1 #ifndef SHADER_model_character_view_H
2 #define SHADER_model_character_view_H
3 static void shader_model_character_view_link(void);
4 static void shader_model_character_view_register(void);
5 static struct vg_shader _shader_model_character_view
= {
6 .name
= "model_character_view",
7 .link
= shader_model_character_view_link
,
10 .orig_file
= "shaders/model_skinned.vs",
12 "layout (location=0) in vec3 a_co;\n"
13 "layout (location=1) in vec3 a_norm;\n"
14 "layout (location=2) in vec2 a_uv;\n"
15 "layout (location=3) in vec4 a_colour;\n"
16 "layout (location=4) in vec4 a_weights;\n"
17 "layout (location=5) in ivec4 a_groups;\n"
20 "const float k_motion_lerp_amount = 0.01;\n"
24 "out vec3 aMotionVec0;\n"
25 "out vec3 aMotionVec1;\n"
27 "void vs_motion_out( vec4 vproj0, vec4 vproj1 )\n"
29 " // This magically solves some artifacting errors!\n"
31 " vproj1 = vproj0*(1.0-k_motion_lerp_amount) + vproj1*k_motion_lerp_amount;\n"
33 " aMotionVec0 = vec3( vproj0.xy, vproj0.w );\n"
34 " aMotionVec1 = vec3( vproj1.xy, vproj1.w );\n"
40 "uniform mat4x3 uTransforms[32];\n"
46 "out vec3 aWorldCo;\n"
50 " vec4 co_local = vec4( a_co, 1.0 );\n"
51 " vec3 co0 = uTransforms[ a_groups[0] ] * co_local;\n"
52 " vec3 co1 = uTransforms[ a_groups[1] ] * co_local;\n"
53 " vec3 co2 = uTransforms[ a_groups[2] ] * co_local;\n"
54 " vec3 n0 = mat3(uTransforms[ a_groups[0] ]) * a_norm;\n"
55 " vec3 n1 = mat3(uTransforms[ a_groups[1] ]) * a_norm;\n"
56 " vec3 n2 = mat3(uTransforms[ a_groups[2] ]) * a_norm;\n"
58 " vec3 world_pos = co0*a_weights[0] + co1*a_weights[1] + co2*a_weights[2];\n"
59 " vec3 world_normal = n0*a_weights[0] + n1*a_weights[1] + n2*a_weights[2];\n"
61 " gl_Position = uPv * vec4( world_pos, 1.0 );\n"
62 " aColour = a_colour;\n"
64 " aNorm = world_normal;\n"
66 " aWorldCo = world_pos;\n"
68 " // TODO: motion vectors\n"
69 " aMotionVec0 = vec3(1.0);\n"
70 " aMotionVec1 = vec3(1.0);\n"
75 .orig_file
= "shaders/model_character_view.fs",
77 "uniform sampler2D uTexMain;\n"
78 "uniform vec3 uCamera;\n"
88 "const float CLEARSKIES_LIGHT_DOT_MIN = 0.0;\n"
92 "layout (location = 0) out vec4 oColour;\n"
94 "// OpenGL wiki: Recommends do not use vec3 because of drivers. hence the v4s...\n"
95 "layout (std140) uniform ub_world_lighting\n"
98 " vec4 g_cube_inv_range;\n"
100 " vec4 g_water_plane;\n"
101 " vec4 g_depth_bounds;\n"
103 " vec4 g_daysky_colour;\n"
104 " vec4 g_nightsky_colour;\n"
105 " vec4 g_sunset_colour;\n"
106 " vec4 g_ambient_colour;\n"
107 " vec4 g_sunset_ambient;\n"
108 " vec4 g_sun_colour;\n"
113 " float g_water_fog;\n"
115 " float g_realtime;\n"
116 " float g_shadow_length;\n"
117 " float g_shadow_spread;\n"
119 " float g_time_of_day;\n"
120 " float g_day_phase;\n"
121 " float g_sunset_phase;\n"
123 " int g_light_preview;\n"
124 " int g_shadow_samples;\n"
126 " int g_debug_indices;\n"
127 " int g_debug_complexity;\n"
130 "uniform sampler2D g_world_depth;\n"
131 "uniform samplerBuffer uLightsArray;\n"
132 "uniform usampler3D uLightsIndex;\n"
135 "//const vec3 DAYSKY_COLOUR = vec3( 0.37, 0.54, 0.97 );\n"
136 "//const vec3 NIGHTSKY_COLOUR = vec3( 0.03, 0.05, 0.20 );\n"
137 "//const vec3 SUNSET_COLOUR = vec3( 1.00, 0.32, 0.01 );\n"
138 "//const vec3 AMBIENT_COLOUR = vec3( 0.13, 0.17, 0.35 );\n"
139 "//const vec3 SUNSET_AMBIENT = vec3( 0.25, 0.17, 0.51 );\n"
140 "//const vec3 SUN_COLOUR = vec3( 1.10, 0.89, 0.35 );\n"
142 "const float SUN_ANGLE = 0.0001;\n"
143 "const float PI = 3.14159265358979323846264;\n"
145 "//struct world_info\n"
155 "vec3 rand33(vec3 p3)\n"
157 " p3 = fract(p3 * vec3(.1031, .1030, .0973));\n"
158 " p3 += dot(p3, p3.yxz+33.33);\n"
159 " return fract((p3.xxy + p3.yxx)*p3.zyx);\n"
162 "float stars( vec3 rd, float rr, float size ){\n"
163 " vec3 co = rd * rr;\n"
165 " float a = atan(co.y, length(co.xz)) + 4.0 * PI;\n"
167 " float spaces = 1.0 / rr;\n"
168 " size = (rr * 0.0015) * fwidth(a) * 1000.0 * size;\n"
169 " a -= mod(a, spaces) - spaces * 0.5;\n"
171 " float count = floor(sqrt(pow(rr, 2.0) * (1.0 - pow(sin(a), 2.0))) * 3.0);\n"
173 " float plane = atan(co.z, co.x) + 4.0 * PI;\n"
174 " plane = plane - mod(plane, PI / count);\n"
176 " vec2 delta = rand33(vec3(plane, a, 0.0)).xy;\n"
178 " float level = sin(a + spaces * (delta.y - 0.5) * (1.0 - size)) * rr;\n"
179 " float ydist = sqrt(rr * rr - level * level);\n"
180 " float angle = plane + (PI * (delta.x * (1.0-size) + size * 0.5) / count);\n"
181 " vec3 center = vec3(cos(angle) * ydist, level, sin(angle) * ydist);\n"
182 " float star = smoothstep(size, 0.0, distance(center, co));\n"
186 "float luminance( vec3 v )\n"
188 " return dot( v, vec3(0.2126, 0.7152, 0.0722) );\n"
191 "vec3 clearskies_ambient( vec3 dir )\n"
193 " float sun_azimuth = g_sunset_phase * (dot( dir.xz, g_sun_dir.xz )*0.4+0.6);\n"
194 " float sky_gradient = dir.y;\n"
196 " /* Blend phase colours */\n"
197 " vec3 ambient = g_daysky_colour.rgb * (g_day_phase-g_sunset_phase*0.1);\n"
198 " ambient += g_sunset_colour.rgb * (1.0-dir.y*0.5)*sun_azimuth;\n"
199 " ambient += g_nightsky_colour.rgb * (1.0-g_day_phase);\n"
201 " /* Add gradient */\n"
202 " ambient -= sky_gradient * luminance(ambient);\n"
207 "vec3 clearskies_sky( vec3 ray_dir )\n"
209 " ray_dir.y = abs( ray_dir.y );\n"
210 " vec3 sky_colour = clearskies_ambient( ray_dir );\n"
213 " float sun_theta = dot( ray_dir, g_sun_dir.xyz );\n"
214 " float sun_size = max( 0.0, sun_theta * 0.5 + 0.5 + SUN_ANGLE );\n"
215 " float sun_shape = pow( sun_size, 2000.0 );\n"
216 " sun_shape += sun_size * max(g_sun_dir.y,0.0) * 0.5;\n"
218 " vec3 sun_colour = mix( vec3(1.0), g_sunset_colour.rgb, g_sunset_phase*0.5 );\n"
219 " sun_colour *= sun_shape;\n"
222 " float star = 0.0;\n"
223 " float star_blend = 10.0*max(0.0,(1.0-g_day_phase*2.0));\n"
225 " if( star_blend > 0.001 ){\n"
226 " for( float j = 1.0; j <= 4.1; j += 1.0 ){\n"
227 " float m = mix(0.6, 0.9, smoothstep(1.0, 2.0, j));\n"
228 " star += stars( ray_dir, 1.94 * pow( 1.64, j ), m ) * (1.0/pow(4.0, j));\n"
232 " vec3 composite = sky_colour + sun_colour + star*star_blend;\n"
233 " return composite;\n"
236 "vec3 clearskies_lighting( vec3 normal, float shadow, vec3 halfview )\n"
238 " float fresnel = 1.0 - abs(dot(normal,halfview));\n"
240 " vec3 reflect_colour = mix( g_daysky_colour.rgb, g_sunset_colour.rgb, \n"
241 " g_sunset_phase );\n"
243 " vec3 sky_reflection = 0.5 * fresnel * reflect_colour;\n"
244 " vec3 light_sun = max( CLEARSKIES_LIGHT_DOT_MIN, \n"
245 " dot(normal,g_sun_dir.xyz)*0.75+0.25\n"
246 " ) * g_sun_colour.rgb * g_day_phase;\n"
248 " float scaled_shadow = max( shadow, 1.0 - max(g_sun_dir.y,0.0) );\n"
249 " vec3 ambient = mix( g_ambient_colour.rgb, g_sunset_ambient.rgb, \n"
250 " g_sunset_phase );\n"
252 " return ambient + (light_sun + sky_reflection) * shadow;\n"
257 "float world_depth_sample( vec3 pos )\n"
259 " vec2 depth_coord = (pos.xz - g_depth_bounds.xy) * g_depth_bounds.zw; \n"
260 " return texture( g_world_depth, depth_coord ).r;\n"
263 "float world_water_depth( vec3 pos )\n"
265 " float ref_depth = g_water_plane.y*g_water_plane.w;\n"
266 " return world_depth_sample( pos ) - ref_depth;\n"
269 "float shadow_sample( vec3 co ){\n"
270 " float height_sample = world_depth_sample( co );\n"
272 " float fdelta = height_sample - co.y;\n"
273 " return clamp( fdelta, 0.2, 0.4 )-0.2;\n"
276 "float newlight_compute_sun_shadow( vec3 co, vec3 dir ){\n"
277 " if( g_shadow_samples == 0 ){\n"
281 " float fspread = g_shadow_spread;\n"
282 " float flength = g_shadow_length;\n"
284 " float famt = 0.0;\n"
285 " famt += shadow_sample(co+(dir+vec3(-0.56,0.55, 0.30)*fspread)*flength*0.1);\n"
286 " famt += shadow_sample(co+(dir+vec3( 0.80,0.68, 0.34)*fspread)*flength*0.2);\n"
287 " famt += shadow_sample(co+(dir+vec3( 0.78,0.07,-0.06)*fspread)*flength*0.3);\n"
288 " famt += shadow_sample(co+(dir+vec3(-0.59,0.07,-0.42)*fspread)*flength*0.4);\n"
290 " //famt+=shadow_sample(co+(dir+vec3(-0.790,-0.933,-0.875)*fspread)*flength*0.5);\n"
291 " //famt+=shadow_sample(co+(dir+vec3( 0.807,-0.690, 0.472)*fspread)*flength*0.6);\n"
292 " //famt+=shadow_sample(co+(dir+vec3( 0.522,-0.379, 0.350)*fspread)*flength*0.7);\n"
293 " //famt+=shadow_sample(co+(dir+vec3( 0.483, 0.201, 0.306)*fspread)*flength*0.8);\n"
295 " return 1.0 - famt;\n"
298 "float newlight_specular( vec3 wnormal, vec3 dir, vec3 halfview, float exponent )\n"
300 " vec3 specdir = reflect( -dir, wnormal );\n"
301 " return pow(max(dot( halfview, specdir ), 0.0), exponent);\n"
304 "vec3 scene_apply_fog( vec3 vfrag, vec3 colour, float fdist ){\n"
305 " float dist = pow(fdist*0.0010,0.78);\n"
306 " return mix( vfrag, colour, min( 1.0, dist ) );\n"
309 "vec3 scene_calculate_light( int light_index, \n"
310 " vec3 halfview, vec3 co, vec3 normal )\n"
312 " vec4 light_colour = texelFetch( uLightsArray, light_index+0 );\n"
313 " vec4 light_co = texelFetch( uLightsArray, light_index+1 );\n"
314 " vec4 light_dir = texelFetch( uLightsArray, light_index+2 );\n"
316 " vec3 light_delta = light_co.xyz-co;\n"
317 " float dist2 = dot(light_delta,light_delta);\n"
319 " light_delta = normalize( light_delta );\n"
321 " float quadratic = dist2*100.0;\n"
322 " float attenuation = 1.0/( 1.0 + quadratic );\n"
323 " attenuation *= max( dot( light_delta, normal ), 0.0 );\n"
325 " float falloff = max( 0.0, 1.0-(dist2*light_co.w) );\n"
327 " if( light_dir.w < 0.999999 ){\n"
328 " float spot_theta = max( 0.0, dot( light_delta, -light_dir.xyz ) );\n"
329 " falloff *= max( 0.0, (spot_theta - light_dir.w) / (1.0-light_dir.w) );\n"
332 " return light_colour.rgb * attenuation * falloff \n"
333 " * step( g_day_phase, light_colour.w );\n"
336 "vec3 scene_calculate_packed_light_patch( uint packed_index, \n"
337 " vec3 halfview, vec3 co, vec3 normal )\n"
339 " uint light_count = packed_index & 0x3u;\n"
341 " vec3 l = vec3(0.0);\n"
343 " if( light_count >= 1u ){\n"
344 " int index_0 = int( ((packed_index >> 2u) & 0x3ffu) * 3u );\n"
345 " int index_1 = int( ((packed_index >> 12u) & 0x3ffu) * 3u );\n"
346 " int index_2 = int( ((packed_index >> 22u) & 0x3ffu) * 3u );\n"
348 " l += scene_calculate_light( index_0, halfview, co, normal );\n"
350 " if( light_count >= 2u ){\n"
351 " l += scene_calculate_light( index_1, halfview, co, normal );\n"
353 " if( light_count >= 3u ){\n"
354 " l += scene_calculate_light( index_2, halfview, co, normal );\n"
362 "vec3 world_compute_lighting( vec3 diffuse, vec3 normal, vec3 co,\n"
363 " float light_mask )\n"
365 " if( g_light_preview == 1 )\n"
366 " diffuse = vec3(0.75);\n"
369 " vec3 halfview = uCamera - co;\n"
370 " float fdist = length(halfview);\n"
371 " halfview /= fdist;\n"
373 " float world_shadow = newlight_compute_sun_shadow( \n"
374 " co, g_sun_dir.xyz * (1.0/(max(g_sun_dir.y,0.0)+0.2)) );\n"
376 " vec3 total_light = clearskies_lighting( \n"
377 " normal, min( light_mask, world_shadow ), halfview );\n"
379 " vec3 cube_coord = (co - g_cube_min.xyz) * g_cube_inv_range.xyz;\n"
380 " cube_coord = floor( cube_coord );\n"
382 " if( g_debug_indices == 1 )\n"
384 " return rand33(cube_coord);\n"
387 " if( g_debug_complexity == 1 )\n"
389 " ivec3 coord = ivec3( cube_coord );\n"
390 " uvec4 index_sample = texelFetch( uLightsIndex, coord, 0 );\n"
392 " uint light_count = (index_sample.x & 0x3u) + (index_sample.y & 0x3u);\n"
393 " return vec3( float(light_count)*(1.0/6.0), 0.0, 0.5 );\n"
396 " // FIXME: this coord should absolutely must be clamped!\n"
398 " ivec3 coord = ivec3( cube_coord );\n"
399 " uvec4 index_sample = texelFetch( uLightsIndex, coord, 0 );\n"
402 " scene_calculate_packed_light_patch( index_sample.x,\n"
403 " halfview, co, normal ) \n"
406 " scene_calculate_packed_light_patch( index_sample.y,\n"
407 " halfview, co, normal )\n"
410 " // Take a section of the sky function to give us a matching fog colour\n"
412 " vec3 fog_colour = clearskies_ambient( -halfview );\n"
413 " float sun_theta = dot( -halfview, g_sun_dir.xyz );\n"
414 " float sun_size = max( 0.0, sun_theta * 0.5 + 0.5 );\n"
415 " float sun_shape = sun_size * max(g_sun_dir.y,0.0) * 0.5;\n"
417 " vec3 sun_colour = mix( vec3(1.0), g_sunset_colour.rgb, g_sunset_phase*0.5 );\n"
418 " sun_colour *= sun_shape;\n"
420 " fog_colour += sun_colour;\n"
421 " return scene_apply_fog( diffuse * total_light, fog_colour, fdist );\n"
426 "const float k_motion_lerp_amount = 0.01;\n"
430 "layout (location = 1) out vec2 oMotionVec;\n"
432 "in vec3 aMotionVec0;\n"
433 "in vec3 aMotionVec1;\n"
435 "void compute_motion_vectors()\n"
437 " // Write motion vectors\n"
438 " vec2 vmotion0 = aMotionVec0.xy / aMotionVec0.z;\n"
439 " vec2 vmotion1 = aMotionVec1.xy / aMotionVec1.z;\n"
441 " oMotionVec = (vmotion1-vmotion0) * (1.0/k_motion_lerp_amount);\n"
446 "uniform sampler2D uTexSceneDepth;\n"
447 "uniform vec3 uInverseRatioDepth;\n"
448 "uniform vec3 uInverseRatioMain;\n"
449 "uniform bool uDepthCompare;\n"
451 "float linear_depth( float depth, float near, float far ) {\n"
452 " float z = depth * 2.0 - 1.0;\n"
453 " return (2.0 * near * far) / (far + near - z * (far - near)); \n"
456 "void depth_compare_dither(){\n"
457 " if( uDepthCompare ){\n"
458 " vec2 back_coord = gl_FragCoord.xy * uInverseRatioMain.xy \n"
459 " * uInverseRatioDepth.xy;\n"
460 " float back_depth = texture( uTexSceneDepth, back_coord ).r;\n"
461 " float front_depth = gl_FragCoord.z/gl_FragCoord.w;\n"
463 " back_depth = linear_depth( back_depth, 0.1, 2100.0 );\n"
464 " float diff = back_depth - front_depth;\n"
466 " vec2 ssuv = gl_FragCoord.xy;\n"
467 " vec3 vDither = vec3( dot( vec2( 171.0, 231.0 ), ssuv) );\n"
468 " float dither = fract( vDither.g / 71.0 ) - 0.5;\n"
470 " if( step(0.0,diff)+dither<0.3 )\n"
477 "vec3 character_clearskies_lighting( vec3 normal, float shadow, vec3 halfview )\n"
479 " float fresnel = 1.0 - abs(dot(normal,halfview));\n"
481 " vec3 reflect_colour = mix( g_daysky_colour.rgb, g_sunset_colour.rgb, \n"
482 " g_sunset_phase );\n"
485 " vec3 sky_reflection = 0.5 * fresnel * reflect_colour;\n"
486 " vec3 light_sun = max(0.0, dot(normal,g_sun_dir.xyz)*0.5+0.5) \n"
487 " * g_sun_colour.rgb * g_day_phase;\n"
489 " float scaled_shadow = max( shadow, 1.0 - max(g_sun_dir.y,0.0) );\n"
490 " vec3 ambient = mix( g_ambient_colour.rgb, g_sunset_ambient.rgb, \n"
491 " g_sunset_phase );\n"
493 " return ambient + (light_sun + sky_reflection) * shadow;\n"
496 "vec3 character_compute_lighting( vec3 diffuse, vec3 normal, vec3 co,\n"
497 " float light_mask )\n"
499 " if( g_light_preview == 1 )\n"
500 " diffuse = vec3(0.75);\n"
503 " vec3 halfview = uCamera - co;\n"
504 " float fdist = length(halfview);\n"
505 " halfview /= fdist;\n"
507 " float world_shadow = newlight_compute_sun_shadow( \n"
508 " co, g_sun_dir.xyz * (1.0/(max(g_sun_dir.y,0.0)+0.2)) );\n"
510 " vec3 total_light = character_clearskies_lighting( \n"
511 " normal, min( light_mask, world_shadow ), halfview );\n"
513 " vec3 cube_coord = (co - g_cube_min.xyz) * g_cube_inv_range.xyz;\n"
514 " cube_coord = floor( cube_coord );\n"
516 " if( g_debug_indices == 1 )\n"
518 " return rand33(cube_coord);\n"
521 " if( g_debug_complexity == 1 )\n"
523 " ivec3 coord = ivec3( cube_coord );\n"
524 " uvec4 index_sample = texelFetch( uLightsIndex, coord, 0 );\n"
526 " uint light_count = (index_sample.x & 0x3u) + (index_sample.y & 0x3u);\n"
527 " return vec3( float(light_count)*(1.0/6.0), 0.0, 0.5 );\n"
530 " // FIXME: this coord should absolutely must be clamped!\n"
532 " ivec3 coord = ivec3( cube_coord );\n"
533 " uvec4 index_sample = texelFetch( uLightsIndex, coord, 0 );\n"
536 " scene_calculate_packed_light_patch( index_sample.x,\n"
537 " halfview, co, normal ) \n"
540 " scene_calculate_packed_light_patch( index_sample.y,\n"
541 " halfview, co, normal )\n"
544 " // Take a section of the sky function to give us a matching fog colour\n"
546 " vec3 fog_colour = clearskies_ambient( -halfview );\n"
547 " float sun_theta = dot( -halfview, g_sun_dir.xyz );\n"
548 " float sun_size = max( 0.0, sun_theta * 0.5 + 0.5 );\n"
549 " float sun_shape = sun_size * max(g_sun_dir.y,0.0) * 0.5;\n"
551 " vec3 sun_colour = mix( vec3(1.0), g_sunset_colour.rgb, g_sunset_phase*0.5 );\n"
552 " sun_colour *= sun_shape;\n"
554 " fog_colour += sun_colour;\n"
555 " return scene_apply_fog( diffuse * total_light, fog_colour, fdist );\n"
559 " depth_compare_dither();\n"
560 " compute_motion_vectors();\n"
562 " vec3 qnorm = aNorm;\n"
563 " vec3 diffuse = texture( uTexMain, aUv ).rgb;\n"
564 " vec3 composite = character_compute_lighting( diffuse, qnorm, aWorldCo, 1.0 );\n"
566 " float dist = distance( aWorldCo, uCamera ) - 0.08;\n"
567 " float opacity = clamp( dist*dist, 0.0, 1.0 );\n"
569 " oColour = vec4( composite, opacity );\n"
574 static GLuint _uniform_model_character_view_uPv
;
575 static GLuint _uniform_model_character_view_uTransforms
;
576 static GLuint _uniform_model_character_view_uTexMain
;
577 static GLuint _uniform_model_character_view_uCamera
;
578 static GLuint _uniform_model_character_view_g_world_depth
;
579 static GLuint _uniform_model_character_view_uLightsArray
;
580 static GLuint _uniform_model_character_view_uLightsIndex
;
581 static GLuint _uniform_model_character_view_uTexSceneDepth
;
582 static GLuint _uniform_model_character_view_uInverseRatioDepth
;
583 static GLuint _uniform_model_character_view_uInverseRatioMain
;
584 static GLuint _uniform_model_character_view_uDepthCompare
;
585 static void shader_model_character_view_uPv(m4x4f m
){
586 glUniformMatrix4fv(_uniform_model_character_view_uPv
,1,GL_FALSE
,(float*)m
);
588 static void shader_model_character_view_uTexMain(int i
){
589 glUniform1i(_uniform_model_character_view_uTexMain
,i
);
591 static void shader_model_character_view_uCamera(v3f v
){
592 glUniform3fv(_uniform_model_character_view_uCamera
,1,v
);
594 static void shader_model_character_view_g_world_depth(int i
){
595 glUniform1i(_uniform_model_character_view_g_world_depth
,i
);
597 static void shader_model_character_view_uTexSceneDepth(int i
){
598 glUniform1i(_uniform_model_character_view_uTexSceneDepth
,i
);
600 static void shader_model_character_view_uInverseRatioDepth(v3f v
){
601 glUniform3fv(_uniform_model_character_view_uInverseRatioDepth
,1,v
);
603 static void shader_model_character_view_uInverseRatioMain(v3f v
){
604 glUniform3fv(_uniform_model_character_view_uInverseRatioMain
,1,v
);
606 static void shader_model_character_view_uDepthCompare(int b
){
607 glUniform1i(_uniform_model_character_view_uDepthCompare
,b
);
609 static void shader_model_character_view_register(void){
610 vg_shader_register( &_shader_model_character_view
);
612 static void shader_model_character_view_use(void){ glUseProgram(_shader_model_character_view
.id
); }
613 static void shader_model_character_view_link(void){
614 _uniform_model_character_view_uPv
= glGetUniformLocation( _shader_model_character_view
.id
, "uPv" );
615 _uniform_model_character_view_uTransforms
= glGetUniformLocation( _shader_model_character_view
.id
, "uTransforms" );
616 _uniform_model_character_view_uTexMain
= glGetUniformLocation( _shader_model_character_view
.id
, "uTexMain" );
617 _uniform_model_character_view_uCamera
= glGetUniformLocation( _shader_model_character_view
.id
, "uCamera" );
618 _uniform_model_character_view_g_world_depth
= glGetUniformLocation( _shader_model_character_view
.id
, "g_world_depth" );
619 _uniform_model_character_view_uLightsArray
= glGetUniformLocation( _shader_model_character_view
.id
, "uLightsArray" );
620 _uniform_model_character_view_uLightsIndex
= glGetUniformLocation( _shader_model_character_view
.id
, "uLightsIndex" );
621 _uniform_model_character_view_uTexSceneDepth
= glGetUniformLocation( _shader_model_character_view
.id
, "uTexSceneDepth" );
622 _uniform_model_character_view_uInverseRatioDepth
= glGetUniformLocation( _shader_model_character_view
.id
, "uInverseRatioDepth" );
623 _uniform_model_character_view_uInverseRatioMain
= glGetUniformLocation( _shader_model_character_view
.id
, "uInverseRatioMain" );
624 _uniform_model_character_view_uDepthCompare
= glGetUniformLocation( _shader_model_character_view
.id
, "uDepthCompare" );
626 #endif /* SHADER_model_character_view_H */