#version 450 struct T { float f1; float f2; }; out B1 {precise T s; float x;} partial_precise_block; precise out B2 {T s; float x;} all_precise_block; float struct_member() { float a = 1.0; float b = 2.0; float c = 3.0; float d = 4.0; precise float result; T S, S2, S3; S2.f1 = a + 0.2; // NoContraction S2.f2 = b + 0.2; // NOT NoContraction S3.f1 = a + b; // NOT NoContraction S = S2; // "precise" propagated through parent object nodes result = S.f1 + 0.1; // the ADD operation should be NoContraction return result; } float complex_array_struct() { precise float result; struct T1 { float t1_array[3]; float t1_scalar; }; struct T2 { T1 t1a[5]; T1 t1b[6]; T1 t1c[7]; }; struct T3 {float f; T2 t2; vec4 v; int p;}; T3 t3[10]; for(int i=0; i<10; i++) { t3[i].f = i / 3.0; // Not NoContraction t3[i].v = vec4(i * 1.5); // NoContraction t3[i].p = i + 1; for(int j=0; j<5; j++) { for(int k = 0; k<3; k++) { t3[i].t2.t1a[j].t1_array[k] = i * j + k; // Not NoContraction } t3[i].t2.t1a[j].t1_scalar = j * 2.0 / i; // Not NoContration } for(int j=0; j<6; j++) { for(int k = 0; k<3; k++) { t3[i].t2.t1b[j].t1_array[k] = i * j + k; // Not NoContraction } t3[i].t2.t1b[j].t1_scalar = j * 2.0 / i; // NoContraction } for(int j=0; j<6; j++) { for(int k = 0; k<3; k++) { t3[i].t2.t1c[j].t1_array[k] = i * j + k; // Not NoContraction because all operands are integers } t3[i].t2.t1c[j].t1_scalar = j * 2.0 / i; // Not NoContraction } } int i = 2; result = t3[5].t2.t1c[6].t1_array[1] + t3[2].t2.t1b[1].t1_scalar + t3[i - 1].v.xy.x; // NoContraction return result; } float out_block() { float a = 0.1; float b = 0.2; partial_precise_block.s.f1 = a + b; // NoContraction partial_precise_block.s.f2 = a - b; // NoContraction partial_precise_block.x = a * b; // Not NoContraction all_precise_block.s.f1 = a + b + 1.0; // NoContraction all_precise_block.s.f2 = a - b - 1.0; // NoContraction all_precise_block.x = a * b * 2.0; // Also NoContraction return a + b; // Not NoContraction } void main(){}