Results for spec/glsl-1.20/compiler/built-in-functions/op-mult-mat3-mat3.vert

Overview

Status: fail
Result: fail

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Details

Detail Value
returncode 1
time 0.24634718895
note 
Returncode was 1
command 
/home/mks-hackers/piglit/framework/../bin/glslparsertest tests/../generated_tests/spec/glsl-1.20/compiler/built-in-functions/op-mult-mat3-mat3.vert pass 1.20
errors 
  • Failed to compile vertex shader tests/../generated_tests/spec/glsl-1.20/compiler/built-in-functions/op-mult-mat3-mat3.vert: 0(16) : error C1307: non constant expression for array size
  • 0(17) : error C1307: non constant expression for array size
  • 0(18) : error C1307: non constant expression for array size
  • 0(19) : error C1307: non constant expression for array size
info 
Returncode: 1

Errors:
Failed to compile vertex shader tests/../generated_tests/spec/glsl-1.20/compiler/built-in-functions/op-mult-mat3-mat3.vert: 0(16) : error C1307: non constant expression for array size
0(17) : error C1307: non constant expression for array size
0(18) : error C1307: non constant expression for array size
0(19) : error C1307: non constant expression for array size



Output:
Shader source:
/* [config]
 * expect_result: pass
 * glsl_version: 1.20
 * [end config]
 *
 * Check that the following test vectors are constant folded correctly:
 * (mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999) * mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999)) => mat3(1.2196, -0.013799997, -0.36370003, -0.42289996, 1.3862001, 2.1987, 0.3233, -0.079899997, -0.191)
 * (mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999) * mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47)) => mat3(0.68290007, -1.3772001, -2.3491001, 3.7200999, 1.8617001, 1.2369, 4.1424999, 2.1860001, 1.4463999)
 * (mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47) * mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999)) => mat3(1.7153001, 2.5574, 0.7841, -3.4947, 1.9872, -4.7146001, 0.65890002, 0.8919, 0.28849998)
 * (mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47) * mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47)) => mat3(3.6329002, -3.1253998, 5.5978003, 0.098400027, 2.1639001, 0.50780004, -0.35119998, 0.75619996, 1.0363001)
 */
#version 120

void main()
{
  float[pow(distance((mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999) * mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999))[0], vec3(1.2196, -0.013799997, -0.36370003)), 2) + pow(distance((mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999) * mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999))[1], vec3(-0.42289996, 1.3862001, 2.1987)), 2) + pow(distance((mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999) * mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999))[2], vec3(0.3233, -0.079899997, -0.191)), 2) <= 8.7019575e-10 ? 1 : -1] array0;
  float[pow(distance((mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999) * mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47))[0], vec3(0.68290007, -1.3772001, -2.3491001)), 2) + pow(distance((mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999) * mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47))[1], vec3(3.7200999, 1.8617001, 1.2369)), 2) + pow(distance((mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999) * mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47))[2], vec3(4.1424999, 2.1860001, 1.4463999)), 2) <= 5.0747269e-09 ? 1 : -1] array1;
  float[pow(distance((mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47) * mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999))[0], vec3(1.7153001, 2.5574, 0.7841)), 2) + pow(distance((mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47) * mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999))[1], vec3(-3.4947, 1.9872, -4.7146001)), 2) + pow(distance((mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47) * mat3(-1.11, 0.13, 0.56, 1.67, 1.09, 0.94999999, -0.41, -0.02, 0.23999999))[2], vec3(0.65890002, 0.8919, 0.28849998)), 2) <= 4.9799564e-09 ? 1 : -1] array2;
  float[pow(distance((mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47) * mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47))[0], vec3(3.6329002, -3.1253998, 5.5978003)), 2) + pow(distance((mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47) * mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47))[1], vec3(0.098400027, 2.1639001, 0.50780004)), 2) + pow(distance((mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47) * mat3(-1.6900001, -1.09, -1.53, -0.46000001, 1.75, -0.69999999, -0.18000001, 2.0, -1.47))[2], vec3(-0.35119998, 0.75619996, 1.0363001)), 2) <= 6.1020557e-09 ? 1 : -1] array3;
  gl_Position = vec4(array0.length() + array1.length() + array2.length() + array3.length());
}

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