libgomp/testsuite/libgomp.oacc-c-c++-common/kernels-private-vars-local-worker-1.c - gcc - Git at Google

 /* Test of worker-private variables declared in a local scope, broadcasting
    to vector-partitioned mode.  Back-to-back worker loops.  */

 /* { dg-additional-options "--param=openacc-kernels=decompose" } */

 /* { dg-additional-options "-fopt-info-omp-all" }
    { dg-additional-options "-foffload=-fopt-info-omp-all" } */

 /* { dg-additional-options "--param=openacc-privatization=noisy" }
    { dg-additional-options "-foffload=--param=openacc-privatization=noisy" }
    Prune a few: uninteresting:
    { dg-prune-output {note: variable 'D\.[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 c_loop_j 0 c_loop_k 0] }
    { dg-message "dummy" "" { target iN-VAl-Id } l_dummy } to avoid
    "WARNING: dg-line var l_dummy defined, but not used".  */

 #include <assert.h>

 int
 main (int argc, char* argv[])
 {
   int i, arr[32 * 32 * 32];

   for (i = 0; i < 32 * 32 * 32; i++)
     arr[i] = i;

   #pragma acc kernels copy(arr) /* { dg-line l_compute[incr c_compute] } */
   /* [PR104784] For some reason, for C++, the OpenACC 'kernels' decomposition
      decides that a data region is needed for 'j', and subsequently requests it
      to be made addressable.
      { dg-note {OpenACC 'kernels' decomposition: variable 'j' declared in block requested to be made addressable} {} { target c++ } l_compute$c_compute }
      { dg-note {variable 'j' made addressable} {} { target c++ } l_compute$c_compute }
      { dg-note {variable 'j' declared in block is candidate for adjusting OpenACC privatization level} {} { target c++ } l_compute$c_compute } */
   {
     int j;

     /* { dg-note {forwarded loop nest in OpenACC 'kernels' region to 'parloops' for analysis} {} { target *-*-* } .+1 } */
     #pragma acc loop gang(num:32) /* { dg-line l_loop_i[incr c_loop_i] } */
     /* { dg-note {variable 'j' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target c } 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 } */
     for (i = 0; i < 32; i++)
       {
 	#pragma acc loop worker(num:32) /* { dg-line l_loop_j[incr c_loop_j] } */
 	/* { dg-note {variable 'j' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l_loop_j$c_loop_j } */
 	/* { dg-note {variable 'k' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l_loop_j$c_loop_j } */
 	/* { dg-note {variable 'x' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l_loop_j$c_loop_j } */
 	for (j = 0; j < 32; j++)
 	  {
 	    int k;
 	    int x = i ^ j * 3;

 	    #pragma acc loop vector(length:32) /* { dg-line l_loop_k[incr c_loop_k] } */
 	    /* { dg-note {variable 'k' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l_loop_k$c_loop_k } */
 	    for (k = 0; k < 32; k++)
 	      arr[i * 1024 + j * 32 + k] += x * k;
 	  }

 	#pragma acc loop worker(num:32) /* { dg-line l_loop_j[incr c_loop_j] } */
 	/* { dg-note {variable 'j' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l_loop_j$c_loop_j } */
 	/* { dg-note {variable 'k' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l_loop_j$c_loop_j } */
 	/* { dg-note {variable 'x' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l_loop_j$c_loop_j } */
 	for (j = 0; j < 32; j++)
 	  {
 	    int k;
 	    int x = i | j * 5;

 	    #pragma acc loop vector(length:32) /* { dg-line l_loop_k[incr c_loop_k] } */
 	    /* { dg-note {variable 'k' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target *-*-* } l_loop_k$c_loop_k } */
 	    for (k = 0; k < 32; k++)
 	      arr[i * 1024 + j * 32 + k] += x * k;
 	  }
       }
     /* { dg-optimized {assigned OpenACC seq loop parallelism} {} { target *-*-* } l_loop_i$c_loop_i } */
   }

   for (i = 0; i < 32; i++)
     for (int j = 0; j < 32; j++)
       for (int k = 0; k < 32; k++)
         {
 	  int idx = i * 1024 + j * 32 + k;
           assert (arr[idx] == idx + (i ^ j * 3) * k + (i | j * 5) * k);
 	}

   return 0;
 }
	/* Test of worker-private variables declared in a local scope, broadcasting
	to vector-partitioned mode. Back-to-back worker loops. */

	/* { dg-additional-options "--param=openacc-kernels=decompose" } */

	/* { dg-additional-options "-fopt-info-omp-all" }
	{ dg-additional-options "-foffload=-fopt-info-omp-all" } */

	/* { dg-additional-options "--param=openacc-privatization=noisy" }
	{ dg-additional-options "-foffload=--param=openacc-privatization=noisy" }
	Prune a few: uninteresting:
	{ dg-prune-output {note: variable 'D\.[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 c_loop_j 0 c_loop_k 0] }
	{ dg-message "dummy" "" { target iN-VAl-Id } l_dummy } to avoid
	"WARNING: dg-line var l_dummy defined, but not used". */

	#include <assert.h>

	int
	main (int argc, char* argv[])
	{
	int i, arr[32 * 32 * 32];

	for (i = 0; i < 32 * 32 * 32; i++)
	arr[i] = i;

	#pragma acc kernels copy(arr) /* { dg-line l_compute[incr c_compute] } */
	/* [PR104784] For some reason, for C++, the OpenACC 'kernels' decomposition
	decides that a data region is needed for 'j', and subsequently requests it
	to be made addressable.
	{ dg-note {OpenACC 'kernels' decomposition: variable 'j' declared in block requested to be made addressable} {} { target c++ } l_compute$c_compute }
	{ dg-note {variable 'j' made addressable} {} { target c++ } l_compute$c_compute }
	{ dg-note {variable 'j' declared in block is candidate for adjusting OpenACC privatization level} {} { target c++ } l_compute$c_compute } */
	{
	int j;

	/* { dg-note {forwarded loop nest in OpenACC 'kernels' region to 'parloops' for analysis} {} { target --* } .+1 } */
	#pragma acc loop gang(num:32) /* { dg-line l_loop_i[incr c_loop_i] } */
	/* { dg-note {variable 'j' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target c } 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 } */
	for (i = 0; i < 32; i++)
	{
	#pragma acc loop worker(num:32) /* { dg-line l_loop_j[incr c_loop_j] } */
	/* { dg-note {variable 'j' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l_loop_j$c_loop_j } */
	/* { dg-note {variable 'k' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l_loop_j$c_loop_j } */
	/* { dg-note {variable 'x' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l_loop_j$c_loop_j } */
	for (j = 0; j < 32; j++)
	{
	int k;
	int x = i ^ j * 3;

	#pragma acc loop vector(length:32) /* { dg-line l_loop_k[incr c_loop_k] } */
	/* { dg-note {variable 'k' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l_loop_k$c_loop_k } */
	for (k = 0; k < 32; k++)
	arr[i * 1024 + j * 32 + k] += x * k;
	}

	#pragma acc loop worker(num:32) /* { dg-line l_loop_j[incr c_loop_j] } */
	/* { dg-note {variable 'j' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l_loop_j$c_loop_j } */
	/* { dg-note {variable 'k' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l_loop_j$c_loop_j } */
	/* { dg-note {variable 'x' declared in block isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l_loop_j$c_loop_j } */
	for (j = 0; j < 32; j++)
	{
	int k;
	int x = i \| j * 5;

	#pragma acc loop vector(length:32) /* { dg-line l_loop_k[incr c_loop_k] } */
	/* { dg-note {variable 'k' in 'private' clause isn't candidate for adjusting OpenACC privatization level: not addressable} {} { target --* } l_loop_k$c_loop_k } */
	for (k = 0; k < 32; k++)
	arr[i * 1024 + j * 32 + k] += x * k;
	}
	}
	/* { dg-optimized {assigned OpenACC seq loop parallelism} {} { target --* } l_loop_i$c_loop_i } */
	}

	for (i = 0; i < 32; i++)
	for (int j = 0; j < 32; j++)
	for (int k = 0; k < 32; k++)
	{
	int idx = i * 1024 + j * 32 + k;
	assert (arr[idx] == idx + (i ^ j * 3) * k + (i \| j * 5) * k);
	}

	return 0;
	}