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I'm working on a vertex shader in which I want to conditionally drop some vertices:

float visible = texture(VisibleTexture, index).x;
if (visible > threshold)
    gl_Vertex.z = 9999; // send out of frustum

I know that branches kill performance when there's little commonality between neighboring data. In this case, every other vertex may get a different 'visible' value, which would be bad for the performance of the local shader core cluster (from my understanding).

To my question: Is a ternary operator better (irrespective of readability issues)?

float visible = texture(VisibleTexture, index).x;
gl_Vertex.z = (visible > threshold) ? 9999 : gl_Vertex.z;

If not, is converting it into a calculation worthwhile?

float visible = texture(VisibleTexture, index).x;
visible = sign(visible - threshold) * .5 + .5; // 1=visible, 0=invisible
gl_Vertex.z += 9999 * visible; // original value only for visible

Is there an even better way to drop vertices without relying on a Geometry shader?

Thanks in advance for any help!

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up vote 4 down vote accepted

A ternary operator is just syntactic sugar for an if statement. They are the same.

If you had more to write inside of your if statement, there might be some optimization that could be done here, but with so little inside of either branch, there is nothing to optimize really.

Often branching is not used by default.

In your case, the ternary operator (or if statement) is probably evaluating both sides of the condition first and then discarding the branch that was not satisfied by the condition.

In order to use branching, you need to set the branching compiler flag in your shader code, to generate assembly that instructs the GPU to actually attempt to branch (if the GPU supports branching). In that case, the GPU will try to branch only if the branch predictor says that some predefined number of cores will take one of the branches.

Your mileage may vary from one compiler and GPU to another.

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Thanks for the info! – sharoz Feb 6 '11 at 4:15
A ternary operator is not just syntactic sugar. At least on x86, it's a pipelining optimization that helps with branch prediction (which would help OP here). I know this is GPUs and not CPUs, but I felt like it would be worth mentioning. – GraphicsMuncher Apr 29 '13 at 0:10
Compilers are smart though. – Olhovsky Apr 30 '13 at 16:02

This mathematical solution may be used for your replacement of conditional statements. This is also implemented in OpenCL as bitselect(condition, falsereturnvalue, truereturnvalue);

int a = in0[i], b = in1[i];
int cmp = a < b; //if TRUE, cmp has all bits 1, if FALSE all bits 0
// & bitwise AND
// | bitwise OR
// ~ flips all bits
out[i] = (a&cmp) | (b&~cmp); //a when TRUE and b when FALSE

I am however unsure about implementing this in your situation , I'm not sure I fully understood your code, but I do hope supplying you with this answer would help, or others.

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Very nice and elegant solution! – Anton Shkurenko Oct 22 '15 at 20:14

The answer depends on three things:

  1. compiler and what kinds of optimisations it performs
  2. the architecture and language
  3. the exact situation in which you are using the ternary operator.

Consider this example:

int a = condition ? 100 : 0;

In this case, a typical compiler on a typical architecture might be able to eliminate a branch assuming booleans are represented as integers. The code could be translated to

int a = condition * 100

The same kind of optimisation might be possible with an equivalent if condition:

int a = 0;

if (condition) {
    a = 100;

It all depends on particular optimisations performed by the compiler.

Generally speaking, my advice is: If you can use a ternary operator, it is preferable to use it. It is more likely to be optimised by the compiler. It also results in a more declarative style of code.

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Regarding your assignment of a ternary result being translated to a multiplication: I understand the point that optimizations may be made, but I think that's a particularly bad example. A multiplication would be much slower than any combination of assignment and branches on (most likely) any processor. I hope no compiler would actually generate something equivalent. – user1167662 Jan 9 at 1:17
@user1167662 It depends on the micro-architecture, ofcourse. In a processor optimised for graphics, multiplication wouldn't be more than a couple of cycles. A branch is much more likely to be costlier, depending on how deep the pipeline is. Some typical numbers are 3 cycles for multiplication, v/s about 14 stages for pipeline – HRJ Jan 11 at 15:49

To my knowledge, there is no way to optimize this. The compiler will still be forced to branch, each of your suggestions is functionally equivalent.

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The compiler doesn't branch, the processor does. Also, on a GPU, there are at least two ways to evaluate conditional statements. Evaluating both sides of the branch and discarding one, or actual branching, where only one side is evaluated. – Olhovsky Feb 6 '11 at 4:13
Ok, that's just being pedantic. – jakev Feb 6 '11 at 4:17
@TheBigO how about "The compiler will still be forced to generate a branch for the processor" – jakev Feb 6 '11 at 6:18
OK maybe I was being pedantic. My points were really that there is sometimes a way to optimize in this case, and that the compiler is NOT forced to generate a branch for the processor by the code in the question. – Olhovsky Feb 6 '11 at 6:21

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