/* { dg-do run } */ /* Based on '../libgomp.oacc-fortran/asyncwait-1.f90'. */ /* { dg-additional-options "--param=openacc-kernels=decompose" } */ /* { dg-additional-options "-fopt-info-all-omp" } { dg-additional-options "-foffload=-fopt-info-all-omp" } */ /* { dg-additional-options "--param=openacc-privatization=noisy" } { dg-additional-options "-foffload=--param=openacc-privatization=noisy" } Prune a few: uninteresting, and potentially varying depending on GCC configuration (data types): { dg-prune-output {note: variable '[Di]\.[0-9]+' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} } */ /* 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_i 0] } { dg-message "dummy" "" { target iN-VAl-Id } l_dummy } to avoid "WARNING: dg-line var l_dummy defined, but not used". */ #include #define N 64 int main (void) { int *a, *b, *c, *d, *e; a = (int*)malloc (N * sizeof (*a)); b = (int*)malloc (N * sizeof (*b)); c = (int*)malloc (N * sizeof (*c)); d = (int*)malloc (N * sizeof (*d)); e = (int*)malloc (N * sizeof (*e)); for (int i = 0; i < N; ++i) { a[i] = 3; b[i] = 0; } #pragma acc data copy (a[0:N]) copy (b[0:N]) { #pragma acc parallel async /* { dg-line l_compute[incr c_compute] } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_compute$c_compute } */ #pragma acc loop /* { dg-line l_loop_i[incr c_loop_i] } */ /* { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-optimized "assigned OpenACC gang vector loop parallelism" "" { target *-*-* } l_loop_i$c_loop_i } */ for (int i = 0; i < N; ++i) b[i] = a[i]; #pragma acc wait } for (int i = 0; i < N; ++i) { if (a[i] != 3) abort (); if (b[i] != 3) abort (); } for (int i = 0; i < N; ++i) { a[i] = 2; b[i] = 0; } #pragma acc data copy (a[0:N]) copy (b[0:N]) { #pragma acc parallel async (1) /* { dg-line l_compute[incr c_compute] } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_compute$c_compute } */ #pragma acc loop /* { dg-line l_loop_i[incr c_loop_i] } */ /* { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-optimized "assigned OpenACC gang vector loop parallelism" "" { target *-*-* } l_loop_i$c_loop_i } */ for (int i = 0; i < N; ++i) b[i] = a[i]; #pragma acc wait (1) } for (int i = 0; i < N; ++i) { if (a[i] != 2) abort (); if (b[i] != 2) abort (); } for (int i = 0; i < N; ++i) { a[i] = 3; b[i] = 0; c[i] = 0; d[i] = 0; } #pragma acc data copy (a[0:N]) copy (b[0:N]) copy (c[0:N]) copy (d[0:N]) { #pragma acc parallel async (1) /* { dg-line l_compute[incr c_compute] } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_compute$c_compute } */ for (int i = 0; i < N; ++i) b[i] = (a[i] * a[i] * a[i]) / a[i]; #pragma acc parallel async (1) /* { dg-line l_compute[incr c_compute] } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_compute$c_compute } */ for (int i = 0; i < N; ++i) c[i] = (a[i] * 4) / a[i]; #pragma acc parallel async (1) /* { dg-line l_compute[incr c_compute] } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_compute$c_compute } */ #pragma acc loop /* { dg-line l_loop_i[incr c_loop_i] } */ /* { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-optimized "assigned OpenACC gang vector loop parallelism" "" { target *-*-* } l_loop_i$c_loop_i } */ for (int i = 0; i < N; ++i) d[i] = ((a[i] * a[i] + a[i]) / a[i]) - a[i]; #pragma acc wait (1) } for (int i = 0; i < N; ++i) { if (a[i] != 3) abort (); if (b[i] != 9) abort (); if (c[i] != 4) abort (); if (d[i] != 1) abort (); } for (int i = 0; i < N; ++i) { a[i] = 2; b[i] = 0; c[i] = 0; d[i] = 0; e[i] = 0; } #pragma acc data copy (a[0:N], b[0:N], c[0:N], d[0:N], e[0:N]) { #pragma acc parallel async (1) /* { dg-line l_compute[incr c_compute] } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_compute$c_compute } */ for (int i = 0; i < N; ++i) b[i] = (a[i] * a[i] * a[i]) / a[i]; #pragma acc parallel async (1) /* { dg-line l_compute[incr c_compute] } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_compute$c_compute } */ #pragma acc loop /* { dg-line l_loop_i[incr c_loop_i] } */ /* { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-optimized "assigned OpenACC gang vector loop parallelism" "" { target *-*-* } l_loop_i$c_loop_i } */ for (int i = 0; i < N; ++i) c[i] = (a[i] * 4) / a[i]; #pragma acc parallel async (1) /* { dg-line l_compute[incr c_compute] } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_compute$c_compute } */ #pragma acc loop /* { dg-line l_loop_i[incr c_loop_i] } */ /* { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-optimized "assigned OpenACC gang vector loop parallelism" "" { target *-*-* } l_loop_i$c_loop_i } */ for (int i = 0; i < N; ++i) d[i] = ((a[i] * a[i] + a[i]) / a[i]) - a[i]; #pragma acc parallel wait (1) async (1) /* { dg-line l_compute[incr c_compute] } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_compute$c_compute } */ #pragma acc loop /* { dg-line l_loop_i[incr c_loop_i] } */ /* { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-optimized "assigned OpenACC gang vector loop parallelism" "" { target *-*-* } l_loop_i$c_loop_i } */ for (int i = 0; i < N; ++i) e[i] = a[i] + b[i] + c[i] + d[i]; #pragma acc wait (1) } for (int i = 0; i < N; ++i) { if (a[i] != 2) abort (); if (b[i] != 4) abort (); if (c[i] != 4) abort (); if (d[i] != 1) abort (); if (e[i] != 11) abort (); } for (int i = 0; i < N; ++i) { a[i] = 3; b[i] = 0; } #pragma acc data copy (a[0:N]) copy (b[0:N]) { #pragma acc kernels async #pragma acc loop /* { dg-line l_loop_i[incr c_loop_i] } */ /* { dg-note {forwarded loop nest in OpenACC 'kernels' region to 'parloops' for analysis} {} { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-optimized "assigned OpenACC seq loop parallelism" "" { target *-*-* } l_loop_i$c_loop_i } */ for (int i = 0; i < N; ++i) b[i] = a[i]; #pragma acc wait } for (int i = 0; i < N; ++i) { if (a[i] != 3) abort (); if (b[i] != 3) abort (); } for (int i = 0; i < N; ++i) { a[i] = 2; b[i] = 0; } #pragma acc data copy (a[0:N]) copy (b[0:N]) { #pragma acc kernels async (1) #pragma acc loop /* { dg-line l_loop_i[incr c_loop_i] } */ /* { dg-note {forwarded loop nest in OpenACC 'kernels' region to 'parloops' for analysis} {} { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-optimized "assigned OpenACC seq loop parallelism" "" { target *-*-* } l_loop_i$c_loop_i } */ for (int i = 0; i < N; ++i) b[i] = a[i]; #pragma acc wait (1) } for (int i = 0; i < N; ++i) { if (a[i] != 2) abort (); if (b[i] != 2) abort (); } for (int i = 0; i < N; ++i) { a[i] = 3; b[i] = 0; c[i] = 0; d[i] = 0; } #pragma acc data copy (a[0:N]) copy (b[0:N]) copy (c[0:N]) copy (d[0:N]) { #pragma acc kernels async (1) /* { dg-line l_compute[incr c_compute] } */ /* { dg-note {OpenACC 'kernels' decomposition: variable 'i' declared in block requested to be made addressable} "" { target *-*-* } l_compute$c_compute } */ /* { dg-note {variable 'i' made addressable} {} { target *-*-* } l_compute$c_compute } */ /* { dg-note {variable 'i' declared in block is candidate for adjusting OpenACC privatization level} "" { target *-*-* } l_compute$c_compute } */ /* { dg-optimized "assigned OpenACC seq loop parallelism" "" { target { ! __OPTIMIZE__ } } l_compute$c_compute } { dg-optimized "assigned OpenACC gang loop parallelism" "" { target { __OPTIMIZE__ } } l_compute$c_compute } */ /* { dg-note {beginning 'parloops' part in OpenACC 'kernels' region} {} { target *-*-* } .+1 } */ for (int i = 0; i < N; ++i) b[i] = (a[i] * a[i] * a[i]) / a[i]; #pragma acc kernels async (1) /* { dg-line l_compute[incr c_compute] } */ /* { dg-note {OpenACC 'kernels' decomposition: variable 'i' declared in block requested to be made addressable} "" { target *-*-* } l_compute$c_compute } */ /* { dg-note {variable 'i' made addressable} {} { target *-*-* } l_compute$c_compute } */ /* { dg-note {variable 'i' declared in block is candidate for adjusting OpenACC privatization level} "" { target *-*-* } l_compute$c_compute } */ /* { dg-optimized "assigned OpenACC seq loop parallelism" "" { target { ! __OPTIMIZE__ } } l_compute$c_compute } { dg-optimized "assigned OpenACC gang loop parallelism" "" { target { __OPTIMIZE__ } } l_compute$c_compute } */ /* { dg-note {beginning 'parloops' part in OpenACC 'kernels' region} {} { target *-*-* } .+1 } */ for (int i = 0; i < N; ++i) c[i] = (a[i] * 4) / a[i]; #pragma acc kernels async (1) #pragma acc loop /* { dg-line l_loop_i[incr c_loop_i] } */ /* { dg-note {forwarded loop nest in OpenACC 'kernels' region to 'parloops' for analysis} {} { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-optimized "assigned OpenACC seq loop parallelism" "" { target *-*-* } l_loop_i$c_loop_i } */ for (int i = 0; i < N; ++i) d[i] = ((a[i] * a[i] + a[i]) / a[i]) - a[i]; #pragma acc wait (1) } for (int i = 0; i < N; ++i) { if (a[i] != 3) abort (); if (b[i] != 9) abort (); if (c[i] != 4) abort (); if (d[i] != 1) abort (); } for (int i = 0; i < N; ++i) { a[i] = 2; b[i] = 0; c[i] = 0; d[i] = 0; e[i] = 0; } #pragma acc data copy (a[0:N], b[0:N], c[0:N], d[0:N], e[0:N]) { #pragma acc kernels async (1) /* { dg-line l_compute[incr c_compute] } */ /* { dg-note {OpenACC 'kernels' decomposition: variable 'i' declared in block requested to be made addressable} "" { target *-*-* } l_compute$c_compute } */ /* { dg-note {variable 'i' made addressable} {} { target *-*-* } l_compute$c_compute } */ /* { dg-note {variable 'i' declared in block is candidate for adjusting OpenACC privatization level} "" { target *-*-* } l_compute$c_compute } */ /* { dg-optimized "assigned OpenACC seq loop parallelism" "" { target { ! __OPTIMIZE__ } } l_compute$c_compute } { dg-optimized "assigned OpenACC gang loop parallelism" "" { target { __OPTIMIZE__ } } l_compute$c_compute } */ /* { dg-note {beginning 'parloops' part in OpenACC 'kernels' region} {} { target *-*-* } .+1 } */ for (int i = 0; i < N; ++i) b[i] = (a[i] * a[i] * a[i]) / a[i]; #pragma acc kernels async (1) #pragma acc loop /* { dg-line l_loop_i[incr c_loop_i] } */ /* { dg-note {forwarded loop nest in OpenACC 'kernels' region to 'parloops' for analysis} {} { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-optimized "assigned OpenACC seq loop parallelism" "" { target *-*-* } l_loop_i$c_loop_i } */ for (int i = 0; i < N; ++i) c[i] = (a[i] * 4) / a[i]; #pragma acc kernels async (1) #pragma acc loop /* { dg-line l_loop_i[incr c_loop_i] } */ /* { dg-note {forwarded loop nest in OpenACC 'kernels' region to 'parloops' for analysis} {} { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-optimized "assigned OpenACC seq loop parallelism" "" { target *-*-* } l_loop_i$c_loop_i } */ for (int i = 0; i < N; ++i) d[i] = ((a[i] * a[i] + a[i]) / a[i]) - a[i]; #pragma acc kernels wait (1) async (1) #pragma acc loop /* { dg-line l_loop_i[incr c_loop_i] } */ /* { dg-note {forwarded loop nest in OpenACC 'kernels' region to 'parloops' for analysis} {} { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-note {variable 'i' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-note {variable 'i' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} "" { target *-*-* } l_loop_i$c_loop_i } */ /* { dg-optimized "assigned OpenACC seq loop parallelism" "" { target *-*-* } l_loop_i$c_loop_i } */ for (int i = 0; i < N; ++i) e[i] = a[i] + b[i] + c[i] + d[i]; #pragma acc wait (1) } for (int i = 0; i < N; ++i) { if (a[i] != 2) abort (); if (b[i] != 4) abort (); if (c[i] != 4) abort (); if (d[i] != 1) abort (); if (e[i] != 11) abort (); } free (a); free (b); free (c); free (d); free (e); return 0; }