// RUN: %libomp-compile-and-run #include #include #include // Used to detect architecture #include "../../src/kmp_platform.h" #ifdef __cplusplus extern "C" { #endif typedef void* ident_t; extern bool __kmpc_atomic_bool_1_cas(ident_t *loc, int gtid, char *x, char e, char d); extern bool __kmpc_atomic_bool_2_cas(ident_t *loc, int gtid, short *x, short e, short d); extern bool __kmpc_atomic_bool_4_cas(ident_t *loc, int gtid, int *x, int e, int d); extern bool __kmpc_atomic_bool_8_cas(ident_t *loc, int gtid, long long *x, long long e, long long d); extern char __kmpc_atomic_val_1_cas(ident_t *loc, int gtid, char *x, char e, char d); extern short __kmpc_atomic_val_2_cas(ident_t *loc, int gtid, short *x, short e, short d); extern int __kmpc_atomic_val_4_cas(ident_t *loc, int gtid, int *x, int e, int d); extern long long __kmpc_atomic_val_8_cas(ident_t *loc, int gtid, long long *x, long long e, long long d); #ifdef __cplusplus } #endif int main() { int ret = 0; #if KMP_ARCH_X86 || KMP_ARCH_X86_64 bool r; char c0 = 1; char c1 = 2; char c2 = 3; char co = 2; char cc = 0; short s0 = 11; short s1 = 12; short s2 = 13; short so = 12; short sc = 0; int i0 = 211; int i1 = 212; int i2 = 213; int io = 212; int ic = 0; long long l0 = 3111; long long l1 = 3112; long long l2 = 3113; long long lo = 3112; long long lc = 0; // initialize OpenMP runtime library omp_set_dynamic(0); // #pragma omp atomic compare update capture // { r = x == e; if(r) { x = d; } } // char, co == c1 initially, co == c2 finally r = __kmpc_atomic_bool_1_cas(NULL, 0, &co, c0, c2); // no-op if (co != c1) { ret++; printf("Error bool_1_cas no-op: %d != %d\n", co, c1); } if (r) { ret++; printf("Error bool_1_cas no-op ret: %d\n", r); } r = __kmpc_atomic_bool_1_cas(NULL, 0, &co, c1, c2); if (co != c2) { ret++; printf("Error bool_1_cas: %d != %d\n", co, c2); } if (!r) { ret++; printf("Error bool_1_cas ret: %d\n", r); } // short r = __kmpc_atomic_bool_2_cas(NULL, 0, &so, s0, s2); // no-op if (so != s1) { ret++; printf("Error bool_2_cas no-op: %d != %d\n", so, s1); } if (r) { ret++; printf("Error bool_2_cas no-op ret: %d\n", r); } r = __kmpc_atomic_bool_2_cas(NULL, 0, &so, s1, s2); if (so != s2) { ret++; printf("Error bool_2_cas: %d != %d\n", so, s2); } if (!r) { ret++; printf("Error bool_2_cas ret: %d\n", r); } // int r = __kmpc_atomic_bool_4_cas(NULL, 0, &io, i0, i2); // no-op if (io != i1) { ret++; printf("Error bool_4_cas no-op: %d != %d\n", io, i1); } if (r) { ret++; printf("Error bool_4_cas no-op ret: %d\n", r); } r = __kmpc_atomic_bool_4_cas(NULL, 0, &io, i1, i2); if (io != i2) { ret++; printf("Error bool_4_cas: %d != %d\n", io, i2); } if (!r) { ret++; printf("Error bool_4_cas ret: %d\n", r); } // long long r = __kmpc_atomic_bool_8_cas(NULL, 0, &lo, l0, l2); // no-op if (lo != l1) { ret++; printf("Error bool_8_cas no-op: %lld != %lld\n", lo, l1); } if (r) { ret++; printf("Error bool_8_cas no-op ret: %d\n", r); } r = __kmpc_atomic_bool_8_cas(NULL, 0, &lo, l1, l2); if (lo != l2) { ret++; printf("Error bool_8_cas: %lld != %lld\n", lo, l2); } if (!r) { ret++; printf("Error bool_8_cas ret: %d\n", r); } // #pragma omp atomic compare update capture // { v = x; if (x == e) { x = d; } } // char, co == c2 initially, co == c1 finally cc = __kmpc_atomic_val_1_cas(NULL, 0, &co, c0, c1); // no-op if (co != c2) { ret++; printf("Error val_1_cas no-op: %d != %d\n", co, c2); } if (cc != c2) { ret++; printf("Error val_1_cas no-op ret: %d != %d\n", cc, c2); } cc = __kmpc_atomic_val_1_cas(NULL, 0, &co, c2, c1); if (co != c1) { ret++; printf("Error val_1_cas: %d != %d\n", co, c1); } if (cc != c2) { ret++; printf("Error val_1_cas ret: %d != %d\n", cc, c2); } // short sc = __kmpc_atomic_val_2_cas(NULL, 0, &so, s0, s1); // no-op if (so != s2) { ret++; printf("Error val_2_cas no-op: %d != %d\n", so, s2); } if (sc != s2) { ret++; printf("Error val_2_cas no-op ret: %d != %d\n", sc, s2); } sc = __kmpc_atomic_val_2_cas(NULL, 0, &so, s2, s1); if (so != s1) { ret++; printf("Error val_2_cas: %d != %d\n", so, s1); } if (sc != s2) { ret++; printf("Error val_2_cas ret: %d != %d\n", sc, s2); } // int ic = __kmpc_atomic_val_4_cas(NULL, 0, &io, i0, i1); // no-op if (io != i2) { ret++; printf("Error val_4_cas no-op: %d != %d\n", io, i2); } if (ic != i2) { ret++; printf("Error val_4_cas no-op ret: %d != %d\n", ic, i2); } ic = __kmpc_atomic_val_4_cas(NULL, 0, &io, i2, i1); if (io != i1) { ret++; printf("Error val_4_cas: %d != %d\n", io, i1); } if (ic != i2) { ret++; printf("Error val_4_cas ret: %d != %d\n", ic, i2); } // long long lc = __kmpc_atomic_val_8_cas(NULL, 0, &lo, l0, l1); // no-op if (lo != l2) { ret++; printf("Error val_8_cas no-op: %lld != %lld\n", lo, l2); } if (lc != l2) { ret++; printf("Error val_8_cas no-op ret: %lld != %lld\n", lc, l2); } lc = __kmpc_atomic_val_8_cas(NULL, 0, &lo, l2, l1); if (lo != l1) { ret++; printf("Error val_8_cas: %lld != %lld\n", lo, l1); } if (lc != l2) { ret++; printf("Error val_8_cas ret: %lld != %lld\n", lc, l2); } // check in parallel i0 = 1; i1 = 0; for (io = 0; io < 5; ++io) { #pragma omp parallel num_threads(2) private(i2, ic, r) { if (omp_get_thread_num() == 0) { // th0 waits for th1 to increment i1, then th0 increments i0 #pragma omp atomic read i2 = i1; ic = __kmpc_atomic_val_4_cas(NULL, 0, &i0, i2, i2 + 1); while(ic != i2) { #pragma omp atomic read i2 = i1; ic = __kmpc_atomic_val_4_cas(NULL, 0, &i0, i2, i2 + 1); } } else { // th1 increments i1 if it is equal to i0 - 1, letting th0 to proceed r = 0; while(!r) { #pragma omp atomic read i2 = i0; r = __kmpc_atomic_bool_4_cas(NULL, 0, &i1, i2 - 1, i2); } } } } if (i0 != 6 || i1 != 5) { ret++; printf("Error in parallel, %d != %d or %d != %d\n", i0, 6, i1, 5); } if (ret == 0) printf("passed\n"); #else printf("Unsupported architecture, skipping test...\n"); #endif // KMP_ARCH_X86 || KMP_ARCH_X86_64 return ret; }