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89 lines
2.3 KiB
Python
89 lines
2.3 KiB
Python
$input v_normal, v_view, v_texcoord0
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/*
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* Copyright 2013-2014 Dario Manesku. All rights reserved.
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* License: http://www.opensource.org/licenses/BSD-2-Clause
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*/
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#include "../common/common.sh"
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#define MAX_NUM_LIGHTS 5
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uniform vec4 u_params;
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uniform vec3 u_ambient;
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uniform vec3 u_diffuse;
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uniform vec4 u_color;
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uniform vec4 u_specular_shininess;
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uniform vec4 u_lightPosRadius[MAX_NUM_LIGHTS];
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uniform vec4 u_lightRgbInnerR[MAX_NUM_LIGHTS];
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SAMPLER2D(u_texColor, 0);
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#define u_ambientPass u_params.x
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#define u_lightningPass u_params.y
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#define u_lightCount u_params.z
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#define u_lightIndex u_params.w
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#define u_specular u_specular_shininess.xyz
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#define u_shininess u_specular_shininess.w
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vec2 blinn(vec3 _lightDir, vec3 _normal, vec3 _viewDir)
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{
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float ndotl = dot(_normal, _lightDir);
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vec3 reflected = 2.0*ndotl*_normal - _lightDir; // reflect(_lightDir, _normal);
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float rdotv = dot(reflected, _viewDir);
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return vec2(ndotl, rdotv);
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}
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vec4 lit(float _ndotl, float _rdotv, float _m)
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{
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float diff = max(0.0, _ndotl);
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float spec = step(0.0, _ndotl) * pow(max(0.0, _rdotv), _m);
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return vec4(1.0, diff, spec, 1.0);
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}
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vec3 calcLight(int _idx, vec3 _view, vec3 _normal, vec3 _viewDir)
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{
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vec3 lightPos = mul(u_view, vec4(u_lightPosRadius[_idx].xyz, 1.0)).xyz;
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vec3 toLight = lightPos - _view;
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vec3 lightDir = normalize(toLight);
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vec2 bln = blinn(lightDir, _normal, _viewDir);
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vec4 lc = lit(bln.x, bln.y, u_shininess);
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float dist = max(length(toLight), u_lightPosRadius[_idx].w);
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float attn = 250.0 * pow(dist, -2.0);
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vec3 rgb = (lc.y * u_diffuse + lc.z * u_specular) * u_lightRgbInnerR[_idx].rgb * attn;
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return rgb;
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}
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void main()
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{
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vec3 normal = normalize(v_normal);
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vec3 viewDir = -normalize(v_view);
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vec3 ambientColor = u_ambient * u_ambientPass;
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vec3 lightColor = vec3_splat(0.0);
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for(int ii = 0; ii < MAX_NUM_LIGHTS; ++ii)
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{
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float condition = 0.0;
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if (u_lightCount > 1.0)
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{
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condition = 1.0 - step(u_lightCount, float(ii));
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}
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else
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{
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condition = float(float(ii) == u_lightIndex);
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}
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lightColor += calcLight(ii, v_view, normal, viewDir) * condition;
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}
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lightColor *= u_lightningPass;
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vec3 color = toLinear(texture2D(u_texColor, v_texcoord0)).xyz;
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vec3 ambient = toGamma(ambientColor * color);
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vec3 diffuse = toGamma(lightColor * color);
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gl_FragColor.xyz = clamp(ambient + diffuse, 0.0, 1.0);
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gl_FragColor.w = u_color.w;
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}
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