/* PR middle-end/106548. */ /* { dg-additional-options "-msse2" { target sse2_runtime } } */ /* { dg-additional-options "-mavx" { target avx_runtime } } */ int a[256]; __attribute__((noinline, noclone)) int f1 (int i) { #pragma omp parallel for simd linear (i: 4) for (int j = 16; j < 64; j++) { a[i] = j; i += 4; } return i; } __attribute__((noinline, noclone)) short int f2 (short int i, char k) { #pragma omp parallel for simd linear (i: k + 1) for (long j = 16; j < 64; j++) { a[i] = j; i += 4; } return i; } __attribute__((noinline, noclone)) long long int f3 (long long int i, long long int k) { #pragma omp parallel for simd linear (i: k) for (short j = 16; j < 64; j++) { a[i] = j; i += 4; } return i; } __attribute__((noinline, noclone)) int f4 (int i) { #pragma omp parallel for simd linear (i: 4) schedule(static, 3) for (int j = 16; j < 64; j++) { a[i] = j; i += 4; } return i; } __attribute__((noinline, noclone)) short int f5 (short int i, char k) { #pragma omp parallel for simd linear (i: k + 1) schedule(static, 5) for (long j = 16; j < 64; j++) { a[i] = j; i += 4; } return i; } __attribute__((noinline, noclone)) long long int f6 (long long int i, long long int k) { #pragma omp parallel for simd linear (i: k) schedule(static, 7) for (short j = 16; j < 64; j++) { a[i] = j; i += 4; } return i; } __attribute__((noinline, noclone)) int f7 (int i) { #pragma omp parallel for simd linear (i: 4) schedule(dynamic, 3) for (int j = 16; j < 64; j++) { a[i] = j; i += 4; } return i; } __attribute__((noinline, noclone)) short int f8 (short int i, char k) { #pragma omp parallel for simd linear (i: k + 1) schedule(dynamic, 5) for (long j = 16; j < 64; j++) { a[i] = j; i += 4; } return i; } __attribute__((noinline, noclone)) long long int f9 (long long int i, long long int k) { #pragma omp parallel for simd linear (i: k) schedule(dynamic, 7) for (short j = 16; j < 64; j++) { a[i] = j; i += 4; } return i; } __attribute__((noinline, noclone)) int f10 (int i, long step) { #pragma omp parallel for simd linear (i: 4) for (int j = 16; j < 112; j += step) { a[i] = j / 2 + 8; i += 4; } return i; } __attribute__((noinline, noclone)) short int f11 (short int i, char k, char step) { #pragma omp parallel for simd linear (i: k + 1) for (long j = 16; j < 112; j += step) { a[i] = j / 2 + 8; i += 4; } return i; } __attribute__((noinline, noclone)) long long int f12 (long long int i, long long int k, int step) { #pragma omp parallel for simd linear (i: k) for (short j = 16; j < 112; j += step) { a[i] = j / 2 + 8; i += 4; } return i; } __attribute__((noinline, noclone)) int f13 (int i, long long int step) { #pragma omp parallel for simd linear (i: 4) schedule(static, 3) for (int j = 16; j < 112; j += step) { a[i] = j / 2 + 8; i += 4; } return i; } __attribute__((noinline, noclone)) short int f14 (short int i, char k, int step) { #pragma omp parallel for simd linear (i: k + 1) schedule(static, 5) for (long j = 16; j < 112; j += step) { a[i] = j / 2 + 8; i += 4; } return i; } __attribute__((noinline, noclone)) long long int f15 (long long int i, long long int k, long int step) { #pragma omp parallel for simd linear (i: k) schedule(static, 7) for (short j = 16; j < 112; j += step) { a[i] = j / 2 + 8; i += 4; } return i; } __attribute__((noinline, noclone)) int f16 (int i, long long int step) { #pragma omp parallel for simd linear (i: 4) schedule(dynamic, 3) for (int j = 16; j < 112; j += step) { a[i] = j / 2 + 8; i += 4; } return i; } __attribute__((noinline, noclone)) short int f17 (short int i, char k, int step) { #pragma omp parallel for simd linear (i: k + 1) schedule(dynamic, 5) for (long j = 16; j < 112; j += step) { a[i] = j / 2 + 8; i += 4; } return i; } __attribute__((noinline, noclone)) long long int f18 (long long int i, long long int k, long int step) { #pragma omp parallel for simd linear (i: k) schedule(dynamic, 7) for (short j = 16; j < 112; j += step) { a[i] = j / 2 + 8; i += 4; } return i; } int main () { #define TEST(x) \ if (x != 8 + 48 * 4) \ __builtin_abort (); \ for (int i = 0; i < 256; i++) \ if (a[i] != (((i & 3) == 0 && i >= 8 \ && i < 8 + 48 * 4) \ ? ((i - 8) / 4) + 16 : 0)) \ __builtin_abort (); \ __builtin_memset (a, 0, sizeof (a)) TEST (f1 (8)); TEST (f2 (8, 3)); TEST (f3 (8LL, 4LL)); TEST (f4 (8)); TEST (f5 (8, 3)); TEST (f6 (8LL, 4LL)); TEST (f7 (8)); TEST (f8 (8, 3)); TEST (f9 (8LL, 4LL)); TEST (f10 (8, 2)); TEST (f11 (8, 3, 2)); TEST (f12 (8LL, 4LL, 2)); TEST (f13 (8, 2)); TEST (f14 (8, 3, 2)); TEST (f15 (8LL, 4LL, 2)); TEST (f16 (8, 2)); TEST (f17 (8, 3, 2)); TEST (f18 (8LL, 4LL, 2)); return 0; }