libgomp/testsuite/libgomp.c++/target-lambda-3.C - gcc - Git at Google

 // We use 'auto' without a function return type, so specify dialect here
 // { dg-additional-options "-std=c++14 -fdump-tree-gimple" }
 #include <cstdlib>
 #include <cstring>
 #include <omp.h>

 template <typename L>
 void
 omp_target_loop (int begin, int end, L loop, int dev)
 {
   #pragma omp target teams distribute parallel for device(dev)
   for (int i = begin; i < end; i++)
     loop (i);
 }

 struct S
 {
   int a, len;
   int *ptr;

   auto merge_data_func (int *iptr, int &b, int dev)
   {
     auto fn = [=](void) -> bool
       {
 	bool mapped = (omp_target_is_present (iptr, dev)
                        && omp_target_is_present (ptr, dev));
 	#pragma omp target device(dev)
 	{
 	  if (mapped)
 	    {
 	      for (int i = 0; i < len; i++)
 		ptr[i] += a + b + iptr[i];
 	    }
 	}
 	return mapped;
       };
     return fn;
   }
 };

 int x = 1;

 void run (int dev)
 {
   const int N = 10;
   int *data1 = new int[N];
   int *data2 = new int[N];
   memset (data1, 0xab, sizeof (int) * N);
   memset (data2, 0xcd, sizeof (int) * N);

   bool shared_mem = (omp_target_is_present (data1, dev)
 		     && omp_target_is_present (data2, dev));
   int val = 1;
   int &valref = val;
   #pragma omp target enter data map(alloc: data1[:N], data2[:N]) device(dev)

   omp_target_loop (0, N, [=](int i) { data1[i] = val; }, dev);
   omp_target_loop (0, N, [=](int i) { data2[i] = valref + 1; }, dev);

   #pragma omp target update from(data1[:N], data2[:N]) device(dev)

   for (int i = 0; i < N; i++)
     {
       if (data1[i] != 1) abort ();
       if (data2[i] != 2) abort ();
     }

   #pragma omp target exit data map(delete: data1[:N], data2[:N]) device(dev)

   int b = 8;
   S s = { 4, N, data1 };
   auto f = s.merge_data_func (data2, b, dev);
   if (f () ^ shared_mem) abort ();

   #pragma omp target enter data map(to: data1[:N]) device(dev)
   if (f () ^ shared_mem) abort ();

   #pragma omp target enter data map(to: data2[:N]) device(dev)
   if (!f ()) abort ();

   #pragma omp target exit data map(from: data1[:N], data2[:N]) device(dev)

   for (int i = 0; i < N; i++)
     {
       if ((!shared_mem && data1[i] != 0xf)
 	  || (shared_mem && data1[i] != 0x2b))
 	abort ();
       if (data2[i] != 2) abort ();
     }
   delete [] data1;
   delete [] data2;
 }

 int main ()
 {
   for (int dev = 0; dev <= omp_get_num_devices (); dev++)
     run (dev);
 }

 /* { dg-final { scan-tree-dump {#pragma omp target num_teams.* firstprivate\(b\) map\(alloc:MEM.* \[len: 0\]\) map\(firstprivate:this \[pointer assign, bias: 0\]\) map\(alloc:MEM.* \[len: 0\]\) map\(firstprivate:iptr \[pointer assign, bias: 0\]\) firstprivate\(mapped\) map\(to:\*__closure \[len: [0-9]+\]\) map\(firstprivate:__closure \[pointer assign, bias: 0\]\) map\(tofrom:\*_[0-9]+ \[len: [0-9]+\]\) map\(always_pointer:__closure->__this \[pointer assign, bias: 0\]\) map\(alloc:\*_[0-9]+ \[len: 0\]\) map\(alloc:\*_[0-9]+ \[len: 0\]\) device\(_[0-9]+\) map\(attach_zero_length_array_section:__closure->__iptr \[bias: 0\]\) map\(attach_zero_length_array_section:_[0-9]+->ptr \[bias: 0\]\)} "gimple" } } */

 /* { dg-final { scan-tree-dump {#pragma omp target num_teams.* firstprivate\(end\) firstprivate\(begin\) map\(to:loop \[len: [0-9]+\]\) map\(alloc:\*_[0-9]+ \[len: 0\]\) device\(dev.[0-9_]+\) map\(attach_zero_length_array_section:loop\.__data1 \[bias: 0\]\)} "gimple" } } */

 /* { dg-final { scan-tree-dump {#pragma omp target num_teams.* firstprivate\(end\) firstprivate\(begin\) map\(to:loop \[len: [0-9]+\]\) map\(alloc:\*_[0-9]+ \[len: 0\]\) device\(dev.[0-9_]+\) map\(attach_zero_length_array_section:loop\.__data2 \[bias: 0\]\)} "gimple" } } */
	// We use 'auto' without a function return type, so specify dialect here
	// { dg-additional-options "-std=c++14 -fdump-tree-gimple" }
	#include <cstdlib>
	#include <cstring>
	#include <omp.h>

	template <typename L>
	void
	omp_target_loop (int begin, int end, L loop, int dev)
	{
	#pragma omp target teams distribute parallel for device(dev)
	for (int i = begin; i < end; i++)
	loop (i);
	}

	struct S
	{
	int a, len;
	int *ptr;

	auto merge_data_func (int *iptr, int &b, int dev)
	{
	auto fn = [=](void) -> bool
	{
	bool mapped = (omp_target_is_present (iptr, dev)
	&& omp_target_is_present (ptr, dev));
	#pragma omp target device(dev)
	{
	if (mapped)
	{
	for (int i = 0; i < len; i++)
	ptr[i] += a + b + iptr[i];
	}
	}
	return mapped;
	};
	return fn;
	}
	};

	int x = 1;

	void run (int dev)
	{
	const int N = 10;
	int *data1 = new int[N];
	int *data2 = new int[N];
	memset (data1, 0xab, sizeof (int) * N);
	memset (data2, 0xcd, sizeof (int) * N);

	bool shared_mem = (omp_target_is_present (data1, dev)
	&& omp_target_is_present (data2, dev));
	int val = 1;
	int &valref = val;
	#pragma omp target enter data map(alloc: data1[:N], data2[:N]) device(dev)

	omp_target_loop (0, N, [=](int i) { data1[i] = val; }, dev);
	omp_target_loop (0, N, [=](int i) { data2[i] = valref + 1; }, dev);

	#pragma omp target update from(data1[:N], data2[:N]) device(dev)

	for (int i = 0; i < N; i++)
	{
	if (data1[i] != 1) abort ();
	if (data2[i] != 2) abort ();
	}

	#pragma omp target exit data map(delete: data1[:N], data2[:N]) device(dev)

	int b = 8;
	S s = { 4, N, data1 };
	auto f = s.merge_data_func (data2, b, dev);
	if (f () ^ shared_mem) abort ();

	#pragma omp target enter data map(to: data1[:N]) device(dev)
	if (f () ^ shared_mem) abort ();

	#pragma omp target enter data map(to: data2[:N]) device(dev)
	if (!f ()) abort ();

	#pragma omp target exit data map(from: data1[:N], data2[:N]) device(dev)

	for (int i = 0; i < N; i++)
	{
	if ((!shared_mem && data1[i] != 0xf)
	\|\| (shared_mem && data1[i] != 0x2b))
	abort ();
	if (data2[i] != 2) abort ();
	}
	delete [] data1;
	delete [] data2;
	}

	int main ()
	{
	for (int dev = 0; dev <= omp_get_num_devices (); dev++)
	run (dev);
	}

	/* { dg-final { scan-tree-dump {#pragma omp target num_teams.* firstprivate\(b\) map\(alloc:MEM.* \[len: 0\]\) map\(firstprivate:this \[pointer assign, bias: 0\]\) map\(alloc:MEM.* \[len: 0\]\) map\(firstprivate:iptr \[pointer assign, bias: 0\]\) firstprivate\(mapped\) map\(to:\__closure \[len: [0-9]+\]\) map\(firstprivate:__closure \[pointer assign, bias: 0\]\) map\(tofrom:\_[0-9]+ \[len: [0-9]+\]\) map\(always_pointer:__closure->__this \[pointer assign, bias: 0\]\) map\(alloc:\_[0-9]+ \[len: 0\]\) map\(alloc:\_[0-9]+ \[len: 0\]\) device\(_[0-9]+\) map\(attach_zero_length_array_section:__closure->__iptr \[bias: 0\]\) map\(attach_zero_length_array_section:_[0-9]+->ptr \[bias: 0\]\)} "gimple" } } */

	/* { dg-final { scan-tree-dump {#pragma omp target num_teams.* firstprivate\(end\) firstprivate\(begin\) map\(to:loop \[len: [0-9]+\]\) map\(alloc:\_[0-9]+ \[len: 0\]\) device\(dev.[0-9_]+\) map\(attach_zero_length_array_section:loop\.__data1 \[bias: 0\]\)} "gimple" } } /

	/* { dg-final { scan-tree-dump {#pragma omp target num_teams.* firstprivate\(end\) firstprivate\(begin\) map\(to:loop \[len: [0-9]+\]\) map\(alloc:\_[0-9]+ \[len: 0\]\) device\(dev.[0-9_]+\) map\(attach_zero_length_array_section:loop\.__data2 \[bias: 0\]\)} "gimple" } } /