Status: fail
Result: fail
| Detail | Value |
|---|---|
| returncode | 1 |
| time | 0.971099853516 |
| note | Returncode was 1 |
| command | /home/mks-hackers/piglit/framework/../bin/glslparsertest tests/../generated_tests/spec/glsl-1.20/compiler/built-in-functions/op-selection-bool-ivec3-ivec3.vert pass 1.20 |
| errors |
|
| info | Returncode: 1
Errors:
Failed to compile vertex shader tests/../generated_tests/spec/glsl-1.20/compiler/built-in-functions/op-selection-bool-ivec3-ivec3.vert: Vertex shader failed to compile with the following errors:
ERROR: 0:30: error(#185) Array size must be a constant integer expression
ERROR: 0:31: error(#185) Array size must be a constant integer expression
ERROR: 0:32: error(#185) Array size must be a constant integer expression
ERROR: 0:33: error(#185) Array size must be a constant integer expression
ERROR: 0:34: error(#185) Array size must be a constant integer expression
ERROR: 0:35: error(#185) Array size must be a constant integer expression
ERROR: 0:36: error(#185) Array size must be a constant integer expression
ERROR: 0:37: error(#185) Array size must be a constant integer expression
ERROR: 0:38: error(#185) Array size must be a constant integer expression
ERROR: 0:39: error(#185) Array size must be a constant integer expression
ERROR: 0:40: error(#185) Array size must be a constant integer expression
ERROR: 0:41: error(#185) Array size must be a constant integer expression
ERROR: 0:42: error(#185) Array size must be a constant integer expression
ERROR: 0:43: error(#185) Array size must be a constant integer expression
ERROR: 0:44: error(#185) Array size must be a constant integer expression
ERROR: 0:45: error(#185) Array size must be a constant integer expression
ERROR: 0:46: error(#185) Array size must be a constant integer expression
ERROR: 0:47: error(#185) Array size must be a constant integer expression
ERROR: error(#273) 18 compilation errors. No code generated
Output:
Shader source:
/* [config]
* expect_result: pass
* glsl_version: 1.20
* [end config]
*
* Check that the following test vectors are constant folded correctly:
* (false ? ivec3(-36, 32, -88) : ivec3(-36, 32, -88)) => ivec3(-36, 32, -88)
* (false ? ivec3(-36, 32, -88) : ivec3(36, 32, 88)) => ivec3(36, 32, 88)
* (false ? ivec3(-36, 32, -88) : ivec3(59, 77, 68)) => ivec3(59, 77, 68)
* (false ? ivec3(36, 32, 88) : ivec3(-36, 32, -88)) => ivec3(-36, 32, -88)
* (false ? ivec3(36, 32, 88) : ivec3(36, 32, 88)) => ivec3(36, 32, 88)
* (false ? ivec3(36, 32, 88) : ivec3(59, 77, 68)) => ivec3(59, 77, 68)
* (false ? ivec3(59, 77, 68) : ivec3(-36, 32, -88)) => ivec3(-36, 32, -88)
* (false ? ivec3(59, 77, 68) : ivec3(36, 32, 88)) => ivec3(36, 32, 88)
* (false ? ivec3(59, 77, 68) : ivec3(59, 77, 68)) => ivec3(59, 77, 68)
* (true ? ivec3(-36, 32, -88) : ivec3(-36, 32, -88)) => ivec3(-36, 32, -88)
* (true ? ivec3(-36, 32, -88) : ivec3(36, 32, 88)) => ivec3(-36, 32, -88)
* (true ? ivec3(-36, 32, -88) : ivec3(59, 77, 68)) => ivec3(-36, 32, -88)
* (true ? ivec3(36, 32, 88) : ivec3(-36, 32, -88)) => ivec3(36, 32, 88)
* (true ? ivec3(36, 32, 88) : ivec3(36, 32, 88)) => ivec3(36, 32, 88)
* (true ? ivec3(36, 32, 88) : ivec3(59, 77, 68)) => ivec3(36, 32, 88)
* (true ? ivec3(59, 77, 68) : ivec3(-36, 32, -88)) => ivec3(59, 77, 68)
* (true ? ivec3(59, 77, 68) : ivec3(36, 32, 88)) => ivec3(59, 77, 68)
* (true ? ivec3(59, 77, 68) : ivec3(59, 77, 68)) => ivec3(59, 77, 68)
*/
#version 120
void main()
{
float[all(equal((false ? ivec3(-36, 32, -88) : ivec3(-36, 32, -88)), ivec3(-36, 32, -88))) ? 1 : -1] array0;
float[all(equal((false ? ivec3(-36, 32, -88) : ivec3(36, 32, 88)), ivec3(36, 32, 88))) ? 1 : -1] array1;
float[all(equal((false ? ivec3(-36, 32, -88) : ivec3(59, 77, 68)), ivec3(59, 77, 68))) ? 1 : -1] array2;
float[all(equal((false ? ivec3(36, 32, 88) : ivec3(-36, 32, -88)), ivec3(-36, 32, -88))) ? 1 : -1] array3;
float[all(equal((false ? ivec3(36, 32, 88) : ivec3(36, 32, 88)), ivec3(36, 32, 88))) ? 1 : -1] array4;
float[all(equal((false ? ivec3(36, 32, 88) : ivec3(59, 77, 68)), ivec3(59, 77, 68))) ? 1 : -1] array5;
float[all(equal((false ? ivec3(59, 77, 68) : ivec3(-36, 32, -88)), ivec3(-36, 32, -88))) ? 1 : -1] array6;
float[all(equal((false ? ivec3(59, 77, 68) : ivec3(36, 32, 88)), ivec3(36, 32, 88))) ? 1 : -1] array7;
float[all(equal((false ? ivec3(59, 77, 68) : ivec3(59, 77, 68)), ivec3(59, 77, 68))) ? 1 : -1] array8;
float[all(equal((true ? ivec3(-36, 32, -88) : ivec3(-36, 32, -88)), ivec3(-36, 32, -88))) ? 1 : -1] array9;
float[all(equal((true ? ivec3(-36, 32, -88) : ivec3(36, 32, 88)), ivec3(-36, 32, -88))) ? 1 : -1] array10;
float[all(equal((true ? ivec3(-36, 32, -88) : ivec3(59, 77, 68)), ivec3(-36, 32, -88))) ? 1 : -1] array11;
float[all(equal((true ? ivec3(36, 32, 88) : ivec3(-36, 32, -88)), ivec3(36, 32, 88))) ? 1 : -1] array12;
float[all(equal((true ? ivec3(36, 32, 88) : ivec3(36, 32, 88)), ivec3(36, 32, 88))) ? 1 : -1] array13;
float[all(equal((true ? ivec3(36, 32, 88) : ivec3(59, 77, 68)), ivec3(36, 32, 88))) ? 1 : -1] array14;
float[all(equal((true ? ivec3(59, 77, 68) : ivec3(-36, 32, -88)), ivec3(59, 77, 68))) ? 1 : -1] array15;
float[all(equal((true ? ivec3(59, 77, 68) : ivec3(36, 32, 88)), ivec3(59, 77, 68))) ? 1 : -1] array16;
float[all(equal((true ? ivec3(59, 77, 68) : ivec3(59, 77, 68)), ivec3(59, 77, 68))) ? 1 : -1] array17;
gl_Position = vec4(array0.length() + array1.length() + array2.length() + array3.length() + array4.length() + array5.length() + array6.length() + array7.length() + array8.length() + array9.length() + array10.length() + array11.length() + array12.length() + array13.length() + array14.length() + array15.length() + array16.length() + array17.length());
}
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