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Below is a GLSL fragment shader that outputs a texel if the given texture coord is inside a box, otherwise a color is output. This just feels silly and the there must be a way to do this without branching?

uniform sampler2D texUnit;

varying vec4 color;
varying vec2 texCoord;

void main() {
  vec4 texel = texture2D(texUnit, texCoord);
  if (any(lessThan(texCoord, vec2(0.0, 0.0))) ||
      any(greaterThan(texCoord, vec2(1.0, 1.0))))
    gl_FragColor = color;
    gl_FragColor = texel;

Below is a version without branching, but it still feels clumsy. What is the best practice for "texture coord clamping"?

uniform sampler2D texUnit;

varying vec4 color;
varying vec4 labelColor;
varying vec2 texCoord;

void main() {
  vec4 texel = texture2D(texUnit, texCoord);
  bool outside = any(lessThan(texCoord, vec2(0.0, 0.0))) ||
                 any(greaterThan(texCoord, vec2(1.0, 1.0)));
  gl_FragColor = mix(texel*labelColor, color,

Here is the rendering result

I am clamping texels to the region with the label is -- the texture s & t coordinates will be between 0 and 1 in this case. Otherwise, I use a brown color where the label ain't.

Note that I could also construct a branching version of the code that does not perform a texture lookup when it doesn't need to. Would this be faster than a non-branching version that always performed a texture lookup? Maybe time for some tests...

share|improve this question
I'm always interested to see benchmarking results for stuff like this. I think in this case you might have to construct a scenario where many point-in-box tests become a bottleneck. – jozxyqk Nov 5 '14 at 1:55
up vote 4 down vote accepted

Use step function to avoid branching and get the best performance:

// return 1 if v inside the box, return 0 otherwise
float insideBox(vec2 v, vec2 bottomLeft, vec2 topRight) {
    vec2 s = step(bottomLeft, v) - step(topRight, v);
    return s.x * s.y;   

void main() {
    vec4 texel = texture2D(texUnit, texCoord);

    float t = insideBox(v_position, vec2(0, 0), vec2(1, 1));
    gl_FragColor = t * texel + (1 - t) * color;
share|improve this answer
Thanks Andy Shiue for your correction – damphat Jan 12 '15 at 7:18

You make a test. A test always involves a branch. However in your particular case the number of instructions in each branch is equal, so you're not going to notice any performance it. Alternatively you may use a ternary case operator i.e, gl_FragColor = test ? color : texel;

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Sometimes the test can be avoided by using max() or step() or some such cleverness. Since what I am doing is standard "texture clamping" I figured someone here knew a better way to pull it off. I don't see how the number of instructions in each branch matters speed wise -- the gpu's prefetch queue will be thwarted either way. – wcochran Oct 6 '12 at 18:49
GPUs do work fundamentally different than CPUs. And neither max nor step are hardwired functions, but are expanded by the compiler into a sequence of operations by the shader compiler. On a GPU a whole bunch of threads (NVIDIA calls them warps) are executed on the same program, where all threads in a warp are all on the same instruction counter. Now what happens in branches: Well, both branches are followed, but only the instructions in the branch followed by a thread are actually carried out; this also means that prefetch issues are not a problem. GPUs use very different memory access methods – datenwolf Oct 6 '12 at 19:35
The fetching of data for threads has no bearing on the behavior of each thread's instruction queue. Anyway, as you can see in the modified post, I figured out how to do it without branching using the mix() function. This will not be translated into a branch since the chip's instruction set can do this directly. – wcochran Oct 6 '12 at 20:10
@wcochran: Most of GLSL's functions actually translate into a sequence of GPU instructions on modern GPUs. And on some GPUs even mix, or it's assembly counterpart LRP are not native. – datenwolf Oct 6 '12 at 20:14

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