_texture_size || bloomtexturewidth > gl_max_texture_size || bloomtextureheight > gl_max_texture_size)
1756 // can't use bloom if the parameters are too weird
1757 // can't use bloom if the card does not support the texture size
1758 if (r_bloomstate.texture_screen)
1759 R_FreeTexture(r_bloomstate.texture_screen);
1760 if (r_bloomstate.texture_bloom)
1761 R_FreeTexture(r_bloomstate.texture_bloom);
1762 memset(&r_bloomstate, 0, sizeof(r_bloomstate));
1766 r_bloomstate.enabled = true;
1767 r_bloomstate.hdr = r_hdr.integer != 0;
1769 // allocate textures as needed
1770 if (r_bloomstate.screentexturewidth != screentexturewidth || r_bloomstate.screentextureheight != screentextureheight)
1772 if (r_bloomstate.texture_screen)
1773 R_FreeTexture(r_bloomstate.texture_screen);
1774 r_bloomstate.texture_screen = NULL;
1775 r_bloomstate.screentexturewidth = screentexturewidth;
1776 r_bloomstate.screentextureheight = screentextureheight;
1777 if (r_bloomstate.screentexturewidth && r_bloomstate.screentextureheight)
1778 r_bloomstate.texture_screen = R_LoadTexture2D(r_main_texturepool, "screen", r_bloomstate.screentexturewidth, r_bloomstate.screentextureheight, NULL, TEXTYPE_RGBA, TEXF_FORCENEAREST | TEXF_CLAMP | TEXF_ALWAYSPRECACHE, NULL);
1780 if (r_bloomstate.bloomtexturewidth != bloomtexturewidth || r_bloomstate.bloomtextureheight != bloomtextureheight)
1782 if (r_bloomstate.texture_bloom)
1783 R_FreeTexture(r_bloomstate.texture_bloom);
1784 r_bloomstate.texture_bloom = NULL;
1785 r_bloomstate.bloomtexturewidth = bloomtexturewidth;
1786 r_bloomstate.bloomtextureheight = bloomtextureheight;
1787 if (r_bloomstate.bloomtexturewidth && r_bloomstate.bloomtextureheight)
1788 r_bloomstate.texture_bloom = R_LoadTexture2D(r_main_texturepool, "bloom", r_bloomstate.bloomtexturewidth, r_bloomstate.bloomtextureheight, NULL, TEXTYPE_RGBA, TEXF_FORCELINEAR | TEXF_CLAMP | TEXF_ALWAYSPRECACHE, NULL);
1791 // set up a texcoord array for the full resolution screen image
1792 // (we have to keep this around to copy back during final render)
1793 r_bloomstate.screentexcoord2f[0] = 0;
1794 r_bloomstate.screentexcoord2f[1] = (float)r_view.height / (float)r_bloomstate.screentextureheight;
1795 r_bloomstate.screentexcoord2f[2] = (float)r_view.width / (float)r_bloomstate.screentexturewidth;
1796 r_bloomstate.screentexcoord2f[3] = (float)r_view.height / (float)r_bloomstate.screentextureheight;
1797 r_bloomstate.screentexcoord2f[4] = (float)r_view.width / (float)r_bloomstate.screentexturewidth;
1798 r_bloomstate.screentexcoord2f[5] = 0;
1799 r_bloomstate.screentexcoord2f[6] = 0;
1800 r_bloomstate.screentexcoord2f[7] = 0;
1802 // set up a texcoord array for the reduced resolution bloom image
1803 // (which will be additive blended over the screen image)
1804 r_bloomstate.bloomtexcoord2f[0] = 0;
1805 r_bloomstate.bloomtexcoord2f[1] = (float)r_bloomstate.bloomheight / (float)r_bloomstate.bloomtextureheight;
1806 r_bloomstate.bloomtexcoord2f[2] = (float)r_bloomstate.bloomwidth / (float)r_bloomstate.bloomtexturewidth;
1807 r_bloomstate.bloomtexcoord2f[3] = (float)r_bloomstate.bloomheight / (float)r_bloomstate.bloomtextureheight;
1808 r_bloomstate.bloomtexcoord2f[4] = (float)r_bloomstate.bloomwidth / (float)r_bloomstate.bloomtexturewidth;
1809 r_bloomstate.bloomtexcoord2f[5] = 0;
1810 r_bloomstate.bloomtexcoord2f[6] = 0;
1811 r_bloomstate.bloomtexcoord2f[7] = 0;
1814 void R_Bloom_CopyScreenTexture(float colorscale)
1816 r_refdef.stats.bloom++;
1818 R_ResetViewRendering2D();
1819 R_Mesh_VertexPointer(r_screenvertex3f, 0, 0);
1820 R_Mesh_ColorPointer(NULL, 0, 0);
1821 R_Mesh_TexCoordPointer(0, 2, r_bloomstate.screentexcoord2f, 0, 0);
1822 R_Mesh_TexBind(0, R_GetTexture(r_bloomstate.texture_screen));
1824 // copy view into the screen texture
1825 GL_ActiveTexture(0);
1827 qglCopyTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, r_view.x, vid.height - (r_view.y + r_view.height), r_view.width, r_view.height);CHECKGLERROR
1828 r_refdef.stats.bloom_copypixels += r_view.width * r_view.height;
1830 // now scale it down to the bloom texture size
1832 qglViewport(r_view.x, vid.height - (r_view.y + r_bloomstate.bloomheight), r_bloomstate.bloomwidth, r_bloomstate.bloomheight);CHECKGLERROR
1833 GL_BlendFunc(GL_ONE, GL_ZERO);
1834 GL_Color(colorscale, colorscale, colorscale, 1);
1835 // TODO: optimize with multitexture or GLSL
1836 R_Mesh_Draw(0, 4, 2, polygonelements, 0, 0);
1837 r_refdef.stats.bloom_drawpixels += r_bloomstate.bloomwidth * r_bloomstate.bloomheight;
1839 // we now have a bloom image in the framebuffer
1840 // copy it into the bloom image texture for later processing
1841 R_Mesh_TexBind(0, R_GetTexture(r_bloomstate.texture_bloom));
1842 GL_ActiveTexture(0);
1844 qglCopyTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, r_view.x, vid.height - (r_view.y + r_bloomstate.bloomheight), r_bloomstate.bloomwidth, r_bloomstate.bloomheight);CHECKGLERROR
1845 r_refdef.stats.bloom_copypixels += r_bloomstate.bloomwidth * r_bloomstate.bloomheight;
1848 void R_Bloom_CopyHDRTexture(void)
1850 R_Mesh_TexBind(0, R_GetTexture(r_bloomstate.texture_bloom));
1851 GL_ActiveTexture(0);
1853 qglCopyTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, r_view.x, vid.height - (r_view.y + r_view.height), r_view.width, r_view.height);CHECKGLERROR
1854 r_refdef.stats.bloom_copypixels += r_view.width * r_view.height;
1857 void R_Bloom_MakeTexture(void)
1860 float xoffset, yoffset, r, brighten;
1862 r_refdef.stats.bloom++;
1864 R_ResetViewRendering2D();
1865 R_Mesh_VertexPointer(r_screenvertex3f, 0, 0);
1866 R_Mesh_ColorPointer(NULL, 0, 0);
1868 // we have a bloom image in the framebuffer
1870 qglViewport(r_view.x, vid.height - (r_view.y + r_bloomstate.bloomheight), r_bloomstate.bloomwidth, r_bloomstate.bloomheight);CHECKGLERROR
1872 for (x = 1;x < r_bloom_colorexponent.value;)
1875 r = bound(0, r_bloom_colorexponent.value / x, 1);
1876 GL_BlendFunc(GL_DST_COLOR, GL_SRC_COLOR);
1877 GL_Color(r, r, r, 1);
1878 R_Mesh_TexBind(0, R_GetTexture(r_bloomstate.texture_bloom));
1879 R_Mesh_TexCoordPointer(0, 2, r_bloomstate.bloomtexcoord2f, 0, 0);
1880 R_Mesh_Draw(0, 4, 2, polygonelements, 0, 0);
1881 r_refdef.stats.bloom_drawpixels += r_bloomstate.bloomwidth * r_bloomstate.bloomheight;
1883 // copy the vertically blurred bloom view to a texture
1884 GL_ActiveTexture(0);
1886 qglCopyTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, r_view.x, vid.height - (r_view.y + r_bloomstate.bloomheight), r_bloomstate.bloomwidth, r_bloomstate.bloomheight);CHECKGLERROR
1887 r_refdef.stats.bloom_copypixels += r_bloomstate.bloomwidth * r_bloomstate.bloomheight;
1890 range = r_bloom_blur.integer * r_bloomstate.bloomwidth / 320;
1891 brighten = r_bloom_brighten.value;
1893 brighten *= r_hdr_range.value;
1894 R_Mesh_TexBind(0, R_GetTexture(r_bloomstate.texture_bloom));
1895 R_Mesh_TexCoordPointer(0, 2, r_bloomstate.offsettexcoord2f, 0, 0);
1897 for (dir = 0;dir < 2;dir++)
1899 // blend on at multiple vertical offsets to achieve a vertical blur
1900 // TODO: do offset blends using GLSL
1901 GL_BlendFunc(GL_ONE, GL_ZERO);
1902 for (x = -range;x <= range;x++)
1904 if (!dir){xoffset = 0;yoffset = x;}
1905 else {xoffset = x;yoffset = 0;}
1906 xoffset /= (float)r_bloomstate.bloomtexturewidth;
1907 yoffset /= (float)r_bloomstate.bloomtextureheight;
1908 // compute a texcoord array with the specified x and y offset
1909 r_bloomstate.offsettexcoord2f[0] = xoffset+0;
1910 r_bloomstate.offsettexcoord2f[1] = yoffset+(float)r_bloomstate.bloomheight / (float)r_bloomstate.bloomtextureheight;
1911 r_bloomstate.offsettexcoord2f[2] = xoffset+(float)r_bloomstate.bloomwidth / (float)r_bloomstate.bloomtexturewidth;
1912 r_bloomstate.offsettexcoord2f[3] = yoffset+(float)r_bloomstate.bloomheight / (float)r_bloomstate.bloomtextureheight;
1913 r_bloomstate.offsettexcoord2f[4] = xoffset+(float)r_bloomstate.bloomwidth / (float)r_bloomstate.bloomtexturewidth;
1914 r_bloomstate.offsettexcoord2f[5] = yoffset+0;
1915 r_bloomstate.offsettexcoord2f[6] = xoffset+0;
1916 r_bloomstate.offsettexcoord2f[7] = yoffset+0;
1917 // this r value looks like a 'dot' particle, fading sharply to
1918 // black at the edges
1919 // (probably not realistic but looks good enough)
1920 //r = ((range*range+1)/((float)(x*x+1)))/(range*2+1);
1921 //r = (dir ? 1.0f : brighten)/(range*2+1);
1922 r = (dir ? 1.0f : brighten)/(range*2+1)*(1 - x*x/(float)(range*range));
1923 GL_Color(r, r, r, 1);
1924 R_Mesh_Draw(0, 4, 2, polygonelements, 0, 0);
1925 r_refdef.stats.bloom_drawpixels += r_bloomstate.bloomwidth * r_bloomstate.bloomheight;
1926 GL_BlendFunc(GL_ONE, GL_ONE);
1929 // copy the vertically blurred bloom view to a texture
1930 GL_ActiveTexture(0);
1932 qglCopyTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, r_view.x, vid.height - (r_view.y + r_bloomstate.bloomheight), r_bloomstate.bloomwidth, r_bloomstate.bloomheight);CHECKGLERROR
1933 r_refdef.stats.bloom_copypixels += r_bloomstate.bloomwidth * r_bloomstate.bloomheight;
1936 // apply subtract last
1937 // (just like it would be in a GLSL shader)
1938 if (r_bloom_colorsubtract.value > 0 && gl_support_ext_blend_subtract)
1940 GL_BlendFunc(GL_ONE, GL_ZERO);
1941 R_Mesh_TexBind(0, R_GetTexture(r_bloomstate.texture_bloom));
1942 R_Mesh_TexCoordPointer(0, 2, r_bloomstate.bloomtexcoord2f, 0, 0);
1943 GL_Color(1, 1, 1, 1);
1944 R_Mesh_Draw(0, 4, 2, polygonelements, 0, 0);
1945 r_refdef.stats.bloom_drawpixels += r_bloomstate.bloomwidth * r_bloomstate.bloomheight;
1947 GL_BlendFunc(GL_ONE, GL_ONE);
1948 qglBlendEquationEXT(GL_FUNC_REVERSE_SUBTRACT_EXT);
1949 R_Mesh_TexBind(0, R_GetTexture(r_texture_white));
1950 R_Mesh_TexCoordPointer(0, 2, r_bloomstate.bloomtexcoord2f, 0, 0);
1951 GL_Color(r_bloom_colorsubtract.value, r_bloom_colorsubtract.value, r_bloom_colorsubtract.value, 1);
1952 R_Mesh_Draw(0, 4, 2, polygonelements, 0, 0);
1953 r_refdef.stats.bloom_drawpixels += r_bloomstate.bloomwidth * r_bloomstate.bloomheight;
1954 qglBlendEquationEXT(GL_FUNC_ADD_EXT);
1956 // copy the darkened bloom view to a texture
1957 R_Mesh_TexBind(0, R_GetTexture(r_bloomstate.texture_bloom));
1958 GL_ActiveTexture(0);
1960 qglCopyTexSubImage2D(GL_TEXTURE_2D, 0, 0, 0, r_view.x, vid.height - (r_view.y + r_bloomstate.bloomheight), r_bloomstate.bloomwidth, r_bloomstate.bloomheight);CHECKGLERROR
1961 r_refdef.stats.bloom_copypixels += r_bloomstate.bloomwidth * r_bloomstate.bloomheight;
1965 void R_HDR_RenderBloomTexture(void)
1967 int oldwidth, oldheight;
1969 oldwidth = r_view.width;
1970 oldheight = r_view.height;
1971 r_view.width = r_bloomstate.bloomwidth;
1972 r_view.height = r_bloomstate.bloomheight;
1974 // TODO: support GL_EXT_framebuffer_object rather than reusing the framebuffer? it might improve SLI performance.
1975 // TODO: add exposure compensation features
1976 // TODO: add fp16 framebuffer support
1978 r_view.colorscale = r_bloom_colorscale.value * r_hdr_scenebrightness.value;
1980 r_view.colorscale /= r_hdr_range.value;
1983 R_ResetViewRendering2D();
1985 R_Bloom_CopyHDRTexture();
1986 R_Bloom_MakeTexture();
1988 R_ResetViewRendering3D();
1991 if (r_timereport_active)
1992 R_TimeReport("clear");
1995 // restore the view settings
1996 r_view.width = oldwidth;
1997 r_view.height = oldheight;
2000 static void R_BlendView(void)
2002 if (r_bloomstate.enabled && r_bloomstate.hdr)
2004 // render high dynamic range bloom effect
2005 // the bloom texture was made earlier this render, so we just need to
2006 // blend it onto the screen...
2007 R_ResetViewRendering2D();
2008 R_Mesh_VertexPointer(r_screenvertex3f, 0, 0);
2009 R_Mesh_ColorPointer(NULL, 0, 0);
2010 GL_Color(1, 1, 1, 1);
2011 GL_BlendFunc(GL_ONE, GL_ONE);
2012 R_Mesh_TexBind(0, R_GetTexture(r_bloomstate.texture_bloom));
2013 R_Mesh_TexCoordPointer(0, 2, r_bloomstate.bloomtexcoord2f, 0, 0);
2014 R_Mesh_Draw(0, 4, 2, polygonelements, 0, 0);
2015 r_refdef.stats.bloom_drawpixels += r_view.width * r_view.height;
2017 else if (r_bloomstate.enabled)
2019 // render simple bloom effect
2020 // copy the screen and shrink it and darken it for the bloom process
2021 R_Bloom_CopyScreenTexture(r_bloom_colorscale.value);
2022 // make the bloom texture
2023 R_Bloom_MakeTexture();
2024 // put the original screen image back in place and blend the bloom
2026 R_ResetViewRendering2D();
2027 R_Mesh_VertexPointer(r_screenvertex3f, 0, 0);
2028 R_Mesh_ColorPointer(NULL, 0, 0);
2029 GL_Color(1, 1, 1, 1);
2030 GL_BlendFunc(GL_ONE, GL_ZERO);
2031 // do both in one pass if possible
2032 R_Mesh_TexBind(0, R_GetTexture(r_bloomstate.texture_bloom));
2033 R_Mesh_TexCoordPointer(0, 2, r_bloomstate.bloomtexcoord2f, 0, 0);
2034 if (r_textureunits.integer >= 2 && gl_combine.integer)
2036 R_Mesh_TexCombine(1, GL_ADD, GL_ADD, 1, 1);
2037 R_Mesh_TexBind(1, R_GetTexture(r_bloomstate.texture_screen));
2038 R_Mesh_TexCoordPointer(1, 2, r_bloomstate.screentexcoord2f, 0, 0);
2042 R_Mesh_Draw(0, 4, 2, polygonelements, 0, 0);
2043 r_refdef.stats.bloom_drawpixels += r_view.width * r_view.height;
2044 // now blend on the bloom texture
2045 GL_BlendFunc(GL_ONE, GL_ONE);
2046 R_Mesh_TexBind(0, R_GetTexture(r_bloomstate.texture_screen));
2047 R_Mesh_TexCoordPointer(0, 2, r_bloomstate.screentexcoord2f, 0, 0);
2049 R_Mesh_Draw(0, 4, 2, polygonelements, 0, 0);
2050 r_refdef.stats.bloom_drawpixels += r_view.width * r_view.height;
2052 if (r_refdef.viewblend[3] >= (1.0f / 256.0f))
2054 // apply a color tint to the whole view
2055 R_ResetViewRendering2D();
2056 R_Mesh_VertexPointer(r_screenvertex3f, 0, 0);
2057 R_Mesh_ColorPointer(NULL, 0, 0);
2058 GL_BlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
2059 GL_Color(r_refdef.viewblend[0], r_refdef.viewblend[1], r_refdef.viewblend[2], r_refdef.viewblend[3]);
2060 R_Mesh_Draw(0, 4, 2, polygonelements, 0, 0);
2064 void R_RenderScene(void);
2066 matrix4x4_t r_waterscrollmatrix;
2068 void R_UpdateVariables(void)
2072 r_refdef.farclip = 4096;
2073 if (r_refdef.worldmodel)
2074 r_refdef.farclip += VectorDistance(r_refdef.worldmodel->normalmins, r_refdef.worldmodel->normalmaxs);
2075 r_refdef.nearclip = bound (0.001f, r_nearclip.value, r_refdef.farclip - 1.0f);
2077 r_refdef.polygonfactor = 0;
2078 r_refdef.polygonoffset = 0;
2079 r_refdef.shadowpolygonfactor = r_refdef.polygonfactor + r_shadow_shadow_polygonfactor.value;
2080 r_refdef.shadowpolygonoffset = r_refdef.polygonoffset + r_shadow_shadow_polygonoffset.value;
2082 r_refdef.rtworld = r_shadow_realtime_world.integer;
2083 r_refdef.rtworldshadows = r_shadow_realtime_world_shadows.integer && gl_stencil;
2084 r_refdef.rtdlight = (r_shadow_realtime_world.integer || r_shadow_realtime_dlight.integer) && !gl_flashblend.integer && r_dynamic.integer;
2085 r_refdef.rtdlightshadows = r_refdef.rtdlight && (r_refdef.rtworld ? r_shadow_realtime_world_dlightshadows.integer : r_shadow_realtime_dlight_shadows.integer) && gl_stencil;
2086 r_refdef.lightmapintensity = r_refdef.rtworld ? r_shadow_realtime_world_lightmaps.value : 1;
2087 if (r_showsurfaces.integer)
2089 r_refdef.rtworld = false;
2090 r_refdef.rtworldshadows = false;
2091 r_refdef.rtdlight = false;
2092 r_refdef.rtdlightshadows = false;
2093 r_refdef.lightmapintensity = 0;
2096 if (gamemode == GAME_NEHAHRA)
2098 if (gl_fogenable.integer)
2100 r_refdef.oldgl_fogenable = true;
2101 r_refdef.fog_density = gl_fogdensity.value;
2102 r_refdef.fog_red = gl_fogred.value;
2103 r_refdef.fog_green = gl_foggreen.value;
2104 r_refdef.fog_blue = gl_fogblue.value;
2106 else if (r_refdef.oldgl_fogenable)
2108 r_refdef.oldgl_fogenable = false;
2109 r_refdef.fog_density = 0;
2110 r_refdef.fog_red = 0;
2111 r_refdef.fog_green = 0;
2112 r_refdef.fog_blue = 0;
2115 if (r_refdef.fog_density)
2117 r_refdef.fogcolor[0] = bound(0.0f, r_refdef.fog_red , 1.0f);
2118 r_refdef.fogcolor[1] = bound(0.0f, r_refdef.fog_green, 1.0f);
2119 r_refdef.fogcolor[2] = bound(0.0f, r_refdef.fog_blue , 1.0f);
2121 if (r_refdef.fog_density)
2123 r_refdef.fogenabled = true;
2124 // this is the point where the fog reaches 0.9986 alpha, which we
2125 // consider a good enough cutoff point for the texture
2126 // (0.9986 * 256 == 255.6)
2127 r_refdef.fogrange = 400 / r_refdef.fog_density;
2128 r_refdef.fograngerecip = 1.0f / r_refdef.fogrange;
2129 r_refdef.fogtabledistmultiplier = FOGTABLEWIDTH * r_refdef.fograngerecip;
2130 // fog color was already set
2133 r_refdef.fogenabled = false;
2141 void R_RenderView(void)
2143 if (!r_refdef.entities/* || !r_refdef.worldmodel*/)
2144 return; //Host_Error ("R_RenderView: NULL worldmodel");
2146 R_Shadow_UpdateWorldLightSelection();
2149 if (r_timereport_active)
2150 R_TimeReport("setup");
2153 if (r_timereport_active)
2154 R_TimeReport("visibility");
2156 R_ResetViewRendering3D();
2159 if (r_timereport_active)
2160 R_TimeReport("clear");
2162 R_Bloom_StartFrame();
2164 // this produces a bloom texture to be used in R_BlendView() later
2166 R_HDR_RenderBloomTexture();
2168 r_view.colorscale = r_hdr_scenebrightness.value;
2172 if (r_timereport_active)
2173 R_TimeReport("blendview");
2175 GL_Scissor(0, 0, vid.width, vid.height);
2176 GL_ScissorTest(false);
2180 extern void R_DrawLightningBeams (void);
2181 extern void VM_CL_AddPolygonsToMeshQueue (void);
2182 extern void R_DrawPortals (void);
2183 extern cvar_t cl_locs_show;
2184 static void R_DrawLocs(void);
2185 void R_RenderScene(void)
2187 // don't let sound skip if going slow
2188 if (r_refdef.extraupdate)
2191 R_ResetViewRendering3D();
2193 R_MeshQueue_BeginScene();
2197 Matrix4x4_CreateTranslate(&r_waterscrollmatrix, sin(r_refdef.time) * 0.025 * r_waterscroll.value, sin(r_refdef.time * 0.8f) * 0.025 * r_waterscroll.value, 0);
2199 if (cl.csqc_vidvars.drawworld)
2201 // don't let sound skip if going slow
2202 if (r_refdef.extraupdate)
2205 if (r_refdef.worldmodel && r_refdef.worldmodel->DrawSky)
2207 r_refdef.worldmodel->DrawSky(r_refdef.worldentity);
2208 if (r_timereport_active)
2209 R_TimeReport("worldsky");
2212 if (R_DrawBrushModelsSky() && r_timereport_active)
2213 R_TimeReport("bmodelsky");
2215 if (r_refdef.worldmodel && r_refdef.worldmodel->Draw)
2217 r_refdef.worldmodel->Draw(r_refdef.worldentity);
2218 if (r_timereport_active)
2219 R_TimeReport("world");
2223 // don't let sound skip if going slow
2224 if (r_refdef.extraupdate)
2228 if (r_timereport_active)
2229 R_TimeReport("models");
2231 // don't let sound skip if going slow
2232 if (r_refdef.extraupdate)
2235 if (r_shadows.integer > 0 && r_refdef.lightmapintensity > 0)
2237 R_DrawModelShadows();
2239 R_ResetViewRendering3D();
2241 // don't let sound skip if going slow
2242 if (r_refdef.extraupdate)
2246 R_ShadowVolumeLighting(false);
2247 if (r_timereport_active)
2248 R_TimeReport("rtlights");
2250 // don't let sound skip if going slow
2251 if (r_refdef.extraupdate)
2254 if (cl.csqc_vidvars.drawworld)
2256 R_DrawLightningBeams();
2257 if (r_timereport_active)
2258 R_TimeReport("lightning");
2261 if (r_timereport_active)
2262 R_TimeReport("particles");
2265 if (r_timereport_active)
2266 R_TimeReport("explosions");
2269 if (gl_support_fragment_shader)
2271 qglUseProgramObjectARB(0);CHECKGLERROR
2273 VM_CL_AddPolygonsToMeshQueue();
2275 if (cl_locs_show.integer)
2278 if (r_timereport_active)
2279 R_TimeReport("showlocs");
2282 if (r_drawportals.integer)
2285 if (r_timereport_active)
2286 R_TimeReport("portals");
2289 if (gl_support_fragment_shader)
2291 qglUseProgramObjectARB(0);CHECKGLERROR
2293 R_MeshQueue_RenderTransparent();
2294 if (r_timereport_active)
2295 R_TimeReport("drawtrans");
2297 if (gl_support_fragment_shader)
2299 qglUseProgramObjectARB(0);CHECKGLERROR
2302 if (cl.csqc_vidvars.drawworld)
2305 if (r_timereport_active)
2306 R_TimeReport("coronas");
2309 // don't let sound skip if going slow
2310 if (r_refdef.extraupdate)
2313 R_ResetViewRendering2D();
2317 void R_DrawBBoxMesh(vec3_t mins, vec3_t maxs, float cr, float cg, float cb, float ca)
2320 float *v, *c, f1, f2, diff[3], vertex3f[8*3], color4f[8*4];
2321 GL_BlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
2322 GL_DepthMask(false);
2324 R_Mesh_Matrix(&identitymatrix);
2326 vertex3f[ 0] = mins[0];vertex3f[ 1] = mins[1];vertex3f[ 2] = mins[2];
2327 vertex3f[ 3] = maxs[0];vertex3f[ 4] = mins[1];vertex3f[ 5] = mins[2];
2328 vertex3f[ 6] = mins[0];vertex3f[ 7] = maxs[1];vertex3f[ 8] = mins[2];
2329 vertex3f[ 9] = maxs[0];vertex3f[10] = maxs[1];vertex3f[11] = mins[2];
2330 vertex3f[12] = mins[0];vertex3f[13] = mins[1];vertex3f[14] = maxs[2];
2331 vertex3f[15] = maxs[0];vertex3f[16] = mins[1];vertex3f[17] = maxs[2];
2332 vertex3f[18] = mins[0];vertex3f[19] = maxs[1];vertex3f[20] = maxs[2];
2333 vertex3f[21] = maxs[0];vertex3f[22] = maxs[1];vertex3f[23] = maxs[2];
2334 R_FillColors(color, 8, cr, cg, cb, ca);
2335 if (r_refdef.fogenabled)
2337 for (i = 0, v = vertex, c = color;i < 8;i++, v += 4, c += 4)
2339 f2 = VERTEXFOGTABLE(VectorDistance(v, r_view.origin));
2341 c[0] = c[0] * f1 + r_refdef.fogcolor[0] * f2;
2342 c[1] = c[1] * f1 + r_refdef.fogcolor[1] * f2;
2343 c[2] = c[2] * f1 + r_refdef.fogcolor[2] * f2;
2346 R_Mesh_VertexPointer(vertex3f, 0, 0);
2347 R_Mesh_ColorPointer(color, 0, 0);
2348 R_Mesh_ResetTextureState();
2349 R_Mesh_Draw(8, 12, 0, 0);
2353 int nomodelelements[24] =
2365 float nomodelvertex3f[6*3] =
2375 float nomodelcolor4f[6*4] =
2377 0.0f, 0.0f, 0.5f, 1.0f,
2378 0.0f, 0.0f, 0.5f, 1.0f,
2379 0.0f, 0.5f, 0.0f, 1.0f,
2380 0.0f, 0.5f, 0.0f, 1.0f,
2381 0.5f, 0.0f, 0.0f, 1.0f,
2382 0.5f, 0.0f, 0.0f, 1.0f
2385 void R_DrawNoModel_TransparentCallback(const entity_render_t *ent, const rtlight_t *rtlight, int numsurfaces, int *surfacelist)
2390 // this is only called once per entity so numsurfaces is always 1, and
2391 // surfacelist is always {0}, so this code does not handle batches
2392 R_Mesh_Matrix(&ent->matrix);
2394 if (ent->flags & EF_ADDITIVE)
2396 GL_BlendFunc(GL_SRC_ALPHA, GL_ONE);
2397 GL_DepthMask(false);
2399 else if (ent->alpha < 1)
2401 GL_BlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
2402 GL_DepthMask(false);
2406 GL_BlendFunc(GL_ONE, GL_ZERO);
2409 GL_DepthTest(!(ent->effects & EF_NODEPTHTEST));
2410 GL_CullFace((ent->effects & EF_DOUBLESIDED) ? GL_NONE : GL_FRONT); // quake is backwards, this culls back faces
2411 R_Mesh_VertexPointer(nomodelvertex3f, 0, 0);
2412 if (r_refdef.fogenabled)
2415 memcpy(color4f, nomodelcolor4f, sizeof(float[6*4]));
2416 R_Mesh_ColorPointer(color4f, 0, 0);
2417 Matrix4x4_OriginFromMatrix(&ent->matrix, org);
2418 f2 = VERTEXFOGTABLE(VectorDistance(org, r_view.origin));
2420 for (i = 0, c = color4f;i < 6;i++, c += 4)
2422 c[0] = (c[0] * f1 + r_refdef.fogcolor[0] * f2);
2423 c[1] = (c[1] * f1 + r_refdef.fogcolor[1] * f2);
2424 c[2] = (c[2] * f1 + r_refdef.fogcolor[2] * f2);
2428 else if (ent->alpha != 1)
2430 memcpy(color4f, nomodelcolor4f, sizeof(float[6*4]));
2431 R_Mesh_ColorPointer(color4f, 0, 0);
2432 for (i = 0, c = color4f;i < 6;i++, c += 4)
2436 R_Mesh_ColorPointer(nomodelcolor4f, 0, 0);
2437 R_Mesh_ResetTextureState();
2438 R_Mesh_Draw(0, 6, 8, nomodelelements, 0, 0);
2441 void R_DrawNoModel(entity_render_t *ent)
2444 Matrix4x4_OriginFromMatrix(&ent->matrix, org);
2445 //if ((ent->effects & EF_ADDITIVE) || (ent->alpha < 1))
2446 R_MeshQueue_AddTransparent(ent->effects & EF_NODEPTHTEST ? r_view.origin : org, R_DrawNoModel_TransparentCallback, ent, 0, r_shadow_rtlight);
2448 // R_DrawNoModelCallback(ent, 0);
2451 void R_CalcBeam_Vertex3f (float *vert, const vec3_t org1, const vec3_t org2, float width)
2453 vec3_t right1, right2, diff, normal;
2455 VectorSubtract (org2, org1, normal);
2457 // calculate 'right' vector for start
2458 VectorSubtract (r_view.origin, org1, diff);
2459 CrossProduct (normal, diff, right1);
2460 VectorNormalize (right1);
2462 // calculate 'right' vector for end
2463 VectorSubtract (r_view.origin, org2, diff);
2464 CrossProduct (normal, diff, right2);
2465 VectorNormalize (right2);
2467 vert[ 0] = org1[0] + width * right1[0];
2468 vert[ 1] = org1[1] + width * right1[1];
2469 vert[ 2] = org1[2] + width * right1[2];
2470 vert[ 3] = org1[0] - width * right1[0];
2471 vert[ 4] = org1[1] - width * right1[1];
2472 vert[ 5] = org1[2] - width * right1[2];
2473 vert[ 6] = org2[0] - width * right2[0];
2474 vert[ 7] = org2[1] - width * right2[1];
2475 vert[ 8] = org2[2] - width * right2[2];
2476 vert[ 9] = org2[0] + width * right2[0];
2477 vert[10] = org2[1] + width * right2[1];
2478 vert[11] = org2[2] + width * right2[2];
2481 float spritetexcoord2f[4*2] = {0, 1, 0, 0, 1, 0, 1, 1};
2483 void R_DrawSprite(int blendfunc1, int blendfunc2, rtexture_t *texture, rtexture_t *fogtexture, int depthdisable, const vec3_t origin, const vec3_t left, const vec3_t up, float scalex1, float scalex2, float scaley1, float scaley2, float cr, float cg, float cb, float ca)
2485 float fog = 0.0f, ifog;
2488 if (r_refdef.fogenabled)
2489 fog = VERTEXFOGTABLE(VectorDistance(origin, r_view.origin));
2492 R_Mesh_Matrix(&identitymatrix);
2493 GL_BlendFunc(blendfunc1, blendfunc2);
2494 GL_DepthMask(false);
2495 GL_DepthTest(!depthdisable);
2497 vertex3f[ 0] = origin[0] + left[0] * scalex2 + up[0] * scaley1;
2498 vertex3f[ 1] = origin[1] + left[1] * scalex2 + up[1] * scaley1;
2499 vertex3f[ 2] = origin[2] + left[2] * scalex2 + up[2] * scaley1;
2500 vertex3f[ 3] = origin[0] + left[0] * scalex2 + up[0] * scaley2;
2501 vertex3f[ 4] = origin[1] + left[1] * scalex2 + up[1] * scaley2;
2502 vertex3f[ 5] = origin[2] + left[2] * scalex2 + up[2] * scaley2;
2503 vertex3f[ 6] = origin[0] + left[0] * scalex1 + up[0] * scaley2;
2504 vertex3f[ 7] = origin[1] + left[1] * scalex1 + up[1] * scaley2;
2505 vertex3f[ 8] = origin[2] + left[2] * scalex1 + up[2] * scaley2;
2506 vertex3f[ 9] = origin[0] + left[0] * scalex1 + up[0] * scaley1;
2507 vertex3f[10] = origin[1] + left[1] * scalex1 + up[1] * scaley1;
2508 vertex3f[11] = origin[2] + left[2] * scalex1 + up[2] * scaley1;
2510 R_Mesh_VertexPointer(vertex3f, 0, 0);
2511 R_Mesh_ColorPointer(NULL, 0, 0);
2512 R_Mesh_ResetTextureState();
2513 R_Mesh_TexBind(0, R_GetTexture(texture));
2514 R_Mesh_TexCoordPointer(0, 2, spritetexcoord2f, 0, 0);
2515 // FIXME: fixed function path can't properly handle r_view.colorscale > 1
2516 GL_Color(cr * ifog * r_view.colorscale, cg * ifog * r_view.colorscale, cb * ifog * r_view.colorscale, ca);
2517 R_Mesh_Draw(0, 4, 2, polygonelements, 0, 0);
2519 if (blendfunc2 == GL_ONE_MINUS_SRC_ALPHA)
2521 R_Mesh_TexBind(0, R_GetTexture(fogtexture));
2522 GL_BlendFunc(blendfunc1, GL_ONE);
2523 GL_Color(r_refdef.fogcolor[0] * fog * r_view.colorscale, r_refdef.fogcolor[1] * fog * r_view.colorscale, r_refdef.fogcolor[2] * fog * r_view.colorscale, ca);
2524 R_Mesh_Draw(0, 4, 2, polygonelements, 0, 0);
2528 int R_Mesh_AddVertex(rmesh_t *mesh, float x, float y, float z)
2533 VectorSet(v, x, y, z);
2534 for (i = 0, vertex3f = mesh->vertex3f;i < mesh->numvertices;i++, vertex3f += 3)
2535 if (VectorDistance2(v, vertex3f) < mesh->epsilon2)
2537 if (i == mesh->numvertices)
2539 if (mesh->numvertices < mesh->maxvertices)
2541 VectorCopy(v, vertex3f);
2542 mesh->numvertices++;
2544 return mesh->numvertices;
2550 void R_Mesh_AddPolygon3f(rmesh_t *mesh, int numvertices, float *vertex3f)
2554 element[0] = R_Mesh_AddVertex(mesh, vertex3f[0], vertex3f[1], vertex3f[2]);vertex3f += 3;
2555 element[1] = R_Mesh_AddVertex(mesh, vertex3f[0], vertex3f[1], vertex3f[2]);vertex3f += 3;
2556 e = mesh->element3i + mesh->numtriangles * 3;
2557 for (i = 0;i < numvertices - 2;i++, vertex3f += 3)
2559 element[2] = R_Mesh_AddVertex(mesh, vertex3f[0], vertex3f[1], vertex3f[2]);
2560 if (mesh->numtriangles < mesh->maxtriangles)
2565 mesh->numtriangles++;
2567 element[1] = element[2];
2571 void R_Mesh_AddPolygon3d(rmesh_t *mesh, int numvertices, double *vertex3d)
2575 element[0] = R_Mesh_AddVertex(mesh, vertex3d[0], vertex3d[1], vertex3d[2]);vertex3d += 3;
2576 element[1] = R_Mesh_AddVertex(mesh, vertex3d[0], vertex3d[1], vertex3d[2]);vertex3d += 3;
2577 e = mesh->element3i + mesh->numtriangles * 3;
2578 for (i = 0;i < numvertices - 2;i++, vertex3d += 3)
2580 element[2] = R_Mesh_AddVertex(mesh, vertex3d[0], vertex3d[1], vertex3d[2]);
2581 if (mesh->numtriangles < mesh->maxtriangles)
2586 mesh->numtriangles++;
2588 element[1] = element[2];
2592 #define R_MESH_PLANE_DIST_EPSILON (1.0 / 32.0)
2593 void R_Mesh_AddBrushMeshFromPlanes(rmesh_t *mesh, int numplanes, mplane_t *planes)
2595 int planenum, planenum2;
2598 mplane_t *plane, *plane2;
2600 double temppoints[2][256*3];
2601 // figure out how large a bounding box we need to properly compute this brush
2603 for (w = 0;w < numplanes;w++)
2604 maxdist = max(maxdist, planes[w].dist);
2605 // now make it large enough to enclose the entire brush, and round it off to a reasonable multiple of 1024
2606 maxdist = floor(maxdist * (4.0 / 1024.0) + 1) * 1024.0;
2607 for (planenum = 0, plane = planes;planenum < numplanes;planenum++, plane++)
2611 PolygonD_QuadForPlane(temppoints[w], plane->normal[0], plane->normal[1], plane->normal[2], plane->dist, maxdist);
2612 for (planenum2 = 0, plane2 = planes;planenum2 < numplanes && tempnumpoints >= 3;planenum2++, plane2++)
2614 if (planenum2 == planenum)
2616 PolygonD_Divide(tempnumpoints, temppoints[w], plane2->normal[0], plane2->normal[1], plane2->normal[2], plane2->dist, R_MESH_PLANE_DIST_EPSILON, 0, NULL, NULL, 256, temppoints[!w], &tempnumpoints, NULL);
2619 if (tempnumpoints < 3)
2621 // generate elements forming a triangle fan for this polygon
2622 R_Mesh_AddPolygon3d(mesh, tempnumpoints, temppoints[w]);
2626 static void R_DrawCollisionBrush(const colbrushf_t *brush)
2629 R_Mesh_VertexPointer(brush->points->v, 0, 0);
2630 i = (int)(((size_t)brush) / sizeof(colbrushf_t));
2631 GL_Color((i & 31) * (1.0f / 32.0f) * r_view.colorscale, ((i >> 5) & 31) * (1.0f / 32.0f) * r_view.colorscale, ((i >> 10) & 31) * (1.0f / 32.0f) * r_view.colorscale, 0.2f);
2632 GL_LockArrays(0, brush->numpoints);
2633 R_Mesh_Draw(0, brush->numpoints, brush->numtriangles, brush->elements, 0, 0);
2634 GL_LockArrays(0, 0);
2637 static void R_DrawCollisionSurface(const entity_render_t *ent, const msurface_t *surface)
2640 if (!surface->num_collisiontriangles)
2642 R_Mesh_VertexPointer(surface->data_collisionvertex3f, 0, 0);
2643 i = (int)(((size_t)surface) / sizeof(msurface_t));
2644 GL_Color((i & 31) * (1.0f / 32.0f) * r_view.colorscale, ((i >> 5) & 31) * (1.0f / 32.0f) * r_view.colorscale, ((i >> 10) & 31) * (1.0f / 32.0f) * r_view.colorscale, 0.2f);
2645 GL_LockArrays(0, surface->num_collisionvertices);
2646 R_Mesh_Draw(0, surface->num_collisionvertices, surface->num_collisiontriangles, surface->data_collisionelement3i, 0, 0);
2647 GL_LockArrays(0, 0);
2650 static void R_Texture_AddLayer(texture_t *t, qboolean depthmask, int blendfunc1, int blendfunc2, texturelayertype_t type, rtexture_t *texture, const matrix4x4_t *matrix, float r, float g, float b, float a)
2652 texturelayer_t *layer;
2653 layer = t->currentlayers + t->currentnumlayers++;
2655 layer->depthmask = depthmask;
2656 layer->blendfunc1 = blendfunc1;
2657 layer->blendfunc2 = blendfunc2;
2658 layer->texture = texture;
2659 layer->texmatrix = *matrix;
2660 layer->color[0] = r * r_view.colorscale;
2661 layer->color[1] = g * r_view.colorscale;
2662 layer->color[2] = b * r_view.colorscale;
2663 layer->color[3] = a;
2666 void R_UpdateTextureInfo(const entity_render_t *ent, texture_t *t)
2668 model_t *model = ent->model;
2670 // switch to an alternate material if this is a q1bsp animated material
2672 texture_t *texture = t;
2673 int s = ent->skinnum;
2674 if ((unsigned int)s >= (unsigned int)model->numskins)
2676 if (model->skinscenes)
2678 if (model->skinscenes[s].framecount > 1)
2679 s = model->skinscenes[s].firstframe + (unsigned int) (r_refdef.time * model->skinscenes[s].framerate) % model->skinscenes[s].framecount;
2681 s = model->skinscenes[s].firstframe;
2684 t = t + s * model->num_surfaces;
2687 // use an alternate animation if the entity's frame is not 0,
2688 // and only if the texture has an alternate animation
2689 if (ent->frame != 0 && t->anim_total[1])
2690 t = t->anim_frames[1][(t->anim_total[1] >= 2) ? ((int)(r_refdef.time * 5.0f) % t->anim_total[1]) : 0];
2692 t = t->anim_frames[0][(t->anim_total[0] >= 2) ? ((int)(r_refdef.time * 5.0f) % t->anim_total[0]) : 0];
2694 texture->currentframe = t;
2697 // pick a new currentskinframe if the material is animated
2698 if (t->numskinframes >= 2)
2699 t->currentskinframe = t->skinframes + ((int)(t->skinframerate * (cl.time - ent->frame2time)) % t->numskinframes);
2700 if (t->backgroundnumskinframes >= 2)
2701 t->backgroundcurrentskinframe = t->backgroundskinframes + ((int)(t->backgroundskinframerate * (cl.time - ent->frame2time)) % t->backgroundnumskinframes);
2703 t->currentmaterialflags = t->basematerialflags;
2704 t->currentalpha = ent->alpha;
2705 if (t->basematerialflags & MATERIALFLAG_WATERALPHA && (model->brush.supportwateralpha || r_novis.integer))
2706 t->currentalpha *= r_wateralpha.value;
2707 if (!(ent->flags & RENDER_LIGHT))
2708 t->currentmaterialflags |= MATERIALFLAG_FULLBRIGHT;
2709 if (ent->effects & EF_ADDITIVE)
2710 t->currentmaterialflags |= MATERIALFLAG_ADD | MATERIALFLAG_BLENDED | MATERIALFLAG_TRANSPARENT | MATERIALFLAG_NOSHADOW;
2711 else if (t->currentalpha < 1)
2712 t->currentmaterialflags |= MATERIALFLAG_ALPHA | MATERIALFLAG_BLENDED | MATERIALFLAG_TRANSPARENT | MATERIALFLAG_NOSHADOW;
2713 if (ent->effects & EF_DOUBLESIDED)
2714 t->currentmaterialflags |= MATERIALFLAG_NOSHADOW | MATERIALFLAG_NOCULLFACE;
2715 if (ent->effects & EF_NODEPTHTEST)
2716 t->currentmaterialflags |= MATERIALFLAG_NODEPTHTEST | MATERIALFLAG_NOSHADOW;
2717 if (t->currentmaterialflags & MATERIALFLAG_WATER && r_waterscroll.value != 0)
2718 t->currenttexmatrix = r_waterscrollmatrix;
2720 t->currenttexmatrix = identitymatrix;
2721 if (t->backgroundnumskinframes && !(t->currentmaterialflags & MATERIALFLAG_TRANSPARENT))
2722 t->currentmaterialflags |= MATERIALFLAG_VERTEXTEXTUREBLEND;
2724 t->colormapping = VectorLength2(ent->colormap_pantscolor) + VectorLength2(ent->colormap_shirtcolor) >= (1.0f / 1048576.0f);
2725 t->basetexture = (!t->colormapping && t->currentskinframe->merged) ? t->currentskinframe->merged : t->currentskinframe->base;
2726 t->glosstexture = r_texture_white;
2727 t->backgroundbasetexture = t->backgroundnumskinframes ? ((!t->colormapping && t->backgroundcurrentskinframe->merged) ? t->backgroundcurrentskinframe->merged : t->backgroundcurrentskinframe->base) : r_texture_white;
2728 t->backgroundglosstexture = r_texture_white;
2729 t->specularpower = r_shadow_glossexponent.value;
2730 // TODO: store reference values for these in the texture?
2731 t->specularscale = 0;
2732 if (r_shadow_gloss.integer > 0)
2734 if (t->currentskinframe->gloss || (t->backgroundcurrentskinframe && t->backgroundcurrentskinframe->gloss))
2736 if (r_shadow_glossintensity.value > 0)
2738 t->glosstexture = t->currentskinframe->gloss ? t->currentskinframe->gloss : r_texture_black;
2739 t->backgroundglosstexture = (t->backgroundcurrentskinframe && t->backgroundcurrentskinframe->gloss) ? t->backgroundcurrentskinframe->gloss : r_texture_black;
2740 t->specularscale = r_shadow_glossintensity.value;
2743 else if (r_shadow_gloss.integer >= 2 && r_shadow_gloss2intensity.value > 0)
2744 t->specularscale = r_shadow_gloss2intensity.value;
2747 t->currentnumlayers = 0;
2748 if (!(t->currentmaterialflags & MATERIALFLAG_NODRAW))
2750 if (gl_lightmaps.integer)
2751 R_Texture_AddLayer(t, true, GL_ONE, GL_ZERO, TEXTURELAYERTYPE_LITTEXTURE, r_texture_white, &identitymatrix, 1, 1, 1, 1);
2752 else if (!(t->currentmaterialflags & MATERIALFLAG_SKY))
2754 int blendfunc1, blendfunc2, depthmask;
2755 if (t->currentmaterialflags & MATERIALFLAG_ADD)
2757 blendfunc1 = GL_SRC_ALPHA;
2758 blendfunc2 = GL_ONE;
2760 else if (t->currentmaterialflags & MATERIALFLAG_ALPHA)
2762 blendfunc1 = GL_SRC_ALPHA;
2763 blendfunc2 = GL_ONE_MINUS_SRC_ALPHA;
2765 else if (t->currentmaterialflags & MATERIALFLAG_CUSTOMBLEND)
2767 blendfunc1 = t->customblendfunc[0];
2768 blendfunc2 = t->customblendfunc[1];
2772 blendfunc1 = GL_ONE;
2773 blendfunc2 = GL_ZERO;
2775 depthmask = !(t->currentmaterialflags & MATERIALFLAG_BLENDED);
2776 if (t->currentmaterialflags & (MATERIALFLAG_WATER | MATERIALFLAG_WALL))
2778 rtexture_t *currentbasetexture;
2780 if (r_refdef.fogenabled && (t->currentmaterialflags & MATERIALFLAG_BLENDED))
2781 layerflags |= TEXTURELAYERFLAG_FOGDARKEN;
2782 currentbasetexture = (VectorLength2(ent->colormap_pantscolor) + VectorLength2(ent->colormap_shirtcolor) < (1.0f / 1048576.0f) && t->currentskinframe->merged) ? t->currentskinframe->merged : t->currentskinframe->base;
2783 if (t->currentmaterialflags & MATERIALFLAG_FULLBRIGHT)
2785 // fullbright is not affected by r_refdef.lightmapintensity
2786 R_Texture_AddLayer(t, depthmask, blendfunc1, blendfunc2, TEXTURELAYERTYPE_TEXTURE, currentbasetexture, &t->currenttexmatrix, ent->colormod[0], ent->colormod[1], ent->colormod[2], t->currentalpha);
2787 if (VectorLength2(ent->colormap_pantscolor) >= (1.0f / 1048576.0f) && t->currentskinframe->pants)
2788 R_Texture_AddLayer(t, false, GL_SRC_ALPHA, GL_ONE, TEXTURELAYERTYPE_TEXTURE, t->currentskinframe->pants, &t->currenttexmatrix, ent->colormap_pantscolor[0] * ent->colormod[0], ent->colormap_pantscolor[1] * ent->colormod[1], ent->colormap_pantscolor[2] * ent->colormod[2], t->currentalpha);
2789 if (VectorLength2(ent->colormap_shirtcolor) >= (1.0f / 1048576.0f) && t->currentskinframe->shirt)
2790 R_Texture_AddLayer(t, false, GL_SRC_ALPHA, GL_ONE, TEXTURELAYERTYPE_TEXTURE, t->currentskinframe->shirt, &t->currenttexmatrix, ent->colormap_shirtcolor[0] * ent->colormod[0], ent->colormap_shirtcolor[1] * ent->colormod[1], ent->colormap_shirtcolor[2] * ent->colormod[2], t->currentalpha);
2796 // q3bsp has no lightmap updates, so the lightstylevalue that
2797 // would normally be baked into the lightmap must be
2798 // applied to the color
2799 if (ent->model->type == mod_brushq3)
2800 colorscale *= r_refdef.lightstylevalue[0] * (1.0f / 256.0f);
2801 colorscale *= r_refdef.lightmapintensity;
2802 R_Texture_AddLayer(t, depthmask, blendfunc1, blendfunc2, TEXTURELAYERTYPE_LITTEXTURE, currentbasetexture, &t->currenttexmatrix, ent->colormod[0] * colorscale, ent->colormod[1] * colorscale, ent->colormod[2] * colorscale, t->currentalpha);
2803 if (r_ambient.value >= (1.0f/64.0f))
2804 R_Texture_AddLayer(t, false, GL_SRC_ALPHA, GL_ONE, TEXTURELAYERTYPE_TEXTURE, currentbasetexture, &t->currenttexmatrix, ent->colormod[0] * r_ambient.value * (1.0f / 64.0f), ent->colormod[1] * r_ambient.value * (1.0f / 64.0f), ent->colormod[2] * r_ambient.value * (1.0f / 64.0f), t->currentalpha);
2805 if (VectorLength2(ent->colormap_pantscolor) >= (1.0f / 1048576.0f) && t->currentskinframe->pants)
2807 R_Texture_AddLayer(t, false, GL_SRC_ALPHA, GL_ONE, TEXTURELAYERTYPE_LITTEXTURE, t->currentskinframe->pants, &t->currenttexmatrix, ent->colormap_pantscolor[0] * ent->colormod[0] * colorscale, ent->colormap_pantscolor[1] * ent->colormod[1] * colorscale, ent->colormap_pantscolor[2] * ent->colormod[2] * colorscale, t->currentalpha);
2808 if (r_ambient.value >= (1.0f/64.0f))
2809 R_Texture_AddLayer(t, false, GL_SRC_ALPHA, GL_ONE, TEXTURELAYERTYPE_TEXTURE, t->currentskinframe->pants, &t->currenttexmatrix, ent->colormap_pantscolor[0] * ent->colormod[0] * r_ambient.value * (1.0f / 64.0f), ent->colormap_pantscolor[1] * ent->colormod[1] * r_ambient.value * (1.0f / 64.0f), ent->colormap_pantscolor[2] * ent->colormod[2] * r_ambient.value * (1.0f / 64.0f), t->currentalpha);
2811 if (VectorLength2(ent->colormap_shirtcolor) >= (1.0f / 1048576.0f) && t->currentskinframe->shirt)
2813 R_Texture_AddLayer(t, false, GL_SRC_ALPHA, GL_ONE, TEXTURELAYERTYPE_LITTEXTURE, t->currentskinframe->shirt, &t->currenttexmatrix, ent->colormap_shirtcolor[0] * ent->colormod[0] * colorscale, ent->colormap_shirtcolor[1] * ent->colormod[1] * colorscale, ent->colormap_shirtcolor[2] * ent->colormod[2] * colorscale, t->currentalpha);
2814 if (r_ambient.value >= (1.0f/64.0f))
2815 R_Texture_AddLayer(t, false, GL_SRC_ALPHA, GL_ONE, TEXTURELAYERTYPE_TEXTURE, t->currentskinframe->shirt, &t->currenttexmatrix, ent->colormap_shirtcolor[0] * ent->colormod[0] * r_ambient.value * (1.0f / 64.0f), ent->colormap_shirtcolor[1] * ent->colormod[1] * r_ambient.value * (1.0f / 64.0f), ent->colormap_shirtcolor[2] * ent->colormod[2] * r_ambient.value * (1.0f / 64.0f), t->currentalpha);
2818 if (t->currentskinframe->glow != NULL)
2819 R_Texture_AddLayer(t, false, GL_SRC_ALPHA, GL_ONE, TEXTURELAYERTYPE_TEXTURE, t->currentskinframe->glow, &t->currenttexmatrix, r_hdr_glowintensity.value, r_hdr_glowintensity.value, r_hdr_glowintensity.value, t->currentalpha);
2820 if (r_refdef.fogenabled && !(t->currentmaterialflags & MATERIALFLAG_ADD))
2822 // if this is opaque use alpha blend which will darken the earlier
2825 // if this is an alpha blended material, all the earlier passes
2826 // were darkened by fog already, so we only need to add the fog
2827 // color ontop through the fog mask texture
2829 // if this is an additive blended material, all the earlier passes
2830 // were darkened by fog already, and we should not add fog color
2831 // (because the background was not darkened, there is no fog color
2832 // that was lost behind it).
2833 R_Texture_AddLayer(t, false, GL_SRC_ALPHA, (t->currentmaterialflags & MATERIALFLAG_BLENDED) ? GL_ONE : GL_ONE_MINUS_SRC_ALPHA, TEXTURELAYERTYPE_FOG, t->currentskinframe->fog, &identitymatrix, r_refdef.fogcolor[0], r_refdef.fogcolor[1], r_refdef.fogcolor[2], t->currentalpha);
2840 void R_UpdateAllTextureInfo(entity_render_t *ent)
2844 for (i = 0;i < ent->model->num_textures;i++)
2845 R_UpdateTextureInfo(ent, ent->model->data_textures + i);
2848 int rsurface_array_size = 0;
2849 float *rsurface_array_modelvertex3f = NULL;
2850 float *rsurface_array_modelsvector3f = NULL;
2851 float *rsurface_array_modeltvector3f = NULL;
2852 float *rsurface_array_modelnormal3f = NULL;
2853 float *rsurface_array_deformedvertex3f = NULL;
2854 float *rsurface_array_deformedsvector3f = NULL;
2855 float *rsurface_array_deformedtvector3f = NULL;
2856 float *rsurface_array_deformednormal3f = NULL;
2857 float *rsurface_array_color4f = NULL;
2858 float *rsurface_array_texcoord3f = NULL;
2860 void R_Mesh_ResizeArrays(int newvertices)
2863 if (rsurface_array_size >= newvertices)
2865 if (rsurface_array_modelvertex3f)
2866 Mem_Free(rsurface_array_modelvertex3f);
2867 rsurface_array_size = (newvertices + 1023) & ~1023;
2868 base = (float *)Mem_Alloc(r_main_mempool, rsurface_array_size * sizeof(float[31]));
2869 rsurface_array_modelvertex3f = base + rsurface_array_size * 0;
2870 rsurface_array_modelsvector3f = base + rsurface_array_size * 3;
2871 rsurface_array_modeltvector3f = base + rsurface_array_size * 6;
2872 rsurface_array_modelnormal3f = base + rsurface_array_size * 9;
2873 rsurface_array_deformedvertex3f = base + rsurface_array_size * 12;
2874 rsurface_array_deformedsvector3f = base + rsurface_array_size * 15;
2875 rsurface_array_deformedtvector3f = base + rsurface_array_size * 18;
2876 rsurface_array_deformednormal3f = base + rsurface_array_size * 21;
2877 rsurface_array_texcoord3f = base + rsurface_array_size * 24;
2878 rsurface_array_color4f = base + rsurface_array_size * 27;
2881 float *rsurface_modelvertex3f;
2882 int rsurface_modelvertex3f_bufferobject;
2883 size_t rsurface_modelvertex3f_bufferoffset;
2884 float *rsurface_modelsvector3f;
2885 int rsurface_modelsvector3f_bufferobject;
2886 size_t rsurface_modelsvector3f_bufferoffset;
2887 float *rsurface_modeltvector3f;
2888 int rsurface_modeltvector3f_bufferobject;
2889 size_t rsurface_modeltvector3f_bufferoffset;
2890 float *rsurface_modelnormal3f;
2891 int rsurface_modelnormal3f_bufferobject;
2892 size_t rsurface_modelnormal3f_bufferoffset;
2893 float *rsurface_vertex3f;
2894 int rsurface_vertex3f_bufferobject;
2895 size_t rsurface_vertex3f_bufferoffset;
2896 float *rsurface_svector3f;
2897 int rsurface_svector3f_bufferobject;
2898 size_t rsurface_svector3f_bufferoffset;
2899 float *rsurface_tvector3f;
2900 int rsurface_tvector3f_bufferobject;
2901 size_t rsurface_tvector3f_bufferoffset;
2902 float *rsurface_normal3f;
2903 int rsurface_normal3f_bufferobject;
2904 size_t rsurface_normal3f_bufferoffset;
2905 float *rsurface_lightmapcolor4f;
2906 int rsurface_lightmapcolor4f_bufferobject;
2907 size_t rsurface_lightmapcolor4f_bufferoffset;
2908 vec3_t rsurface_modelorg;
2909 qboolean rsurface_generatedvertex;
2910 const entity_render_t *rsurface_entity;
2911 const model_t *rsurface_model;
2912 texture_t *rsurface_texture;
2913 qboolean rsurface_uselightmaptexture;
2914 rsurfmode_t rsurface_mode;
2915 int rsurface_lightmode; // 0 = lightmap or fullbright, 1 = color array from q3bsp, 2 = vertex shaded model
2917 void RSurf_CleanUp(void)
2920 if (rsurface_mode == RSURFMODE_GLSL)
2922 qglUseProgramObjectARB(0);CHECKGLERROR
2924 GL_AlphaTest(false);
2925 rsurface_mode = RSURFMODE_NONE;
2926 rsurface_uselightmaptexture = false;
2927 rsurface_texture = NULL;
2930 void RSurf_ActiveWorldEntity(void)
2933 rsurface_entity = r_refdef.worldentity;
2934 rsurface_model = r_refdef.worldmodel;
2935 if (rsurface_array_size < rsurface_model->surfmesh.num_vertices)
2936 R_Mesh_ResizeArrays(rsurface_model->surfmesh.num_vertices);
2937 R_Mesh_Matrix(&identitymatrix);
2938 VectorCopy(r_view.origin, rsurface_modelorg);
2939 rsurface_modelvertex3f = rsurface_model->surfmesh.data_vertex3f;
2940 rsurface_modelvertex3f_bufferobject = rsurface_model->surfmesh.vbo;
2941 rsurface_modelvertex3f_bufferoffset = rsurface_model->surfmesh.vbooffset_vertex3f;
2942 rsurface_modelsvector3f = rsurface_model->surfmesh.data_svector3f;
2943 rsurface_modelsvector3f_bufferobject = rsurface_model->surfmesh.vbo;
2944 rsurface_modelsvector3f_bufferoffset = rsurface_model->surfmesh.vbooffset_svector3f;
2945 rsurface_modeltvector3f = rsurface_model->surfmesh.data_tvector3f;
2946 rsurface_modeltvector3f_bufferobject = rsurface_model->surfmesh.vbo;
2947 rsurface_modeltvector3f_bufferoffset = rsurface_model->surfmesh.vbooffset_tvector3f;
2948 rsurface_modelnormal3f = rsurface_model->surfmesh.data_normal3f;
2949 rsurface_modelnormal3f_bufferobject = rsurface_model->surfmesh.vbo;
2950 rsurface_modelnormal3f_bufferoffset = rsurface_model->surfmesh.vbooffset_normal3f;
2951 rsurface_generatedvertex = false;
2952 rsurface_vertex3f = rsurface_modelvertex3f;
2953 rsurface_vertex3f_bufferobject = rsurface_modelvertex3f_bufferobject;
2954 rsurface_vertex3f_bufferoffset = rsurface_modelvertex3f_bufferoffset;
2955 rsurface_svector3f = rsurface_modelsvector3f;
2956 rsurface_svector3f_bufferobject = rsurface_modelsvector3f_bufferobject;
2957 rsurface_svector3f_bufferoffset = rsurface_modelsvector3f_bufferoffset;
2958 rsurface_tvector3f = rsurface_modeltvector3f;
2959 rsurface_tvector3f_bufferobject = rsurface_modeltvector3f_bufferobject;
2960 rsurface_tvector3f_bufferoffset = rsurface_modeltvector3f_bufferoffset;
2961 rsurface_normal3f = rsurface_modelnormal3f;
2962 rsurface_normal3f_bufferobject = rsurface_modelnormal3f_bufferobject;
2963 rsurface_normal3f_bufferoffset = rsurface_modelnormal3f_bufferoffset;
2966 void RSurf_ActiveModelEntity(const entity_render_t *ent, qboolean wantnormals, qboolean wanttangents)
2969 rsurface_entity = ent;
2970 rsurface_model = ent->model;
2971 if (rsurface_array_size < rsurface_model->surfmesh.num_vertices)
2972 R_Mesh_ResizeArrays(rsurface_model->surfmesh.num_vertices);
2973 R_Mesh_Matrix(&ent->matrix);
2974 Matrix4x4_Transform(&ent->inversematrix, r_view.origin, rsurface_modelorg);
2975 if (rsurface_model->surfmesh.isanimated && (rsurface_entity->frameblend[0].lerp != 1 || rsurface_entity->frameblend[0].frame != 0))
2979 rsurface_modelvertex3f = rsurface_array_modelvertex3f;
2980 rsurface_modelsvector3f = rsurface_array_modelsvector3f;
2981 rsurface_modeltvector3f = rsurface_array_modeltvector3f;
2982 rsurface_modelnormal3f = rsurface_array_modelnormal3f;
2983 Mod_Alias_GetMesh_Vertices(rsurface_model, rsurface_entity->frameblend, rsurface_array_modelvertex3f, rsurface_array_modelnormal3f, rsurface_array_modelsvector3f, rsurface_array_modeltvector3f);
2985 else if (wantnormals)
2987 rsurface_modelvertex3f = rsurface_array_modelvertex3f;
2988 rsurface_modelsvector3f = NULL;
2989 rsurface_modeltvector3f = NULL;
2990 rsurface_modelnormal3f = rsurface_array_modelnormal3f;
2991 Mod_Alias_GetMesh_Vertices(rsurface_model, rsurface_entity->frameblend, rsurface_array_modelvertex3f, rsurface_array_modelnormal3f, NULL, NULL);
2995 rsurface_modelvertex3f = rsurface_array_modelvertex3f;
2996 rsurface_modelsvector3f = NULL;
2997 rsurface_modeltvector3f = NULL;
2998 rsurface_modelnormal3f = NULL;
2999 Mod_Alias_GetMesh_Vertices(rsurface_model, rsurface_entity->frameblend, rsurface_array_modelvertex3f, NULL, NULL, NULL);
3001 rsurface_modelvertex3f_bufferobject = 0;
3002 rsurface_modelvertex3f_bufferoffset = 0;
3003 rsurface_modelsvector3f_bufferobject = 0;
3004 rsurface_modelsvector3f_bufferoffset = 0;
3005 rsurface_modeltvector3f_bufferobject = 0;
3006 rsurface_modeltvector3f_bufferoffset = 0;
3007 rsurface_modelnormal3f_bufferobject = 0;
3008 rsurface_modelnormal3f_bufferoffset = 0;
3009 rsurface_generatedvertex = true;
3013 rsurface_modelvertex3f = rsurface_model->surfmesh.data_vertex3f;
3014 rsurface_modelvertex3f_bufferobject = rsurface_model->surfmesh.vbo;
3015 rsurface_modelvertex3f_bufferoffset = rsurface_model->surfmesh.vbooffset_vertex3f;
3016 rsurface_modelsvector3f = rsurface_model->surfmesh.data_svector3f;
3017 rsurface_modelsvector3f_bufferobject = rsurface_model->surfmesh.vbo;
3018 rsurface_modelsvector3f_bufferoffset = rsurface_model->surfmesh.vbooffset_svector3f;
3019 rsurface_modeltvector3f = rsurface_model->surfmesh.data_tvector3f;
3020 rsurface_modeltvector3f_bufferobject = rsurface_model->surfmesh.vbo;
3021 rsurface_modeltvector3f_bufferoffset = rsurface_model->surfmesh.vbooffset_tvector3f;
3022 rsurface_modelnormal3f = rsurface_model->surfmesh.data_normal3f;
3023 rsurface_modelnormal3f_bufferobject = rsurface_model->surfmesh.vbo;
3024 rsurface_modelnormal3f_bufferoffset = rsurface_model->surfmesh.vbooffset_normal3f;
3025 rsurface_generatedvertex = false;
3027 rsurface_vertex3f = rsurface_modelvertex3f;
3028 rsurface_vertex3f_bufferobject = rsurface_modelvertex3f_bufferobject;
3029 rsurface_vertex3f_bufferoffset = rsurface_modelvertex3f_bufferoffset;
3030 rsurface_svector3f = rsurface_modelsvector3f;
3031 rsurface_svector3f_bufferobject = rsurface_modelsvector3f_bufferobject;
3032 rsurface_svector3f_bufferoffset = rsurface_modelsvector3f_bufferoffset;
3033 rsurface_tvector3f = rsurface_modeltvector3f;
3034 rsurface_tvector3f_bufferobject = rsurface_modeltvector3f_bufferobject;
3035 rsurface_tvector3f_bufferoffset = rsurface_modeltvector3f_bufferoffset;
3036 rsurface_normal3f = rsurface_modelnormal3f;
3037 rsurface_normal3f_bufferobject = rsurface_modelnormal3f_bufferobject;
3038 rsurface_normal3f_bufferoffset = rsurface_modelnormal3f_bufferoffset;
3041 void RSurf_PrepareVerticesForBatch(qboolean generatenormals, qboolean generatetangents, int texturenumsurfaces, msurface_t **texturesurfacelist)
3043 // if vertices are dynamic (animated models), generate them into the temporary rsurface_array_model* arrays and point rsurface_model* at them instead of the static data from the model itself
3044 if (rsurface_generatedvertex)
3046 if (rsurface_texture->textureflags & (Q3TEXTUREFLAG_AUTOSPRITE | Q3TEXTUREFLAG_AUTOSPRITE2))
3047 generatetangents = true;
3048 if (generatetangents)
3049 generatenormals = true;
3050 if (generatenormals && !rsurface_modelnormal3f)
3052 rsurface_normal3f = rsurface_modelnormal3f = rsurface_array_modelnormal3f;
3053 rsurface_normal3f_bufferobject = rsurface_modelnormal3f_bufferobject = 0;
3054 rsurface_normal3f_bufferoffset = rsurface_modelnormal3f_bufferoffset = 0;
3055 Mod_BuildNormals(0, rsurface_model->surfmesh.num_vertices, rsurface_model->surfmesh.num_triangles, rsurface_modelvertex3f, rsurface_model->surfmesh.data_element3i, rsurface_array_modelnormal3f, r_smoothnormals_areaweighting.integer);
3057 if (generatetangents && !rsurface_modelsvector3f)
3059 rsurface_svector3f = rsurface_modelsvector3f = rsurface_array_modelsvector3f;
3060 rsurface_svector3f_bufferobject = rsurface_modelsvector3f_bufferobject = 0;
3061 rsurface_svector3f_bufferoffset = rsurface_modelsvector3f_bufferoffset = 0;
3062 rsurface_tvector3f = rsurface_modeltvector3f = rsurface_array_modeltvector3f;
3063 rsurface_tvector3f_bufferobject = rsurface_modeltvector3f_bufferobject = 0;
3064 rsurface_tvector3f_bufferoffset = rsurface_modeltvector3f_bufferoffset = 0;
3065 Mod_BuildTextureVectorsFromNormals(0, rsurface_model->surfmesh.num_vertices, rsurface_model->surfmesh.num_triangles, rsurface_modelvertex3f, rsurface_model->surfmesh.data_texcoordtexture2f, rsurface_modelnormal3f, rsurface_model->surfmesh.data_element3i, rsurface_array_modelsvector3f, rsurface_array_modeltvector3f, r_smoothnormals_areaweighting.integer);
3068 // if vertices are deformed (sprite flares and things in maps, possibly water waves, bulges and other deformations), generate them into rsurface_deform* arrays from whatever the rsurface_model* array pointers point to (may be static model data or generated data for an animated model)
3069 if (rsurface_texture->textureflags & (Q3TEXTUREFLAG_AUTOSPRITE | Q3TEXTUREFLAG_AUTOSPRITE2))
3071 int texturesurfaceindex;
3072 float center[3], forward[3], right[3], up[3], v[4][3];
3073 matrix4x4_t matrix1, imatrix1;
3074 Matrix4x4_Transform(&rsurface_entity->inversematrix, r_view.forward, forward);
3075 Matrix4x4_Transform(&rsurface_entity->inversematrix, r_view.right, right);
3076 Matrix4x4_Transform(&rsurface_entity->inversematrix, r_view.up, up);
3077 // make deformed versions of only the model vertices used by the specified surfaces
3078 for (texturesurfaceindex = 0;texturesurfaceindex < texturenumsurfaces;texturesurfaceindex++)
3081 const msurface_t *surface = texturesurfacelist[texturesurfaceindex];
3082 // a single autosprite surface can contain multiple sprites...
3083 for (j = 0;j < surface->num_vertices - 3;j += 4)
3085 VectorClear(center);
3086 for (i = 0;i < 4;i++)
3087 VectorAdd(center, (rsurface_modelvertex3f + 3 * surface->num_firstvertex) + (j+i) * 3, center);
3088 VectorScale(center, 0.25f, center);
3089 if (rsurface_texture->textureflags & Q3TEXTUREFLAG_AUTOSPRITE2)
3091 forward[0] = rsurface_modelorg[0] - center[0];
3092 forward[1] = rsurface_modelorg[1] - center[1];
3094 VectorNormalize(forward);
3095 right[0] = forward[1];
3096 right[1] = -forward[0];
3098 VectorSet(up, 0, 0, 1);
3100 // FIXME: calculate vectors from triangle edges instead of using texture vectors as an easy way out?
3101 Matrix4x4_FromVectors(&matrix1, (rsurface_modelnormal3f + 3 * surface->num_firstvertex) + j*3, (rsurface_modelsvector3f + 3 * surface->num_firstvertex) + j*3, (rsurface_modeltvector3f + 3 * surface->num_firstvertex) + j*3, center);
3102 Matrix4x4_Invert_Simple(&imatrix1, &matrix1);
3103 for (i = 0;i < 4;i++)
3104 Matrix4x4_Transform(&imatrix1, (rsurface_modelvertex3f + 3 * surface->num_firstvertex) + (j+i)*3, v[i]);
3105 for (i = 0;i < 4;i++)
3106 VectorMAMAMAM(1, center, v[i][0], forward, v[i][1], right, v[i][2], up, rsurface_array_deformedvertex3f + (surface->num_firstvertex+i+j) * 3);
3108 Mod_BuildNormals(surface->num_firstvertex, surface->num_vertices, surface->num_triangles, rsurface_modelvertex3f, rsurface_model->surfmesh.data_element3i + surface->num_firsttriangle * 3, rsurface_array_deformednormal3f, r_smoothnormals_areaweighting.integer);
3109 Mod_BuildTextureVectorsFromNormals(surface->num_firstvertex, surface->num_vertices, surface->num_triangles, rsurface_modelvertex3f, rsurface_model->surfmesh.data_texcoordtexture2f, rsurface_array_deformednormal3f, rsurface_model->surfmesh.data_element3i + surface->num_firsttriangle * 3, rsurface_array_deformedsvector3f, rsurface_array_deformedtvector3f, r_smoothnormals_areaweighting.integer);
3111 rsurface_vertex3f = rsurface_array_deformedvertex3f;
3112 rsurface_vertex3f_bufferobject = 0;
3113 rsurface_vertex3f_bufferoffset = 0;
3114 rsurface_svector3f = rsurface_array_deformedsvector3f;
3115 rsurface_svector3f_bufferobject = 0;
3116 rsurface_svector3f_bufferoffset = 0;
3117 rsurface_tvector3f = rsurface_array_deformedtvector3f;
3118 rsurface_tvector3f_bufferobject = 0;
3119 rsurface_tvector3f_bufferoffset = 0;
3120 rsurface_normal3f = rsurface_array_deformednormal3f;
3121 rsurface_normal3f_bufferobject = 0;
3122 rsurface_normal3f_bufferoffset = 0;
3126 rsurface_vertex3f = rsurface_modelvertex3f;
3127 rsurface_vertex3f_bufferobject = rsurface_modelvertex3f_bufferobject;
3128 rsurface_vertex3f_bufferoffset = rsurface_modelvertex3f_bufferoffset;
3129 rsurface_svector3f = rsurface_modelsvector3f;
3130 rsurface_svector3f_bufferobject = rsurface_modelsvector3f_bufferobject;
3131 rsurface_svector3f_bufferoffset = rsurface_modelsvector3f_bufferoffset;
3132 rsurface_tvector3f = rsurface_modeltvector3f;
3133 rsurface_tvector3f_bufferobject = rsurface_modeltvector3f_bufferobject;
3134 rsurface_tvector3f_bufferoffset = rsurface_modeltvector3f_bufferoffset;
3135 rsurface_normal3f = rsurface_modelnormal3f;
3136 rsurface_normal3f_bufferobject = rsurface_modelnormal3f_bufferobject;
3137 rsurface_normal3f_bufferoffset = rsurface_modelnormal3f_bufferoffset;
3139 R_Mesh_VertexPointer(rsurface_vertex3f, rsurface_vertex3f_bufferobject, rsurface_vertex3f_bufferoffset);
3142 void RSurf_DrawBatch_Simple(int texturenumsurfaces, msurface_t **texturesurfacelist)
3145 const msurface_t *surface = texturesurfacelist[0];
3146 const msurface_t *surface2;
3151 // TODO: lock all array ranges before render, rather than on each surface
3152 if (texturenumsurfaces == 1)
3154 GL_LockArrays(surface->num_firstvertex, surface->num_vertices);
3155 R_Mesh_Draw(surface->num_firstvertex, surface->num_vertices, surface->num_triangles, (rsurface_model->surfmesh.data_element3i + 3 * surface->num_firsttriangle), rsurface_model->surfmesh.ebo, (sizeof(int[3]) * surface->num_firsttriangle));
3157 else if (r_batchmode.integer == 2)
3159 #define MAXBATCHTRIANGLES 4096
3160 int batchtriangles = 0;
3161 int batchelements[MAXBATCHTRIANGLES*3];
3162 for (i = 0;i < texturenumsurfaces;i = j)
3164 surface = texturesurfacelist[i];
3166 if (surface->num_triangles > MAXBATCHTRIANGLES)
3168 R_Mesh_Draw(surface->num_firstvertex, surface->num_vertices, surface->num_triangles, (rsurface_model->surfmesh.data_element3i + 3 * surface->num_firsttriangle), rsurface_model->surfmesh.ebo, (sizeof(int[3]) * surface->num_firsttriangle));
3171 memcpy(batchelements, rsurface_model->surfmesh.data_element3i + 3 * surface->num_firsttriangle, surface->num_triangles * sizeof(int[3]));
3172 batchtriangles = surface->num_triangles;
3173 firstvertex = surface->num_firstvertex;
3174 endvertex = surface->num_firstvertex + surface->num_vertices;
3175 for (;j < texturenumsurfaces;j++)
3177 surface2 = texturesurfacelist[j];
3178 if (batchtriangles + surface2->num_triangles > MAXBATCHTRIANGLES)
3180 memcpy(batchelements + batchtriangles * 3, rsurface_model->surfmesh.data_element3i + 3 * surface2->num_firsttriangle, surface2->num_triangles * sizeof(int[3]));
3181 batchtriangles += surface2->num_triangles;
3182 firstvertex = min(firstvertex, surface2->num_firstvertex);
3183 endvertex = max(endvertex, surface2->num_firstvertex + surface2->num_vertices);
3185 surface2 = texturesurfacelist[j-1];
3186 numvertices = endvertex - firstvertex;
3187 R_Mesh_Draw(firstvertex, numvertices, batchtriangles, batchelements, 0, 0);
3190 else if (r_batchmode.integer == 1)
3192 for (i = 0;i < texturenumsurfaces;i = j)
3194 surface = texturesurfacelist[i];
3195 for (j = i + 1, surface2 = surface + 1;j < texturenumsurfaces;j++, surface2++)
3196 if (texturesurfacelist[j] != surface2)
3198 surface2 = texturesurfacelist[j-1];
3199 numvertices = surface2->num_firstvertex + surface2->num_vertices - surface->num_firstvertex;
3200 numtriangles = surface2->num_firsttriangle + surface2->num_triangles - surface->num_firsttriangle;
3201 GL_LockArrays(surface->num_firstvertex, numvertices);
3202 R_Mesh_Draw(surface->num_firstvertex, numvertices, numtriangles, (rsurface_model->surfmesh.data_element3i + 3 * surface->num_firsttriangle), rsurface_model->surfmesh.ebo, (sizeof(int[3]) * surface->num_firsttriangle));
3207 for (i = 0;i < texturenumsurfaces;i++)
3209 surface = texturesurfacelist[i];
3210 GL_LockArrays(surface->num_firstvertex, surface->num_vertices);
3211 R_Mesh_Draw(surface->num_firstvertex, surface->num_vertices, surface->num_triangles, (rsurface_model->surfmesh.data_element3i + 3 * surface->num_firsttriangle), rsurface_model->surfmesh.ebo, (sizeof(int[3]) * surface->num_firsttriangle));
3216 static void RSurf_DrawBatch_WithLightmapSwitching(int texturenumsurfaces, msurface_t **texturesurfacelist, int lightmaptexunit, int deluxemaptexunit)
3220 const msurface_t *surface = texturesurfacelist[0];
3221 const msurface_t *surface2;
3226 // TODO: lock all array ranges before render, rather than on each surface
3227 if (texturenumsurfaces == 1)
3229 R_Mesh_TexBind(lightmaptexunit, R_GetTexture(surface->lightmaptexture));
3230 if (deluxemaptexunit >= 0)
3231 R_Mesh_TexBind(deluxemaptexunit, R_GetTexture(surface->deluxemaptexture));
3232 GL_LockArrays(surface->num_firstvertex, surface->num_vertices);
3233 R_Mesh_Draw(surface->num_firstvertex, surface->num_vertices, surface->num_triangles, (rsurface_model->surfmesh.data_element3i + 3 * surface->num_firsttriangle), rsurface_model->surfmesh.ebo, (sizeof(int[3]) * surface->num_firsttriangle));
3235 else if (r_batchmode.integer == 2)
3237 #define MAXBATCHTRIANGLES 4096
3238 int batchtriangles = 0;
3239 int batchelements[MAXBATCHTRIANGLES*3];
3240 for (i = 0;i < texturenumsurfaces;i = j)
3242 surface = texturesurfacelist[i];
3243 R_Mesh_TexBind(lightmaptexunit, R_GetTexture(surface->lightmaptexture));
3244 if (deluxemaptexunit >= 0)
3245 R_Mesh_TexBind(deluxemaptexunit, R_GetTexture(surface->deluxemaptexture));
3247 if (surface->num_triangles > MAXBATCHTRIANGLES)
3249 R_Mesh_Draw(surface->num_firstvertex, surface->num_vertices, surface->num_triangles, (rsurface_model->surfmesh.data_element3i + 3 * surface->num_firsttriangle), rsurface_model->surfmesh.ebo, (sizeof(int[3]) * surface->num_firsttriangle));
3252 memcpy(batchelements, rsurface_model->surfmesh.data_element3i + 3 * surface->num_firsttriangle, surface->num_triangles * sizeof(int[3]));
3253 batchtriangles = surface->num_triangles;
3254 firstvertex = surface->num_firstvertex;
3255 endvertex = surface->num_firstvertex + surface->num_vertices;
3256 for (;j < texturenumsurfaces;j++)
3258 surface2 = texturesurfacelist[j];
3259 if (surface2->lightmaptexture != surface->lightmaptexture || batchtriangles + surface2->num_triangles > MAXBATCHTRIANGLES)
3261 memcpy(batchelements + batchtriangles * 3, rsurface_model->surfmesh.data_element3i + 3 * surface2->num_firsttriangle, surface2->num_triangles * sizeof(int[3]));
3262 batchtriangles += surface2->num_triangles;
3263 firstvertex = min(firstvertex, surface2->num_firstvertex);
3264 endvertex = max(endvertex, surface2->num_firstvertex + surface2->num_vertices);
3266 surface2 = texturesurfacelist[j-1];
3267 numvertices = endvertex - firstvertex;
3268 R_Mesh_Draw(firstvertex, numvertices, batchtriangles, batchelements, 0, 0);
3271 else if (r_batchmode.integer == 1)
3274 Con_Printf("%s batch sizes ignoring lightmap:", rsurface_texture->name);
3275 for (i = 0;i < texturenumsurfaces;i = j)
3277 surface = texturesurfacelist[i];
3278 for (j = i + 1, surface2 = surface + 1;j < texturenumsurfaces;j++, surface2++)
3279 if (texturesurfacelist[j] != surface2)
3281 Con_Printf(" %i", j - i);
3284 Con_Printf("%s batch sizes honoring lightmap:", rsurface_texture->name);
3286 for (i = 0;i < texturenumsurfaces;i = j)
3288 surface = texturesurfacelist[i];
3289 R_Mesh_TexBind(lightmaptexunit, R_GetTexture(surface->lightmaptexture));
3290 if (deluxemaptexunit >= 0)
3291 R_Mesh_TexBind(deluxemaptexunit, R_GetTexture(surface->deluxemaptexture));
3292 for (j = i + 1, surface2 = surface + 1;j < texturenumsurfaces;j++, surface2++)
3293 if (texturesurfacelist[j] != surface2 || texturesurfacelist[j]->lightmaptexture != surface->lightmaptexture)
3296 Con_Printf(" %i", j - i);
3298 surface2 = texturesurfacelist[j-1];
3299 numvertices = surface2->num_firstvertex + surface2->num_vertices - surface->num_firstvertex;
3300 numtriangles = surface2->num_firsttriangle + surface2->num_triangles - surface->num_firsttriangle;
3301 GL_LockArrays(surface->num_firstvertex, numvertices);
3302 R_Mesh_Draw(surface->num_firstvertex, numvertices, numtriangles, (rsurface_model->surfmesh.data_element3i + 3 * surface->num_firsttriangle), rsurface_model->surfmesh.ebo, (sizeof(int[3]) * surface->num_firsttriangle));
3310 for (i = 0;i < texturenumsurfaces;i++)
3312 surface = texturesurfacelist[i];
3313 R_Mesh_TexBind(lightmaptexunit, R_GetTexture(surface->lightmaptexture));
3314 if (deluxemaptexunit >= 0)
3315 R_Mesh_TexBind(deluxemaptexunit, R_GetTexture(surface->deluxemaptexture));
3316 GL_LockArrays(surface->num_firstvertex, surface->num_vertices);
3317 R_Mesh_Draw(surface->num_firstvertex, surface->num_vertices, surface->num_triangles, (rsurface_model->surfmesh.data_element3i + 3 * surface->num_firsttriangle), rsurface_model->surfmesh.ebo, (sizeof(int[3]) * surface->num_firsttriangle));
3322 static void RSurf_DrawBatch_ShowSurfaces(int texturenumsurfaces, msurface_t **texturesurfacelist)
3325 int texturesurfaceindex;
3326 if (r_showsurfaces.integer == 2)
3328 for (texturesurfaceindex = 0;texturesurfaceindex < texturenumsurfaces;texturesurfaceindex++)
3330 const msurface_t *surface = texturesurfacelist[texturesurfaceindex];
3331 for (j = 0;j < surface->num_triangles;j++)
3333 float f = ((j + surface->num_firsttriangle) & 31) * (1.0f / 31.0f) * r_view.colorscale;
3334 GL_Color(f, f, f, 1);
3335 R_Mesh_Draw(surface->num_firstvertex, surface->num_vertices, 1, (rsurface_model->surfmesh.data_element3i + 3 * (j + surface->num_firsttriangle)), rsurface_model->surfmesh.ebo, (sizeof(int[3]) * (j + surface->num_firsttriangle)));
3341 for (texturesurfaceindex = 0;texturesurfaceindex < texturenumsurfaces;texturesurfaceindex++)
3343 const msurface_t *surface = texturesurfacelist[texturesurfaceindex];
3344 int k = (int)(((size_t)surface) / sizeof(msurface_t));
3345 GL_Color((k & 15) * (1.0f / 16.0f) * r_view.colorscale, ((k >> 4) & 15) * (1.0f / 16.0f) * r_view.colorscale, ((k >> 8) & 15) * (1.0f / 16.0f) * r_view.colorscale, 1);
3346 GL_LockArrays(surface->num_firstvertex, surface->num_vertices);
3347 R_Mesh_Draw(surface->num_firstvertex, surface->num_vertices, surface->num_triangles, (rsurface_model->surfmesh.data_element3i + 3 * surface->num_firsttriangle), rsurface_model->surfmesh.ebo, (sizeof(int[3]) * surface->num_firsttriangle));
3352 static void RSurf_DrawBatch_GL11_ApplyFog(int texturenumsurfaces, msurface_t **texturesurfacelist)
3354 int texturesurfaceindex;
3358 if (rsurface_lightmapcolor4f)
3360 // generate color arrays for the surfaces in this list
3361 for (texturesurfaceindex = 0;texturesurfaceindex < texturenumsurfaces;texturesurfaceindex++)
3363 const msurface_t *surface = texturesurfacelist[texturesurfaceindex];
3364 for (i = 0, v = (rsurface_vertex3f + 3 * surface->num_firstvertex), c = (rsurface_lightmapcolor4f + 4 * surface->num_firstvertex), c2 = (rsurface_array_color4f + 4 * surface->num_firstvertex);i < surface->num_vertices;i++, v += 3, c += 4, c2 += 4)
3366 f = 1 - VERTEXFOGTABLE(VectorDistance(v, rsurface_modelorg));
3376 for (texturesurfaceindex = 0;texturesurfaceindex < texturenumsurfaces;texturesurfaceindex++)
3378 const msurface_t *surface = texturesurfacelist[texturesurfaceindex];
3379 for (i = 0, v = (rsurface_vertex3f + 3 * surface->num_firstvertex), c2 = (rsurface_array_color4f + 4 * surface->num_firstvertex);i < surface->num_vertices;i++, v += 3, c2 += 4)
3381 f = 1 - VERTEXFOGTABLE(VectorDistance(v, rsurface_modelorg));
3389 rsurface_lightmapcolor4f = rsurface_array_color4f;
3390 rsurface_lightmapcolor4f_bufferobject = 0;
3391 rsurface_lightmapcolor4f_bufferoffset = 0;
3394 static void RSurf_DrawBatch_GL11_ApplyColor(int texturenumsurfaces, msurface_t **texturesurfacelist, float r, float g, float b, float a)
3396 int texturesurfaceindex;
3399 if (!rsurface_lightmapcolor4f)
3401 for (texturesurfaceindex = 0;texturesurfaceindex < texturenumsurfaces;texturesurfaceindex++)
3403 const msurface_t *surface = texturesurfacelist[texturesurfaceindex];
3404 for (i = 0, c = (rsurface_lightmapcolor4f + 4 * surface->num_firstvertex), c2 = (rsurface_array_color4f + 4 * surface->num_firstvertex);i < surface->num_vertices;i++, c += 4, c2 += 4)
3412 rsurface_lightmapcolor4f = rsurface_array_color4f;
3413 rsurface_lightmapcolor4f_bufferobject = 0;
3414 rsurface_lightmapcolor4f_bufferoffset = 0;
3417 static void RSurf_DrawBatch_GL11_Lightmap(int texturenumsurfaces, msurface_t **texturesurfacelist, float r, float g, float b, float a, qboolean applycolor, qboolean applyfog)
3420 rsurface_lightmapcolor4f = NULL;
3421 rsurface_lightmapcolor4f_bufferobject = 0;
3422 rsurface_lightmapcolor4f_bufferoffset = 0;
3423 if (applyfog) RSurf_DrawBatch_GL11_ApplyFog(texturenumsurfaces, texturesurfacelist);
3424 if (applycolor) RSurf_DrawBatch_GL11_ApplyColor(texturenumsurfaces, texturesurfacelist, r, g, b, a);
3425 R_Mesh_ColorPointer(rsurface_lightmapcolor4f, rsurface_lightmapcolor4f_bufferobject, rsurface_lightmapcolor4f_bufferoffset);
3426 GL_Color(r, g, b, a);
3427 RSurf_DrawBatch_WithLightmapSwitching(texturenumsurfaces, texturesurfacelist, 0, -1);
3430 static void RSurf_DrawBatch_GL11_Unlit(int texturenumsurfaces, msurface_t **texturesurfacelist, float r, float g, float b, float a, qboolean applycolor, qboolean applyfog)
3432 // TODO: optimize applyfog && applycolor case
3433 // just apply fog if necessary, and tint the fog color array if necessary
3434 rsurface_lightmapcolor4f = NULL;
3435 rsurface_lightmapcolor4f_bufferobject = 0;
3436 rsurface_lightmapcolor4f_bufferoffset = 0;
3437 if (applyfog) RSurf_DrawBatch_GL11_ApplyFog(texturenumsurfaces, texturesurfacelist);
3438 if (applycolor) RSurf_DrawBatch_GL11_ApplyColor(texturenumsurfaces, texturesurfacelist, r, g, b, a);
3439 R_Mesh_ColorPointer(rsurface_lightmapcolor4f, rsurface_lightmapcolor4f_bufferobject, rsurface_lightmapcolor4f_bufferoffset);
3440 GL_Color(r, g, b, a);
3441 RSurf_DrawBatch_Simple(texturenumsurfaces, texturesurfacelist);
3444 static void RSurf_DrawBatch_GL11_VertexColor(int texturenumsurfaces, msurface_t **texturesurfacelist, float r, float g, float b, float a, qboolean applycolor, qboolean applyfog)
3446 int texturesurfaceindex;
3450 if (texturesurfacelist[0]->lightmapinfo && texturesurfacelist[0]->lightmapinfo->stainsamples)
3452 // generate color arrays for the surfaces in this list
3453 for (texturesurfaceindex = 0;texturesurfaceindex < texturenumsurfaces;texturesurfaceindex++)
3455 const msurface_t *surface = texturesurfacelist[texturesurfaceindex];
3456 for (i = 0, c = rsurface_array_color4f + 4 * surface->num_firstvertex;i < surface->num_vertices;i++, c += 4)
3458 if (surface->lightmapinfo->samples)
3460 const unsigned char *lm = surface->lightmapinfo->samples + (rsurface_model->surfmesh.data_lightmapoffsets + surface->num_firstvertex)[i];
3461 float scale = r_refdef.lightstylevalue[surface->lightmapinfo->styles[0]] * (1.0f / 32768.0f);
3462 VectorScale(lm, scale, c);
3463 if (surface->lightmapinfo->styles[1] != 255)
3465 int size3 = ((surface->lightmapinfo->extents[0]>>4)+1)*((surface->lightmapinfo->extents[1]>>4)+1)*3;
3467 scale = r_refdef.lightstylevalue[surface->lightmapinfo->styles[1]] * (1.0f / 32768.0f);
3468 VectorMA(c, scale, lm, c);
3469 if (surface->lightmapinfo->styles[2] != 255)
3472 scale = r_refdef.lightstylevalue[surface->lightmapinfo->styles[2]] * (1.0f / 32768.0f);
3473 VectorMA(c, scale, lm, c);
3474 if (surface->lightmapinfo->styles[3] != 255)
3477 scale = r_refdef.lightstylevalue[surface->lightmapinfo->styles[3]] * (1.0f / 32768.0f);
3478 VectorMA(c, scale, lm, c);
3488 rsurface_lightmapcolor4f = rsurface_array_color4f;
3489 rsurface_lightmapcolor4f_bufferobject = 0;
3490 rsurface_lightmapcolor4f_bufferoffset = 0;
3494 rsurface_lightmapcolor4f = rsurface_model->surfmesh.data_lightmapcolor4f;
3495 rsurface_lightmapcolor4f_bufferobject = rsurface_model->surfmesh.vbo;
3496 rsurface_lightmapcolor4f_bufferoffset = rsurface_model->surfmesh.vbooffset_lightmapcolor4f;
3498 if (applyfog) RSurf_DrawBatch_GL11_ApplyFog(texturenumsurfaces, texturesurfacelist);
3499 if (applycolor) RSurf_DrawBatch_GL11_ApplyColor(texturenumsurfaces, texturesurfacelist, r, g, b, a);
3500 R_Mesh_ColorPointer(rsurface_lightmapcolor4f, rsurface_lightmapcolor4f_bufferobject, rsurface_lightmapcolor4f_bufferoffset);
3501 GL_Color(r, g, b, a);
3502 RSurf_DrawBatch_Simple(texturenumsurfaces, texturesurfacelist);
3505 static void RSurf_DrawBatch_GL11_VertexShade(int texturenumsurfaces, msurface_t **texturesurfacelist, float r, float g, float b, float a, qboolean applycolor, qboolean applyfog)
3507 int texturesurfaceindex;
3511 vec3_t ambientcolor;
3512 vec3_t diffusecolor;
3516 VectorCopy(rsurface_entity->modellight_lightdir, lightdir);
3517 ambientcolor[0] = rsurface_entity->modellight_ambient[0] * r * 0.5f;
3518 ambientcolor[1] = rsurface_entity->modellight_ambient[1] * g * 0.5f;
3519 ambientcolor[2] = rsurface_entity->modellight_ambient[2] * b * 0.5f;
3520 diffusecolor[0] = rsurface_entity->modellight_diffuse[0] * r * 0.5f;
3521 diffusecolor[1] = rsurface_entity->modellight_diffuse[1] * g * 0.5f;
3522 diffusecolor[2] = rsurface_entity->modellight_diffuse[2] * b * 0.5f;
3523 if (VectorLength2(diffusecolor) > 0)
3525 // generate color arrays for the surfaces in this list
3526 for (texturesurfaceindex = 0;texturesurfaceindex < texturenumsurfaces;texturesurfaceindex++)
3528 const msurface_t *surface = texturesurfacelist[texturesurfaceindex];
3529 int numverts = surface->num_vertices;
3530 v = rsurface_vertex3f + 3 * surface->num_firstvertex;
3531 c2 = rsurface_normal3f + 3 * surface->num_firstvertex;
3532 c = rsurface_array_color4f + 4 * surface->num_firstvertex;
3533 // q3-style directional shading
3534 for (i = 0;i < numverts;i++, v += 3, c2 += 3, c += 4)
3536 if ((f = DotProduct(c2, lightdir)) > 0)
3537 VectorMA(ambientcolor, f, diffusecolor, c);
3539 VectorCopy(ambientcolor, c);
3548 rsurface_lightmapcolor4f = rsurface_array_color4f;
3549 rsurface_lightmapcolor4f_bufferobject = 0;
3550 rsurface_lightmapcolor4f_bufferoffset = 0;
3554 r = ambientcolor[0];
3555 g = ambientcolor[1];
3556 b = ambientcolor[2];
3557 rsurface_lightmapcolor4f = NULL;
3558 rsurface_lightmapcolor4f_bufferobject = 0;
3559 rsurface_lightmapcolor4f_bufferoffset = 0;
3561 if (applyfog) RSurf_DrawBatch_GL11_ApplyFog(texturenumsurfaces, texturesurfacelist);
3562 if (applycolor) RSurf_DrawBatch_GL11_ApplyColor(texturenumsurfaces, texturesurfacelist, r, g, b, a);
3563 R_Mesh_ColorPointer(rsurface_lightmapcolor4f, rsurface_lightmapcolor4f_bufferobject, rsurface_lightmapcolor4f_bufferoffset);
3564 GL_Color(r, g, b, a);
3565 RSurf_DrawBatch_Simple(texturenumsurfaces, texturesurfacelist);
3568 static void R_DrawTextureSurfaceList_ShowSurfaces(int texturenumsurfaces, msurface_t **texturesurfacelist)
3570 GL_DepthTest(!(rsurface_texture->currentmaterialflags & MATERIALFLAG_NODEPTHTEST));
3571 GL_CullFace((rsurface_texture->currentmaterialflags & MATERIALFLAG_NOCULLFACE) ? GL_NONE : GL_FRONT); // quake is backwards, this culls back faces
3572 if (rsurface_mode != RSURFMODE_SHOWSURFACES)
3574 rsurface_mode = RSURFMODE_SHOWSURFACES;
3576 GL_BlendFunc(GL_ONE, GL_ZERO);
3577 R_Mesh_ColorPointer(NULL, 0, 0);
3578 R_Mesh_ResetTextureState();
3580 RSurf_PrepareVerticesForBatch(false, false, texturenumsurfaces, texturesurfacelist);
3581 RSurf_DrawBatch_ShowSurfaces(texturenumsurfaces, texturesurfacelist);
3584 static void R_DrawTextureSurfaceList_Sky(int texturenumsurfaces, msurface_t **texturesurfacelist)
3586 // transparent sky would be ridiculous
3587 if ((rsurface_texture->currentmaterialflags & MATERIALFLAG_TRANSPARENT))
3589 if (rsurface_mode != RSURFMODE_SKY)
3591 if (rsurface_mode == RSURFMODE_GLSL)
3593 qglUseProgramObjectARB(0);CHECKGLERROR
3595 rsurface_mode = RSURFMODE_SKY;
3599 skyrendernow = false;
3601 // restore entity matrix
3602 R_Mesh_Matrix(&rsurface_entity->matrix);
3604 GL_DepthTest(!(rsurface_texture->currentmaterialflags & MATERIALFLAG_NODEPTHTEST));
3605 GL_CullFace((rsurface_texture->currentmaterialflags & MATERIALFLAG_NOCULLFACE) ? GL_NONE : GL_FRONT); // quake is backwards, this culls back faces
3607 // LordHavoc: HalfLife maps have freaky skypolys so don't use
3608 // skymasking on them, and Quake3 never did sky masking (unlike
3609 // software Quake and software Quake2), so disable the sky masking
3610 // in Quake3 maps as it causes problems with q3map2 sky tricks,
3611 // and skymasking also looks very bad when noclipping outside the
3612 // level, so don't use it then either.
3613 if (rsurface_model->type == mod_brushq1 && r_q1bsp_skymasking.integer && !r_viewcache.world_novis)
3615 GL_Color(r_refdef.fogcolor[0] * r_view.colorscale, r_refdef.fogcolor[1] * r_view.colorscale, r_refdef.fogcolor[2] * r_view.colorscale, 1);
3616 R_Mesh_ColorPointer(NULL, 0, 0);
3617 R_Mesh_ResetTextureState();
3618 if (skyrendermasked)
3620 // depth-only (masking)
3621 GL_ColorMask(0,0,0,0);
3622 // just to make sure that braindead drivers don't draw
3623 // anything despite that colormask...
3624 GL_BlendFunc(GL_ZERO, GL_ONE);
3629 GL_BlendFunc(GL_ONE, GL_ZERO);
3631 RSurf_PrepareVerticesForBatch(false, false, texturenumsurfaces, texturesurfacelist);
3632 RSurf_DrawBatch_Simple(texturenumsurfaces, texturesurfacelist);
3633 if (skyrendermasked)
3634 GL_ColorMask(r_view.colormask[0], r_view.colormask[1], r_view.colormask[2], 1);
3638 static void R_DrawTextureSurfaceList_GL20(int texturenumsurfaces, msurface_t **texturesurfacelist)
3640 if (rsurface_mode != RSURFMODE_GLSL)
3642 rsurface_mode = RSURFMODE_GLSL;
3643 R_Mesh_ResetTextureState();
3646 R_SetupSurfaceShader(vec3_origin, rsurface_lightmode == 2, 1, 1, rsurface_texture->specularscale);
3647 if (!r_glsl_permutation)
3650 if (rsurface_lightmode == 2)
3651 RSurf_PrepareVerticesForBatch(true, r_glsl_permutation->loc_Texture_Normal, texturenumsurfaces, texturesurfacelist);
3653 RSurf_PrepareVerticesForBatch(r_glsl_permutation->loc_Texture_Normal, r_glsl_permutation->loc_Texture_Normal, texturenumsurfaces, texturesurfacelist);
3654 R_Mesh_TexCoordPointer(0, 2, rsurface_model->surfmesh.data_texcoordtexture2f, rsurface_model->surfmesh.vbo, rsurface_model->surfmesh.vbooffset_texcoordtexture2f);
3655 R_Mesh_TexCoordPointer(1, 3, rsurface_svector3f, rsurface_svector3f_bufferobject, rsurface_svector3f_bufferoffset);
3656 R_Mesh_TexCoordPointer(2, 3, rsurface_tvector3f, rsurface_tvector3f_bufferobject, rsurface_tvector3f_bufferoffset);
3657 R_Mesh_TexCoordPointer(3, 3, rsurface_normal3f, rsurface_normal3f_bufferobject, rsurface_normal3f_bufferoffset);
3658 R_Mesh_TexCoordPointer(4, 2, rsurface_model->surfmesh.data_texcoordlightmap2f, rsurface_model->surfmesh.vbo, rsurface_model->surfmesh.vbooffset_texcoordlightmap2f);
3660 if (rsurface_texture->currentmaterialflags & MATERIALFLAG_FULLBRIGHT)
3662 R_Mesh_TexBind(7, R_GetTexture(r_texture_white));
3663 if (r_glsl_permutation->loc_Texture_Deluxemap >= 0)
3664 R_Mesh_TexBind(8, R_GetTexture(r_texture_blanknormalmap));
3665 R_Mesh_ColorPointer(NULL, 0, 0);
3667 else if (rsurface_uselightmaptexture)
3669 R_Mesh_TexBind(7, R_GetTexture(texturesurfacelist[0]->lightmaptexture));
3670 if (r_glsl_permutation->loc_Texture_Deluxemap >= 0)
3671 R_Mesh_TexBind(8, R_GetTexture(texturesurfacelist[0]->deluxemaptexture));
3672 R_Mesh_ColorPointer(NULL, 0, 0);
3676 R_Mesh_TexBind(7, R_GetTexture(r_texture_white));
3677 if (r_glsl_permutation->loc_Texture_Deluxemap >= 0)
3678 R_Mesh_TexBind(8, R_GetTexture(r_texture_blanknormalmap));
3679 R_Mesh_ColorPointer(rsurface_model->surfmesh.data_lightmapcolor4f, rsurface_model->surfmesh.vbo, rsurface_model->surfmesh.vbooffset_lightmapcolor4f);
3682 if (rsurface_uselightmaptexture && !(rsurface_texture->currentmaterialflags & MATERIALFLAG_FULLBRIGHT))
3683 RSurf_DrawBatch_WithLightmapSwitching(texturenumsurfaces, texturesurfacelist, 7, r_glsl_permutation->loc_Texture_Deluxemap >= 0 ? 8 : -1);
3685 RSurf_DrawBatch_Simple(texturenumsurfaces, texturesurfacelist);
3686 if (rsurface_texture->backgroundnumskinframes && !(rsurface_texture->currentmaterialflags & MATERIALFLAG_TRANSPARENT))
3691 static void R_DrawTextureSurfaceList_GL13(int texturenumsurfaces, msurface_t **texturesurfacelist)
3693 // OpenGL 1.3 path - anything not completely ancient
3694 int texturesurfaceindex;
3695 qboolean applycolor;
3699 const texturelayer_t *layer;
3700 if (rsurface_mode != RSURFMODE_MULTIPASS)
3701 rsurface_mode = RSURFMODE_MULTIPASS;
3702 RSurf_PrepareVerticesForBatch(true, false, texturenumsurfaces, texturesurfacelist);
3703 for (layerindex = 0, layer = rsurface_texture->currentlayers;layerindex < rsurface_texture->currentnumlayers;layerindex++, layer++)
3706 int layertexrgbscale;
3707 if (rsurface_texture->currentmaterialflags & MATERIALFLAG_ALPHATEST)
3709 if (layerindex == 0)
3713 GL_AlphaTest(false);
3714 qglDepthFunc(GL_EQUAL);CHECKGLERROR
3717 GL_DepthMask(layer->depthmask);
3718 GL_BlendFunc(layer->blendfunc1, layer->blendfunc2);
3719 if ((layer->color[0] > 2 || layer->color[1] > 2 || layer->color[2] > 2) && (gl_combine.integer || layer->depthmask))
3721 layertexrgbscale = 4;
3722 VectorScale(layer->color, 0.25f, layercolor);
3724 else if ((layer->color[0] > 1 || layer->color[1] > 1 || layer->color[2] > 1) && (gl_combine.integer || layer->depthmask))
3726 layertexrgbscale = 2;
3727 VectorScale(layer->color, 0.5f, layercolor);
3731 layertexrgbscale = 1;
3732 VectorScale(layer->color, 1.0f, layercolor);
3734 layercolor[3] = layer->color[3];
3735 applycolor = layercolor[0] != 1 || layercolor[1] != 1 || layercolor[2] != 1 || layercolor[3] != 1;
3736 R_Mesh_ColorPointer(NULL, 0, 0);
3737 applyfog = (layer->flags & TEXTURELAYERFLAG_FOGDARKEN) != 0;
3738 switch (layer->type)
3740 case TEXTURELAYERTYPE_LITTEXTURE:
3741 memset(&m, 0, sizeof(m));
3742 m.tex[0] = R_GetTexture(r_texture_white);
3743 m.pointer_texcoord[0] = rsurface_model->surfmesh.data_texcoordlightmap2f;
3744 m.pointer_texcoord_bufferobject[0] = rsurface_model->surfmesh.vbo;
3745 m.pointer_texcoord_bufferoffset[0] = rsurface_model->surfmesh.vbooffset_texcoordlightmap2f;
3746 m.tex[1] = R_GetTexture(layer->texture);
3747 m.texmatrix[1] = layer->texmatrix;
3748 m.texrgbscale[1] = layertexrgbscale;
3749 m.pointer_texcoord[1] = rsurface_model->surfmesh.data_texcoordtexture2f;
3750 m.pointer_texcoord_bufferobject[1] = rsurface_model->surfmesh.vbo;
3751 m.pointer_texcoord_bufferoffset[1] = rsurface_model->surfmesh.vbooffset_texcoordtexture2f;
3752 R_Mesh_TextureState(&m);
3753 if (rsurface_lightmode == 2)
3754 RSurf_DrawBatch_GL11_VertexShade(texturenumsurfaces, texturesurfacelist, layercolor[0], layercolor[1], layercolor[2], layercolor[3], applycolor, applyfog);
3755 else if (rsurface_uselightmaptexture)
3756 RSurf_DrawBatch_GL11_Lightmap(texturenumsurfaces, texturesurfacelist, layercolor[0], layercolor[1], layercolor[2], layercolor[3], applycolor, applyfog);
3758 RSurf_DrawBatch_GL11_VertexColor(texturenumsurfaces, texturesurfacelist, layercolor[0], layercolor[1], layercolor[2], layercolor[3], applycolor, applyfog);
3760 case TEXTURELAYERTYPE_TEXTURE:
3761 memset(&m, 0, sizeof(m));
3762 m.tex[0] = R_GetTexture(layer->texture);
3763 m.texmatrix[0] = layer->texmatrix;
3764 m.texrgbscale[0] = layertexrgbscale;
3765 m.pointer_texcoord[0] = rsurface_model->surfmesh.data_texcoordtexture2f;
3766 m.pointer_texcoord_bufferobject[0] = rsurface_model->surfmesh.vbo;
3767 m.pointer_texcoord_bufferoffset[0] = rsurface_model->surfmesh.vbooffset_texcoordtexture2f;
3768 R_Mesh_TextureState(&m);
3769 RSurf_DrawBatch_GL11_Unlit(texturenumsurfaces, texturesurfacelist, layercolor[0], layercolor[1], layercolor[2], layercolor[3], applycolor, applyfog);
3771 case TEXTURELAYERTYPE_FOG:
3772 memset(&m, 0, sizeof(m));
3773 m.texrgbscale[0] = layertexrgbscale;
3776 m.tex[0] = R_GetTexture(layer->texture);
3777 m.texmatrix[0] = layer->texmatrix;
3778 m.pointer_texcoord[0] = rsurface_model->surfmesh.data_texcoordtexture2f;
3779 m.pointer_texcoord_bufferobject[0] = rsurface_model->surfmesh.vbo;
3780 m.pointer_texcoord_bufferoffset[0] = rsurface_model->surfmesh.vbooffset_texcoordtexture2f;
3782 R_Mesh_TextureState(&m);
3783 // generate a color array for the fog pass
3784 R_Mesh_ColorPointer(rsurface_array_color4f, 0, 0);
3785 for (texturesurfaceindex = 0;texturesurfaceindex < texturenumsurfaces;texturesurfaceindex++)
3789 const msurface_t *surface = texturesurfacelist[texturesurfaceindex];
3790 for (i = 0, v = (rsurface_vertex3f + 3 * surface->num_firstvertex), c = (rsurface_array_color4f + 4 * surface->num_firstvertex);i < surface->num_vertices;i++, v += 3, c += 4)
3792 f = VERTEXFOGTABLE(VectorDistance(v, rsurface_modelorg));
3793 c[0] = layercolor[0];
3794 c[1] = layercolor[1];
3795 c[2] = layercolor[2];
3796 c[3] = f * layercolor[3];
3799 RSurf_DrawBatch_Simple(texturenumsurfaces, texturesurfacelist);
3802 Con_Printf("R_DrawTextureSurfaceList: unknown layer type %i\n", layer->type);
3804 GL_LockArrays(0, 0);
3807 if (rsurface_texture->currentmaterialflags & MATERIALFLAG_ALPHATEST)
3809 qglDepthFunc(GL_LEQUAL);CHECKGLERROR
3810 GL_AlphaTest(false);
3814 static void R_DrawTextureSurfaceList_GL11(int texturenumsurfaces, msurface_t **texturesurfacelist)
3816 // OpenGL 1.1 - crusty old voodoo path
3817 int texturesurfaceindex;
3821 const texturelayer_t *layer;
3822 if (rsurface_mode != RSURFMODE_MULTIPASS)
3823 rsurface_mode = RSURFMODE_MULTIPASS;
3824 RSurf_PrepareVerticesForBatch(true, false, texturenumsurfaces, texturesurfacelist);
3825 for (layerindex = 0, layer = rsurface_texture->currentlayers;layerindex < rsurface_texture->currentnumlayers;layerindex++, layer++)
3827 if (rsurface_texture->currentmaterialflags & MATERIALFLAG_ALPHATEST)
3829 if (layerindex == 0)
3833 GL_AlphaTest(false);
3834 qglDepthFunc(GL_EQUAL);CHECKGLERROR
3837 GL_DepthMask(layer->depthmask);
3838 GL_BlendFunc(layer->blendfunc1, layer->blendfunc2);
3839 R_Mesh_ColorPointer(NULL, 0, 0);
3840 applyfog = (layer->flags & TEXTURELAYERFLAG_FOGDARKEN) != 0;
3841 switch (layer->type)
3843 case TEXTURELAYERTYPE_LITTEXTURE:
3844 if (layer->blendfunc1 == GL_ONE && layer->blendfunc2 == GL_ZERO)
3846 // two-pass lit texture with 2x rgbscale
3847 // first the lightmap pass
3848 memset(&m, 0, sizeof(m));
3849 m.tex[0] = R_GetTexture(r_texture_white);
3850 m.pointer_texcoord[0] = rsurface_model->surfmesh.data_texcoordlightmap2f;
3851 m.pointer_texcoord_bufferobject[0] = rsurface_model->surfmesh.vbo;
3852 m.pointer_texcoord_bufferoffset[0] = rsurface_model->surfmesh.vbooffset_texcoordlightmap2f;
3853 R_Mesh_TextureState(&m);
3854 if (rsurface_lightmode == 2)
3855 RSurf_DrawBatch_GL11_VertexShade(texturenumsurfaces, texturesurfacelist, 1, 1, 1, 1, false, false);
3856 else if (rsurface_uselightmaptexture)
3857 RSurf_DrawBatch_GL11_Lightmap(texturenumsurfaces, texturesurfacelist, 1, 1, 1, 1, false, false);
3859 RSurf_DrawBatch_GL11_VertexColor(texturenumsurfaces, texturesurfacelist, 1, 1, 1, 1, false, false);
3860 GL_LockArrays(0, 0);
3861 // then apply the texture to it
3862 GL_BlendFunc(GL_DST_COLOR, GL_SRC_COLOR);
3863 memset(&m, 0, sizeof(m));
3864 m.tex[0] = R_GetTexture(layer->texture);
3865 m.texmatrix[0] = layer->texmatrix;
3866 m.pointer_texcoord[0] = rsurface_model->surfmesh.data_texcoordtexture2f;
3867 m.pointer_texcoord_bufferobject[0] = rsurface_model->surfmesh.vbo;
3868 m.pointer_texcoord_bufferoffset[0] = rsurface_model->surfmesh.vbooffset_texcoordtexture2f;
3869 R_Mesh_TextureState(&m);
3870 RSurf_DrawBatch_GL11_Unlit(texturenumsurfaces, texturesurfacelist, layer->color[0] * 0.5f, layer->color[1] * 0.5f, layer->color[2] * 0.5f, layer->color[3], layer->color[0] != 2 || layer->color[1] != 2 || layer->color[2] != 2 || layer->color[3] != 1, false);
3874 // single pass vertex-lighting-only texture with 1x rgbscale and transparency support
3875 memset(&m, 0, sizeof(m));
3876 m.tex[0] = R_GetTexture(layer->texture);
3877 m.texmatrix[0] = layer->texmatrix;
3878 m.pointer_texcoord[0] = rsurface_model->surfmesh.data_texcoordtexture2f;
3879 m.pointer_texcoord_bufferobject[0] = rsurface_model->surfmesh.vbo;
3880 m.pointer_texcoord_bufferoffset[0] = rsurface_model->surfmesh.vbooffset_texcoordtexture2f;
3881 R_Mesh_TextureState(&m);
3882 if (rsurface_lightmode == 2)
3883 RSurf_DrawBatch_GL11_VertexShade(texturenumsurfaces, texturesurfacelist, layer->color[0], layer->color[1], layer->color[2], layer->color[3], layer->color[0] != 1 || layer->color[1] != 1 || layer->color[2] != 1 || layer->color[3] != 1, applyfog);
3885 RSurf_DrawBatch_GL11_VertexColor(texturenumsurfaces, texturesurfacelist, layer->color[0], layer->color[1], layer->color[2], layer->color[3], layer->color[0] != 1 || layer->color[1] != 1 || layer->color[2] != 1 || layer->color[3] != 1, applyfog);
3888 case TEXTURELAYERTYPE_TEXTURE:
3889 // singletexture unlit texture with transparency support
3890 memset(&m, 0, sizeof(m));
3891 m.tex[0] = R_GetTexture(layer->texture);
3892 m.texmatrix[0] = layer->texmatrix;
3893 m.pointer_texcoord[0] = rsurface_model->surfmesh.data_texcoordtexture2f;
3894 m.pointer_texcoord_bufferobject[0] = rsurface_model->surfmesh.vbo;
3895 m.pointer_texcoord_bufferoffset[0] = rsurface_model->surfmesh.vbooffset_texcoordtexture2f;
3896 R_Mesh_TextureState(&m);
3897 RSurf_DrawBatch_GL11_Unlit(texturenumsurfaces, texturesurfacelist, layer->color[0], layer->color[1], layer->color[2], layer->color[3], layer->color[0] != 1 || layer->color[1] != 1 || layer->color[2] != 1 || layer->color[3] != 1, applyfog);
3899 case TEXTURELAYERTYPE_FOG:
3900 // singletexture fogging
3901 R_Mesh_ColorPointer(rsurface_array_color4f, 0, 0);
3904 memset(&m, 0, sizeof(m));
3905 m.tex[0] = R_GetTexture(layer->texture);
3906 m.texmatrix[0] = layer->texmatrix;
3907 m.pointer_texcoord[0] = rsurface_model->surfmesh.data_texcoordtexture2f;
3908 m.pointer_texcoord_bufferobject[0] = rsurface_model->surfmesh.vbo;
3909 m.pointer_texcoord_bufferoffset[0] = rsurface_model->surfmesh.vbooffset_texcoordtexture2f;
3910 R_Mesh_TextureState(&m);
3913 R_Mesh_ResetTextureState();
3914 // generate a color array for the fog pass
3915 for (texturesurfaceindex = 0;texturesurfaceindex < texturenumsurfaces;texturesurfaceindex++)
3919 const msurface_t *surface = texturesurfacelist[texturesurfaceindex];
3920 for (i = 0, v = (rsurface_vertex3f + 3 * surface->num_firstvertex), c = (rsurface_array_color4f + 4 * surface->num_firstvertex);i < surface->num_vertices;i++, v += 3, c += 4)
3922 f = VERTEXFOGTABLE(VectorDistance(v, rsurface_modelorg));
3923 c[0] = layer->color[0];
3924 c[1] = layer->color[1];
3925 c[2] = layer->color[2];
3926 c[3] = f * layer->color[3];
3929 RSurf_DrawBatch_Simple(texturenumsurfaces, texturesurfacelist);
3932 Con_Printf("R_DrawTextureSurfaceList: unknown layer type %i\n", layer->type);
3934 GL_LockArrays(0, 0);
3937 if (rsurface_texture->currentmaterialflags & MATERIALFLAG_ALPHATEST)
3939 qglDepthFunc(GL_LEQUAL);CHECKGLERROR
3940 GL_AlphaTest(false);
3944 static void R_DrawTextureSurfaceList(int texturenumsurfaces, msurface_t **texturesurfacelist)
3946 if (rsurface_texture->currentmaterialflags & MATERIALFLAG_NODRAW)
3948 r_shadow_rtlight = NULL;
3949 r_refdef.stats.entities_surfaces += texturenumsurfaces;
3951 if (r_showsurfaces.integer)
3952 R_DrawTextureSurfaceList_ShowSurfaces(texturenumsurfaces, texturesurfacelist);
3953 else if (rsurface_texture->currentmaterialflags & MATERIALFLAG_SKY)
3954 R_DrawTextureSurfaceList_Sky(texturenumsurfaces, texturesurfacelist);
3955 else if (rsurface_texture->currentnumlayers)
3957 GL_DepthTest(!(rsurface_texture->currentmaterialflags & MATERIALFLAG_NODEPTHTEST));
3958 GL_CullFace((rsurface_texture->currentmaterialflags & MATERIALFLAG_NOCULLFACE) ? GL_NONE : GL_FRONT); // quake is backwards, this culls back faces
3959 GL_BlendFunc(rsurface_texture->currentlayers[0].blendfunc1, rsurface_texture->currentlayers[0].blendfunc2);
3960 GL_DepthMask(!(rsurface_texture->currentmaterialflags & MATERIALFLAG_BLENDED));
3961 GL_Color(rsurface_entity->colormod[0], rsurface_entity->colormod[1], rsurface_entity->colormod[2], rsurface_texture->currentalpha);
3962 GL_AlphaTest((rsurface_texture->currentmaterialflags & MATERIALFLAG_ALPHATEST) != 0);
3963 // FIXME: identify models using a better check than rsurface_model->brush.shadowmesh
3964 rsurface_lightmode = ((rsurface_texture->currentmaterialflags & MATERIALFLAG_FULLBRIGHT) || rsurface_model->brush.shadowmesh) ? 0 : 2;
3965 if (r_glsl.integer && gl_support_fragment_shader)
3966 R_DrawTextureSurfaceList_GL20(texturenumsurfaces, texturesurfacelist);
3967 else if (gl_combine.integer && r_textureunits.integer >= 2)
3968 R_DrawTextureSurfaceList_GL13(texturenumsurfaces, texturesurfacelist);
3970 R_DrawTextureSurfaceList_GL11(texturenumsurfaces, texturesurfacelist);
3973 GL_LockArrays(0, 0);
3976 static void R_DrawSurface_TransparentCallback(const entity_render_t *ent, const rtlight_t *rtlight, int numsurfaces, int *surfacelist)
3979 int texturenumsurfaces, endsurface;
3981 msurface_t *surface;
3982 msurface_t *texturesurfacelist[1024];
3984 // if the model is static it doesn't matter what value we give for
3985 // wantnormals and wanttangents, so this logic uses only rules applicable
3986 // to a model, knowing that they are meaningless otherwise
3987 if (ent == r_refdef.worldentity)
3988 RSurf_ActiveWorldEntity();
3989 else if ((ent->effects & EF_FULLBRIGHT) || r_showsurfaces.integer || VectorLength2(ent->modellight_diffuse) < (1.0f / 256.0f))
3990 RSurf_ActiveModelEntity(ent, false, false);
3992 RSurf_ActiveModelEntity(ent, true, r_glsl.integer && gl_support_fragment_shader);
3994 for (i = 0;i < numsurfaces;i = j)
3997 surface = rsurface_model->data_surfaces + surfacelist[i];
3998 texture = surface->texture;
3999 R_UpdateTextureInfo(ent, texture);
4000 rsurface_texture = texture->currentframe;
4001 rsurface_uselightmaptexture = surface->lightmaptexture != NULL;
4002 // scan ahead until we find a different texture
4003 endsurface = min(i + 1024, numsurfaces);
4004 texturenumsurfaces = 0;
4005 texturesurfacelist[texturenumsurfaces++] = surface;
4006 for (;j < endsurface;j++)
4008 surface = rsurface_model->data_surfaces + surfacelist[j];
4009 if (texture != surface->texture || rsurface_uselightmaptexture != (surface->lightmaptexture != NULL))
4011 texturesurfacelist[texturenumsurfaces++] = surface;
4013 // render the range of surfaces
4014 R_DrawTextureSurfaceList(texturenumsurfaces, texturesurfacelist);
4020 void R_QueueSurfaceList(int numsurfaces, msurface_t **surfacelist, int flagsmask)
4023 vec3_t tempcenter, center;
4025 // break the surface list down into batches by texture and use of lightmapping
4026 for (i = 0;i < numsurfaces;i = j)
4029 // texture is the base texture pointer, rsurface_texture is the
4030 // current frame/skin the texture is directing us to use (for example
4031 // if a model has 2 skins and it is on skin 1, then skin 0 tells us to
4032 // use skin 1 instead)
4033 texture = surfacelist[i]->texture;
4034 rsurface_texture = texture->currentframe;
4035 rsurface_uselightmaptexture = surfacelist[i]->lightmaptexture != NULL;
4036 if (!(rsurface_texture->currentmaterialflags & flagsmask))
4038 // if this texture is not the kind we want, skip ahead to the next one
4039 for (;j < numsurfaces && texture == surfacelist[j]->texture;j++)
4043 if (rsurface_texture->currentmaterialflags & MATERIALFLAG_BLENDED)
4045 // transparent surfaces get pushed off into the transparent queue
4046 const msurface_t *surface = surfacelist[i];
4047 tempcenter[0] = (surface->mins[0] + surface->maxs[0]) * 0.5f;
4048 tempcenter[1] = (surface->mins[1] + surface->maxs[1]) * 0.5f;
4049 tempcenter[2] = (surface->mins[2] + surface->maxs[2]) * 0.5f;
4050 Matrix4x4_Transform(&rsurface_entity->matrix, tempcenter, center);
4051 R_MeshQueue_AddTransparent(rsurface_texture->currentmaterialflags & MATERIALFLAG_NODEPTHTEST ? r_view.origin : center, R_DrawSurface_TransparentCallback, rsurface_entity, surface - rsurface_model->data_surfaces, r_shadow_rtlight);
4055 // simply scan ahead until we find a different texture or lightmap state
4056 for (;j < numsurfaces && texture == surfacelist[j]->texture && rsurface_uselightmaptexture == (surfacelist[j]->lightmaptexture != NULL);j++)
4058 // render the range of surfaces
4059 R_DrawTextureSurfaceList(j - i, surfacelist + i);
4064 float locboxvertex3f[6*4*3] =
4066 1,0,1, 1,0,0, 1,1,0, 1,1,1,
4067 0,1,1, 0,1,0, 0,0,0, 0,0,1,
4068 1,1,1, 1,1,0, 0,1,0, 0,1,1,
4069 0,0,1, 0,0,0, 1,0,0, 1,0,1,
4070 0,0,1, 1,0,1, 1,1,1, 0,1,1,
4071 1,0,0, 0,0,0, 0,1,0, 1,1,0
4074 int locboxelement3i[6*2*3] =
4084 void R_DrawLoc_Callback(const entity_render_t *ent, const rtlight_t *rtlight, int numsurfaces, int *surfacelist)
4087 cl_locnode_t *loc = (cl_locnode_t *)ent;
4089 float vertex3f[6*4*3];
4091 GL_BlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
4092 GL_DepthMask(false);
4094 GL_CullFace(GL_NONE);
4095 R_Mesh_Matrix(&identitymatrix);
4097 R_Mesh_VertexPointer(vertex3f, 0, 0);
4098 R_Mesh_ColorPointer(NULL, 0, 0);
4099 R_Mesh_ResetTextureState();
4102 GL_Color(((i & 0x0007) >> 0) * (1.0f / 7.0f) * r_view.colorscale,
4103 ((i & 0x0038) >> 3) * (1.0f / 7.0f) * r_view.colorscale,
4104 ((i & 0x01C0) >> 6) * (1.0f / 7.0f) * r_view.colorscale,
4105 surfacelist[0] < 0 ? 0.5f : 0.125f);
4107 if (VectorCompare(loc->mins, loc->maxs))
4109 VectorSet(size, 2, 2, 2);
4110 VectorMA(loc->mins, -0.5f, size, mins);
4114 VectorCopy(loc->mins, mins);
4115 VectorSubtract(loc->maxs, loc->mins, size);
4118 for (i = 0;i < 6*4*3;)
4119 for (j = 0;j < 3;j++, i++)
4120 vertex3f[i] = mins[j] + size[j] * locboxvertex3f[i];
4122 R_Mesh_Draw(0, 6*4, 6*2, locboxelement3i, 0, 0);
4125 void R_DrawLocs(void)
4128 cl_locnode_t *loc, *nearestloc;
4130 nearestloc = CL_Locs_FindNearest(cl.movement_origin);
4131 for (loc = cl.locnodes, index = 0;loc;loc = loc->next, index++)
4133 VectorLerp(loc->mins, 0.5f, loc->maxs, center);
4134 R_MeshQueue_AddTransparent(center, R_DrawLoc_Callback, (entity_render_t *)loc, loc == nearestloc ? -1 : index, NULL);
4138 void R_DrawCollisionBrushes(entity_render_t *ent)
4142 msurface_t *surface;
4143 model_t *model = ent->model;
4144 if (!model->brush.num_brushes)
4147 R_Mesh_ColorPointer(NULL, 0, 0);
4148 R_Mesh_ResetTextureState();
4149 GL_BlendFunc(GL_SRC_ALPHA, GL_ONE);
4150 GL_DepthMask(false);
4151 GL_DepthTest(!r_showdisabledepthtest.integer);
4152 qglPolygonOffset(r_refdef.polygonfactor + r_showcollisionbrushes_polygonfactor.value, r_refdef.polygonoffset + r_showcollisionbrushes_polygonoffset.value);CHECKGLERROR
4153 for (i = 0, brush = model->brush.data_brushes + model->firstmodelbrush;i < model->nummodelbrushes;i++, brush++)
4154 if (brush->colbrushf && brush->colbrushf->numtriangles)
4155 R_DrawCollisionBrush(brush->colbrushf);
4156 for (i = 0, surface = model->data_surfaces + model->firstmodelsurface;i < model->nummodelsurfaces;i++, surface++)
4157 if (surface->num_collisiontriangles)
4158 R_DrawCollisionSurface(ent, surface);
4159 qglPolygonOffset(r_refdef.polygonfactor, r_refdef.polygonoffset);CHECKGLERROR
4162 void R_DrawTrianglesAndNormals(entity_render_t *ent, qboolean drawtris, qboolean drawnormals, int flagsmask)
4165 const int *elements;
4166 msurface_t *surface;
4167 model_t *model = ent->model;
4170 GL_DepthTest(!r_showdisabledepthtest.integer);
4172 GL_BlendFunc(GL_ONE, GL_ZERO);
4173 R_Mesh_ColorPointer(NULL, 0, 0);
4174 R_Mesh_ResetTextureState();
4175 for (i = 0, j = model->firstmodelsurface, surface = model->data_surfaces + j;i < model->nummodelsurfaces;i++, j++, surface++)
4177 if (ent == r_refdef.worldentity && !r_viewcache.world_surfacevisible[j])
4179 rsurface_texture = surface->texture->currentframe;
4180 if ((rsurface_texture->currentmaterialflags & flagsmask) && surface->num_triangles)
4182 RSurf_PrepareVerticesForBatch(true, true, 1, &surface);
4185 if (!rsurface_texture->currentlayers->depthmask)
4186 GL_Color(r_showtris.value * r_view.colorscale, 0, 0, 1);
4187 else if (ent == r_refdef.worldentity)
4188 GL_Color(r_showtris.value * r_view.colorscale, r_showtris.value * r_view.colorscale, r_showtris.value * r_view.colorscale, 1);
4190 GL_Color(0, r_showtris.value * r_view.colorscale, 0, 1);
4191 elements = (ent->model->surfmesh.data_element3i + 3 * surface->num_firsttriangle);
4194 for (k = 0;k < surface->num_triangles;k++, elements += 3)
4196 qglArrayElement(elements[0]);qglArrayElement(elements[1]);
4197 qglArrayElement(elements[1]);qglArrayElement(elements[2]);
4198 qglArrayElement(elements[2]);qglArrayElement(elements[0]);
4205 GL_Color(r_shownormals.value * r_view.colorscale, 0, 0, 1);
4207 for (k = 0, l = surface->num_firstvertex;k < surface->num_vertices;k++, l++)
4209 VectorCopy(rsurface_vertex3f + l * 3, v);
4210 qglVertex3f(v[0], v[1], v[2]);
4211 VectorMA(v, 8, rsurface_svector3f + l * 3, v);
4212 qglVertex3f(v[0], v[1], v[2]);
4216 GL_Color(0, 0, r_shownormals.value * r_view.colorscale, 1);
4218 for (k = 0, l = surface->num_firstvertex;k < surface->num_vertices;k++, l++)
4220 VectorCopy(rsurface_vertex3f + l * 3, v);
4221 qglVertex3f(v[0], v[1], v[2]);
4222 VectorMA(v, 8, rsurface_tvector3f + l * 3, v);
4223 qglVertex3f(v[0], v[1], v[2]);
4227 GL_Color(0, r_shownormals.value * r_view.colorscale, 0, 1);
4229 for (k = 0, l = surface->num_firstvertex;k < surface->num_vertices;k++, l++)
4231 VectorCopy(rsurface_vertex3f + l * 3, v);
4232 qglVertex3f(v[0], v[1], v[2]);
4233 VectorMA(v, 8, rsurface_normal3f + l * 3, v);
4234 qglVertex3f(v[0], v[1], v[2]);
4241 rsurface_texture = NULL;
4244 extern void R_BuildLightMap(const entity_render_t *ent, msurface_t *surface);
4245 void R_DrawWorldSurfaces(qboolean skysurfaces)
4247 int i, j, endj, f, flagsmask;
4248 int counttriangles = 0;
4249 msurface_t *surface, **surfacechain;
4251 model_t *model = r_refdef.worldmodel;
4252 const int maxsurfacelist = 1024;
4253 int numsurfacelist = 0;
4254 msurface_t *surfacelist[1024];
4258 RSurf_ActiveWorldEntity();
4260 // update light styles
4261 if (!skysurfaces && model->brushq1.light_styleupdatechains)
4263 for (i = 0;i < model->brushq1.light_styles;i++)
4265 if (model->brushq1.light_stylevalue[i] != r_refdef.lightstylevalue[model->brushq1.light_style[i]])
4267 model->brushq1.light_stylevalue[i] = r_refdef.lightstylevalue[model->brushq1.light_style[i]];
4268 if ((surfacechain = model->brushq1.light_styleupdatechains[i]))
4269 for (;(surface = *surfacechain);surfacechain++)
4270 surface->cached_dlight = true;
4275 R_UpdateAllTextureInfo(r_refdef.worldentity);
4276 flagsmask = skysurfaces ? MATERIALFLAG_SKY : (MATERIALFLAG_WATER | MATERIALFLAG_WALL);
4279 rsurface_uselightmaptexture = false;
4280 rsurface_texture = NULL;
4282 j = model->firstmodelsurface;
4283 endj = j + model->nummodelsurfaces;
4286 // quickly skip over non-visible surfaces
4287 for (;j < endj && !r_viewcache.world_surfacevisible[j];j++)
4289 // quickly iterate over visible surfaces
4290 for (;j < endj && r_viewcache.world_surfacevisible[j];j++)
4292 // process this surface
4293 surface = model->data_surfaces + j;
4294 // if this surface fits the criteria, add it to the list
4295 if (surface->num_triangles)
4297 // if lightmap parameters changed, rebuild lightmap texture
4298 if (surface->cached_dlight)
4299 R_BuildLightMap(r_refdef.worldentity, surface);
4300 // add face to draw list
4301 surfacelist[numsurfacelist++] = surface;
4302 counttriangles += surface->num_triangles;
4303 if (numsurfacelist >= maxsurfacelist)
4305 R_QueueSurfaceList(numsurfacelist, surfacelist, flagsmask);
4312 R_QueueSurfaceList(numsurfacelist, surfacelist, flagsmask);
4313 r_refdef.stats.entities_triangles += counttriangles;
4316 if (r_showcollisionbrushes.integer && !skysurfaces)
4317 R_DrawCollisionBrushes(r_refdef.worldentity);
4319 if (r_showtris.integer || r_shownormals.integer)
4320 R_DrawTrianglesAndNormals(r_refdef.worldentity, r_showtris.integer, r_shownormals.integer, flagsmask);
4323 void R_DrawModelSurfaces(entity_render_t *ent, qboolean skysurfaces)
4325 int i, f, flagsmask;
4326 int counttriangles = 0;
4327 msurface_t *surface, *endsurface, **surfacechain;
4329 model_t *model = ent->model;
4330 const int maxsurfacelist = 1024;
4331 int numsurfacelist = 0;
4332 msurface_t *surfacelist[1024];
4336 // if the model is static it doesn't matter what value we give for
4337 // wantnormals and wanttangents, so this logic uses only rules applicable
4338 // to a model, knowing that they are meaningless otherwise
4339 if (ent == r_refdef.worldentity)
4340 RSurf_ActiveWorldEntity();
4341 else if ((ent->effects & EF_FULLBRIGHT) || r_showsurfaces.integer || VectorLength2(ent->modellight_diffuse) < (1.0f / 256.0f))
4342 RSurf_ActiveModelEntity(ent, false, false);
4344 RSurf_ActiveModelEntity(ent, true, r_glsl.integer && gl_support_fragment_shader);
4346 // update light styles
4347 if (!skysurfaces && model->brushq1.light_styleupdatechains)
4349 for (i = 0;i < model->brushq1.light_styles;i++)
4351 if (model->brushq1.light_stylevalue[i] != r_refdef.lightstylevalue[model->brushq1.light_style[i]])
4353 model->brushq1.light_stylevalue[i] = r_refdef.lightstylevalue[model->brushq1.light_style[i]];
4354 if ((surfacechain = model->brushq1.light_styleupdatechains[i]))
4355 for (;(surface = *surfacechain);surfacechain++)
4356 surface->cached_dlight = true;
4361 R_UpdateAllTextureInfo(ent);
4362 flagsmask = skysurfaces ? MATERIALFLAG_SKY : (MATERIALFLAG_WATER | MATERIALFLAG_WALL);
4365 rsurface_uselightmaptexture = false;
4366 rsurface_texture = NULL;
4368 surface = model->data_surfaces + model->firstmodelsurface;
4369 endsurface = surface + model->nummodelsurfaces;
4370 for (;surface < endsurface;surface++)
4372 // if this surface fits the criteria, add it to the list
4373 if (surface->num_triangles)
4375 // if lightmap parameters changed, rebuild lightmap texture
4376 if (surface->cached_dlight)
4377 R_BuildLightMap(ent, surface);
4378 // add face to draw list
4379 surfacelist[numsurfacelist++] = surface;
4380 counttriangles += surface->num_triangles;
4381 if (numsurfacelist >= maxsurfacelist)
4383 R_QueueSurfaceList(numsurfacelist, surfacelist, flagsmask);
4389 R_QueueSurfaceList(numsurfacelist, surfacelist, flagsmask);
4390 r_refdef.stats.entities_triangles += counttriangles;
4393 if (r_showcollisionbrushes.integer && !skysurfaces)
4394 R_DrawCollisionBrushes(ent);
4396 if (r_showtris.integer || r_shownormals.integer)
4397 R_DrawTrianglesAndNormals(ent, r_showtris.integer, r_shownormals.integer, flagsmask);