#include "../test_static.isph" int A01(varying float f){return 0;} int A01(varying float& f){return 1;} int A01(varying const float& f){return 2;} int A01(varying double f){return 3;} int A01(varying int f){return 4;} int A02(varying float& f){return 1;} int A02(varying const float& f){return 2;} int A02(varying double f){return 3;} int A02(varying int f){return 4;} int A03(varying float f){return 0;} int A03(varying const float& f){return 2;} int A03(varying double f){return 3;} int A03(varying int f){return 4;} int A04(varying float f){return 0;} int A04(varying float& f){return 1;} int A04(varying double f){return 3;} int A04(varying int f){return 4;} int A07(varying float f){return 0;} int A07(varying float& f){return 1;} int A07(varying const float& f){return 2;} int A07(varying double f){return 3;} int A07(varying int f){return 4;} int A08(varying float f){return 0;} int A08(varying float& f){return 1;} int A08(varying const float& f){return 2;} int A08(varying double f){return 3;} int A08(varying int f){return 4;} int A09(varying float f){return 0;} int A09(varying float& f){return 1;} int A09(varying const float& f){return 2;} int A09(varying double f){return 3;} int A09(varying int f){return 4;} int A01(uniform float f){return 5;} int A01(uniform float& f){return 6;} int A01(uniform const float& f){return 7;} int A01(uniform double f){return 8;} int A01(uniform int f){return 9;} int A02(uniform float f){return 5;} int A02(uniform float& f){return 6;} int A02(uniform const float& f){return 7;} int A02(uniform double f){return 8;} int A02(uniform int f){return 9;} int A03(uniform float f){return 5;} int A03(uniform float& f){return 6;} int A03(uniform const float& f){return 7;} int A03(uniform double f){return 8;} int A03(uniform int f){return 9;} int A04(uniform float f){return 5;} int A04(uniform float& f){return 6;} int A04(uniform const float& f){return 7;} int A04(uniform double f){return 8;} int A04(uniform int f){return 9;} int A07(uniform float& f){return 6;} int A07(uniform const float& f){return 7;} int A07(uniform double f){return 8;} int A07(uniform int f){return 9;} int A08(uniform float f){return 5;} int A08(uniform const float& f){return 7;} int A08(uniform double f){return 8;} int A08(uniform int f){return 9;} int A09(uniform float f){return 5;} int A09(uniform float& f){return 6;} int A09(uniform double f){return 8;} int A09(uniform int f){return 9;} task void f_fu(uniform float RET[], uniform float aFOO[], uniform float b) { varying float vf = 5; varying const float vcf = 5; varying float& vfr = vf; varying const float& vcfr = vf; uniform float uf = 5; uniform const float ucf = 5; uniform float& ufr = uf; uniform const float& ucfr = uf; if (A01(vf) != 0) {RET[programIndex] = 1; return;} if (A01(vcf) != 0) {RET[programIndex] = 2; return;} if (A01(vfr) != 1) {RET[programIndex] = 3; return;} if (A01(vcfr)!= 2) {RET[programIndex] = 4; return;} if (A01(uf) != 5) {RET[programIndex] = 5; return;} if (A01(ucf) != 5) {RET[programIndex] = 6; return;} if (A01(ufr) != 6) {RET[programIndex] = 7; return;} if (A01(ucfr)!= 7) {RET[programIndex] = 8; return;} if (A02(vf) != 1) {RET[programIndex] = 9; return;} if (A02(vcf) != 2) {RET[programIndex] = 10; return;} if (A02(vfr) != 1) {RET[programIndex] = 11; return;} if (A02(vcfr)!= 2) {RET[programIndex] = 12; return;} if (A02(uf) != 5) {RET[programIndex] = 13; return;} if (A02(ucf) != 5) {RET[programIndex] = 14; return;} if (A02(ufr) != 6) {RET[programIndex] = 15; return;} if (A02(ucfr)!= 7) {RET[programIndex] = 16; return;} if (A03(vf) != 0) {RET[programIndex] = 17; return;} if (A03(vcf) != 0) {RET[programIndex] = 18; return;} if (A03(vfr) != 0) {RET[programIndex] = 19; return;} if (A03(vcfr)!= 2) {RET[programIndex] = 20; return;} if (A03(uf) != 5) {RET[programIndex] = 21; return;} if (A03(ucf) != 5) {RET[programIndex] = 22; return;} if (A03(ufr) != 6) {RET[programIndex] = 23; return;} if (A03(ucfr)!= 7) {RET[programIndex] = 24; return;} if (A04(vf) != 0) {RET[programIndex] = 25; return;} if (A04(vcf) != 0) {RET[programIndex] = 26; return;} if (A04(vfr) != 1) {RET[programIndex] = 27; return;} if (A04(vcfr)!= 0) {RET[programIndex] = 28; return;} if (A04(uf) != 5) {RET[programIndex] = 29; return;} if (A04(ucf) != 5) {RET[programIndex] = 30; return;} if (A04(ufr) != 6) {RET[programIndex] = 31; return;} if (A04(ucfr)!= 7) {RET[programIndex] = 32; return;} if (A07(vf) != 0) {RET[programIndex] = 33; return;} if (A07(vcf) != 0) {RET[programIndex] = 34; return;} if (A07(vfr) != 1) {RET[programIndex] = 35; return;} if (A07(vcfr)!= 2) {RET[programIndex] = 36; return;} if (A07(uf) != 6) {RET[programIndex] = 37; return;} if (A07(ucf) != 7) {RET[programIndex] = 38; return;} if (A07(ufr) != 6) {RET[programIndex] = 39; return;} if (A07(ucfr)!= 7) {RET[programIndex] = 40; return;} if (A08(vf) != 0) {RET[programIndex] = 41; return;} if (A08(vcf) != 0) {RET[programIndex] = 42; return;} if (A08(vfr) != 1) {RET[programIndex] = 43; return;} if (A08(vcfr)!= 2) {RET[programIndex] = 44; return;} if (A08(uf) != 5) {RET[programIndex] = 45; return;} if (A08(ucf) != 5) {RET[programIndex] = 46; return;} if (A08(ufr) != 5) {RET[programIndex] = 47; return;} if (A08(ucfr)!= 7) {RET[programIndex] = 48; return;} if (A09(vf) != 0) {RET[programIndex] = 49; return;} if (A09(vcf) != 0) {RET[programIndex] = 50; return;} if (A09(vfr) != 1) {RET[programIndex] = 51; return;} if (A09(vcfr)!= 2) {RET[programIndex] = 52; return;} if (A09(uf) != 5) {RET[programIndex] = 53; return;} if (A09(ucf) != 5) {RET[programIndex] = 54; return;} if (A09(ufr) != 6) {RET[programIndex] = 55; return;} if (A09(ucfr)!= 5) {RET[programIndex] = 56; return;} RET[programIndex] = 0; } task void result(uniform float RET[]) { RET[programIndex] = 0; }