#include #include #include #define N (32*32*32+17) #pragma acc routine gang void __attribute__ ((noinline)) gang (int ary[N]) { #pragma acc loop gang worker vector for (unsigned ix = 0; ix < N; ix++) { if (acc_on_device (acc_device_not_host)) { int g, w, v; g = __builtin_goacc_parlevel_id (GOMP_DIM_GANG); w = __builtin_goacc_parlevel_id (GOMP_DIM_WORKER); v = __builtin_goacc_parlevel_id (GOMP_DIM_VECTOR); ary[ix] = (g << 16) | (w << 8) | v; } else ary[ix] = ix; } } int main () { int ary[N]; int ix; int exit = 0; int ondev = 0; int gangsize, workersize, vectorsize; for (ix = 0; ix < N;ix++) ary[ix] = -1; #define NG 32 #define NW 32 #define VL 32 #pragma acc parallel num_gangs(NG) num_workers(NW) vector_length(VL) \ copy(ary) copy(ondev) { ondev = acc_on_device (acc_device_not_host); gang (ary); } gangsize = NG; workersize = NW; vectorsize = VL; #ifdef ACC_DEVICE_TYPE_radeon /* AMD GCN has an upper limit of 'num_workers(16)'. */ if (workersize > 16) workersize = 16; /* AMD GCN uses the autovectorizer for the vector dimension: the use of a function call in vector-partitioned code in this test is not currently supported. */ vectorsize = 1; #endif for (ix = 0; ix < N; ix++) { int expected = ix; if(ondev) { int chunk_size = (N + gangsize * workersize * vectorsize - 1) / (gangsize * workersize * vectorsize); int g = ix / (chunk_size * vectorsize * workersize); int w = (ix / vectorsize) % workersize; int v = ix % vectorsize; expected = (g << 16) | (w << 8) | v; } if (ary[ix] != expected) { exit = 1; printf ("ary[%d]=%x expected %x\n", ix, ary[ix], expected); } } return exit; }