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I would like to leave OpenGL's lights and make my own. I would like my shaders to allow for a variable number of lights.

Can we declare an array of uniforms in GLSL shaders? If so, how would we set the values of those uniforms?

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Anyone who wants a variable number of lights, just make arrays with decent capacities, and keep a count of how many lights are currently active. GLSL does not allow variable-sized arrays (all array sizes must be constant, hard-coded values). –  Miles Rufat-Latre May 9 at 17:55

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Yes this is possible. You declare uniform arrays similar to how you'd do it in C, e.g.

uniform float v[10];

Then you can set their values using glUniform{1,2,3,4}{f,i}v

GLfloat v[10] = {...};
glUniform1fv(glGetUniformLocation(program, "v"), 10, v);
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what does the 1, 2, 3, 4 refer to? Does that mean I can only set the values of an array up to four members? –  Miles Rufat-Latre Nov 11 '11 at 21:40
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@MilesRufat-Latre: That's part of OpenGL's standard naming convention. The 1-4 numbers represent the vector size of the components of the basic type in the array. So a uniform float v[10]s uses glUniform1fv; an uniform vec3 v[10]s uses glUniform3fv, where each element in the array is 3 floats. –  Nicol Bolas Nov 11 '11 at 21:46
    
That's a very clever/twisted use of glUniform1fv. One would think that the 2nd parameter of glUniform1fv is just a formality and that it should be used always as a 1. –  bobobobo Apr 4 '13 at 16:52
    
So technically you could set a uniform vec4 using glUniform1fv( uniformId, 4, v ) ; where v is an array of 4 floats. –  bobobobo Apr 4 '13 at 16:53
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@bobobobo: "So technically you could set a uniform vec4 using glUniform1fv( uniformId, 4, v ) ; where v is an array of 4 floats." No, you can't. The spec is very clear: the size and type must match the uniform's size and type (except for bools which use i and opaques which use 1i). If you say 1f, then the uniform must be 1 float. Otherwise, GL_INVALID_OPERATION ensues. –  Nicol Bolas Jun 3 '13 at 9:11

Yes it is possible to declare an array of uniforms in GLSL shaders. Just google "glsl uniform array" for some examples (edit: or see datenwolf's example). There are however limitations on how many uniforms can be sent to different graphics cards (at least on older ones, I'm not sure about current ones (although I imagine there still would be)).

If you do decide to go down the route of uniforms, i would suggest using uniform buffers. According to http://www.opengl.org/wiki/Uniform_Buffer_Object, "Switching between uniform buffer bindings is typically faster than switching dozens of uniforms in a program".

If you have large numbers of lights and parameters, you could also send the data as float buffers.

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Uniform buffer objects are only available since GL version 3.1. The ARB_Uniform_Buffer_Object extension is needed since version 2.0. –  Paul Wendler Sep 7 '12 at 8:18
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Googling "glsl uniform array" now returns this page as the first result!! What do we do now? –  mlvljr Mar 1 '13 at 6:44
    
You can query OpenGL at runtime to get the maximum number of uniforms with Glint result; glGetIntegerv(GL_MAX_UNIFORM_LOCATIONS, 0, &result); –  rwols Jun 18 '13 at 9:36

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