/* Test "big" private data. */ /* { dg-additional-options -fno-inline } for stable results regarding OpenACC 'routine'. */ /* { dg-additional-options -fopt-info-all-omp } { dg-additional-options --param=openacc-privatization=noisy } { dg-additional-options -foffload=-fopt-info-all-omp } { dg-additional-options -foffload=--param=openacc-privatization=noisy } for testing/documenting aspects of that functionality. */ /* { dg-additional-options -Wopenacc-parallelism } for testing/documenting aspects of that functionality. */ /* For GCN offloading compilation, we (expectedly) run into a 'gang-private data-share memory exhausted' error: the default '-mgang-private-size' is too small. Raise it so that 'uint32_t x[344]' plus some internal-use data fits in: { dg-additional-options -foffload-options=amdgcn-amdhsa=-mgang-private-size=1555 { target openacc_radeon_accel_selected } } */ /* It's only with Tcl 8.5 (released in 2007) that "the variable 'varName' passed to 'incr' may be unset, and in that case, it will be set to [...]", so to maintain compatibility with earlier Tcl releases, we manually initialize counter variables: { dg-line l_dummy[variable c_compute 0 c_loop 0] } { dg-message dummy {} { target iN-VAl-Id } l_dummy } to avoid "WARNING: dg-line var l_dummy defined, but not used". */ #include #include /* Based on 'private-variables.c:loop_g_5'. */ /* To demonstrate PR105421 "GCN offloading, raised '-mgang-private-size': 'HSA_STATUS_ERROR_MEMORY_APERTURE_VIOLATION'", a 'struct' indirection, for example, has been necessary in combination with a separate routine. */ struct data { uint32_t *x; uint32_t *arr; uint32_t i; }; #pragma acc routine worker static void loop_g_5_r(struct data *data) { uint32_t *x = data->x; uint32_t *arr = data->arr; uint32_t i = data->i; #pragma acc loop /* { dg-line l_loop[incr c_loop] } */ /* { dg-note {variable 'j' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l_loop$c_loop } */ /* { dg-optimized {assigned OpenACC worker vector loop parallelism} {} { target *-*-* } l_loop$c_loop } */ for (int j = 0; j < 320; j++) arr[i * 320 + j] += x[(i * 320 + j) % 344]; } void loop_g_5() { uint32_t x[344], i, arr[320 * 320]; for (i = 0; i < 320 * 320; i++) arr[i] = i; #pragma acc parallel copy(arr) { #pragma acc loop gang private(x) /* { dg-line l_loop[incr c_loop] } */ /* { dg-note {variable 'x' in 'private' clause is candidate for adjusting OpenACC privatization level} {} { target *-*-* } l_loop$c_loop } { dg-note {variable 'x' ought to be adjusted for OpenACC privatization level: 'gang'} {} { target *-*-* } l_loop$c_loop } { dg-note {variable 'x' adjusted for OpenACC privatization level: 'gang'} {} { target { ! openacc_host_selected } } l_loop$c_loop } */ /* { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l_loop$c_loop } */ /* { dg-note {variable 'data' declared in block is candidate for adjusting OpenACC privatization level} {} { target *-*-* } l_loop$c_loop } { dg-note {variable 'data' ought to be adjusted for OpenACC privatization level: 'gang'} {} { target *-*-* } l_loop$c_loop } { dg-note {variable 'data' adjusted for OpenACC privatization level: 'gang'} {} { target { ! openacc_host_selected } } l_loop$c_loop } */ /* { dg-note {variable 'j' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l_loop$c_loop } */ /* { dg-optimized {assigned OpenACC gang loop parallelism} {} { target *-*-* } l_loop$c_loop } */ for (i = 0; i < 320; i++) { for (int j = 0; j < 344; j++) x[j] = j * (2 + i); struct data data = { x, arr, i }; loop_g_5_r(&data); /* { dg-line l_compute[incr c_compute] } */ /* { dg-optimized {assigned OpenACC worker vector loop parallelism} {} { target *-*-* } l_compute$c_compute } */ } } for (i = 0; i < 320 * 320; i++) assert(arr[i] == i + (i % 344) * (2 + (i / 320))); } int main () { loop_g_5(); return 0; }