clang/test/OpenMP/dispatch_ast_print.cpp - llvm-project - Git at Google

 // RUN: %clang_cc1 -triple=x86_64-pc-win32 -fopenmp -fopenmp-version=51     \
 // RUN:   -fsyntax-only -verify %s

 // RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fopenmp -fopenmp-version=51 \
 // RUN:   -fsyntax-only -verify %s

 // expected-no-diagnostics

 // RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fopenmp -fopenmp-version=51 \
 // RUN:   -ast-print %s | FileCheck %s --check-prefix=PRINT

 // RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fopenmp -fopenmp-version=51 \
 // RUN:   -ast-dump  %s | FileCheck %s --check-prefix=DUMP

 // RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fopenmp -fopenmp-version=51 \
 // RUN:   -emit-pch -o %t %s

 // RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fopenmp -fopenmp-version=51 \
 // RUN:   -include-pch %t -ast-dump-all %s | FileCheck %s --check-prefix=DUMP

 // RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fopenmp -fopenmp-version=51 \
 // RUN:   -include-pch %t -ast-print %s | FileCheck %s --check-prefix=PRINT

 #ifndef HEADER
 #define HEADER

 int foo_gpu(int A, int *B) { return 0;}
 //PRINT: #pragma omp declare variant(foo_gpu)
 //DUMP: FunctionDecl{{.*}} foo
 //DUMP: OMPDeclareVariantAttr {{.*}}Implicit construct{{.*}}
 #pragma omp declare variant(foo_gpu) \
     match(construct={dispatch}, device={arch(arm)})
 int foo(int, int*);

 template <typename T, typename TP>
 void fooTemp() {
   T a;
   TP b;
   //PRINT: #pragma omp dispatch nowait
   //DUMP: OMPDispatchDirective
   //DUMP: OMPNowaitClause
   #pragma omp dispatch nowait
   foo(a, b);
 }

 int *get_device_ptr();
 int get_device();
 int other();

 //DUMP: FunctionDecl{{.*}} test_one
 void test_one()
 {
   int aaa, bbb, var;
   //PRINT: #pragma omp dispatch depend(in : var) nowait novariants(aaa > 5) nocontext(bbb > 5)
   //DUMP: OMPDispatchDirective
   //DUMP: OMPDependClause
   //DUMP: OMPNowaitClause
   //DUMP: OMPNovariantsClause
   //DUMP: DeclRefExpr {{.*}} 'bool' lvalue OMPCapturedExpr
   //DUMP: OMPNocontextClause
   //DUMP: DeclRefExpr {{.*}} 'bool' lvalue OMPCapturedExpr
   #pragma omp dispatch depend(in:var) nowait novariants(aaa > 5) nocontext(bbb > 5)
   foo(aaa, &bbb);

   int *dp = get_device_ptr();
   int dev = get_device();
   //PRINT: #pragma omp dispatch device(dev) is_device_ptr(dp) novariants(dev > 10) nocontext(dev > 5)
   //DUMP: OMPDispatchDirective
   //DUMP: OMPDeviceClause
   //DUMP: OMPIs_device_ptrClause
   //DUMP: OMPNovariantsClause
   //DUMP: DeclRefExpr {{.*}} 'bool' lvalue OMPCapturedExpr
   //DUMP: OMPNocontextClause
   //DUMP: DeclRefExpr {{.*}} 'bool' lvalue OMPCapturedExpr
   #pragma omp dispatch device(dev) is_device_ptr(dp) novariants(dev > 10) nocontext(dev > 5)
   foo(aaa, dp);

   //PRINT: #pragma omp dispatch
   //PRINT: foo(other(), &bbb);
   //DUMP: OMPDispatchDirective
   #pragma omp dispatch
   foo(other(), &bbb);

   fooTemp<int, int*>();
 }

 struct Obj {
   Obj();
   ~Obj();
   int disp_method_variant1();
   #pragma omp declare variant(disp_method_variant1)                            \
     match(construct={dispatch}, device={arch(arm)})
   int disp_method1();

   static int disp_method_variant2() { return 1; }
   #pragma omp declare variant(disp_method_variant2)                            \
     match(construct={dispatch}, device={arch(arm)})
   static int disp_method2() { return 2; }
 };

 Obj foo_vari();
 #pragma omp declare variant(foo_vari) \
   match(construct={dispatch}, device={arch(arm)})
 Obj foo_obj();

 //DUMP: FunctionDecl{{.*}} test_two
 void test_two(Obj o1, Obj &o2, Obj *o3)
 {
   //PRINT: #pragma omp dispatch
   //PRINT: o1.disp_method1();
   //DUMP: OMPDispatchDirective
   #pragma omp dispatch
   o1.disp_method1();

   //PRINT: #pragma omp dispatch
   //PRINT: o2.disp_method1();
   //DUMP: OMPDispatchDirective
   #pragma omp dispatch
   o2.disp_method1();

   //PRINT: #pragma omp dispatch
   //PRINT: o3->disp_method1();
   //DUMP: OMPDispatchDirective
   #pragma omp dispatch
   o3->disp_method1();

   //PRINT: #pragma omp dispatch
   //PRINT: Obj::disp_method2();
   //DUMP: OMPDispatchDirective
   #pragma omp dispatch
   Obj::disp_method2();

   int ret;
   //PRINT: #pragma omp dispatch
   //PRINT: ret = o1.disp_method1();
   //DUMP: OMPDispatchDirective
   #pragma omp dispatch
   ret = o1.disp_method1();

   //PRINT: #pragma omp dispatch
   //PRINT: ret = o2.disp_method1();
   //DUMP: OMPDispatchDirective
   #pragma omp dispatch
   ret = o2.disp_method1();

   //PRINT: #pragma omp dispatch
   //PRINT: ret = o3->disp_method1();
   //DUMP: OMPDispatchDirective
   #pragma omp dispatch
   ret = o3->disp_method1();

   //PRINT: #pragma omp dispatch
   //PRINT: ret = Obj::disp_method2();
   //DUMP: OMPDispatchDirective
   #pragma omp dispatch
   ret = Obj::disp_method2();

   //PRINT: #pragma omp dispatch
   //PRINT: (void)Obj::disp_method2();
   //DUMP: OMPDispatchDirective
   #pragma omp dispatch
   (void)Obj::disp_method2();

   // Full C++ operator= case with temps and EH.
   Obj o;
   //PRINT: #pragma omp dispatch
   //PRINT: o = foo_obj();
   //DUMP: OMPDispatchDirective
   #pragma omp dispatch
   o = foo_obj();
 }

 struct A {
   A& disp_operator(A other);
   #pragma omp declare variant(disp_operator)                            \
     match(construct={dispatch}, device={arch(arm)})
   A& operator=(A other);
 };

 struct Obj2 {
   A xx;
   Obj2& disp_operator(Obj2 other);
   #pragma omp declare variant(disp_operator)                            \
     match(construct={dispatch}, device={arch(arm)})
   Obj2& operator=(Obj2 other);

   void foo() {
     Obj2 z;
     //PRINT: #pragma omp dispatch
     //PRINT: z = z;
     //DUMP: OMPDispatchDirective
     #pragma omp dispatch
     z = z;
     //PRINT: #pragma omp dispatch
     //PRINT: z.operator=(z);
     //DUMP: OMPDispatchDirective
     #pragma omp dispatch
     z.operator=(z);
   }
   void bar() {
     Obj2 j;
     //PRINT: #pragma omp dispatch
     //PRINT: j = {this->xx};
     //DUMP: OMPDispatchDirective
     #pragma omp dispatch
     j = {this->xx};
     //PRINT: #pragma omp dispatch
     //PRINT: j.operator=({this->xx});
     //DUMP: OMPDispatchDirective
     #pragma omp dispatch
     j.operator=({this->xx});
   }
 };

 void test_three()
 {
   Obj2 z1, z;
   #pragma omp dispatch
   z1 = z;
   #pragma omp dispatch
   z1.operator=(z);
 }
 #endif // HEADER
	// RUN: %clang_cc1 -triple=x86_64-pc-win32 -fopenmp -fopenmp-version=51 \
	// RUN: -fsyntax-only -verify %s

	// RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fopenmp -fopenmp-version=51 \
	// RUN: -fsyntax-only -verify %s

	// expected-no-diagnostics

	// RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fopenmp -fopenmp-version=51 \
	// RUN: -ast-print %s \| FileCheck %s --check-prefix=PRINT

	// RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fopenmp -fopenmp-version=51 \
	// RUN: -ast-dump %s \| FileCheck %s --check-prefix=DUMP

	// RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fopenmp -fopenmp-version=51 \
	// RUN: -emit-pch -o %t %s

	// RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fopenmp -fopenmp-version=51 \
	// RUN: -include-pch %t -ast-dump-all %s \| FileCheck %s --check-prefix=DUMP

	// RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fopenmp -fopenmp-version=51 \
	// RUN: -include-pch %t -ast-print %s \| FileCheck %s --check-prefix=PRINT

	#ifndef HEADER
	#define HEADER

	int foo_gpu(int A, int *B) { return 0;}
	//PRINT: #pragma omp declare variant(foo_gpu)
	//DUMP: FunctionDecl{{.*}} foo
	//DUMP: OMPDeclareVariantAttr {{.}}Implicit construct{{.}}
	#pragma omp declare variant(foo_gpu) \
	match(construct={dispatch}, device={arch(arm)})
	int foo(int, int*);

	template <typename T, typename TP>
	void fooTemp() {
	T a;
	TP b;
	//PRINT: #pragma omp dispatch nowait
	//DUMP: OMPDispatchDirective
	//DUMP: OMPNowaitClause
	#pragma omp dispatch nowait
	foo(a, b);
	}

	int *get_device_ptr();
	int get_device();
	int other();

	//DUMP: FunctionDecl{{.*}} test_one
	void test_one()
	{
	int aaa, bbb, var;
	//PRINT: #pragma omp dispatch depend(in : var) nowait novariants(aaa > 5) nocontext(bbb > 5)
	//DUMP: OMPDispatchDirective
	//DUMP: OMPDependClause
	//DUMP: OMPNowaitClause
	//DUMP: OMPNovariantsClause
	//DUMP: DeclRefExpr {{.*}} 'bool' lvalue OMPCapturedExpr
	//DUMP: OMPNocontextClause
	//DUMP: DeclRefExpr {{.*}} 'bool' lvalue OMPCapturedExpr
	#pragma omp dispatch depend(in:var) nowait novariants(aaa > 5) nocontext(bbb > 5)
	foo(aaa, &bbb);

	int *dp = get_device_ptr();
	int dev = get_device();
	//PRINT: #pragma omp dispatch device(dev) is_device_ptr(dp) novariants(dev > 10) nocontext(dev > 5)
	//DUMP: OMPDispatchDirective
	//DUMP: OMPDeviceClause
	//DUMP: OMPIs_device_ptrClause
	//DUMP: OMPNovariantsClause
	//DUMP: DeclRefExpr {{.*}} 'bool' lvalue OMPCapturedExpr
	//DUMP: OMPNocontextClause
	//DUMP: DeclRefExpr {{.*}} 'bool' lvalue OMPCapturedExpr
	#pragma omp dispatch device(dev) is_device_ptr(dp) novariants(dev > 10) nocontext(dev > 5)
	foo(aaa, dp);

	//PRINT: #pragma omp dispatch
	//PRINT: foo(other(), &bbb);
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	foo(other(), &bbb);

	fooTemp<int, int*>();
	}

	struct Obj {
	Obj();
	~Obj();
	int disp_method_variant1();
	#pragma omp declare variant(disp_method_variant1) \
	match(construct={dispatch}, device={arch(arm)})
	int disp_method1();

	static int disp_method_variant2() { return 1; }
	#pragma omp declare variant(disp_method_variant2) \
	match(construct={dispatch}, device={arch(arm)})
	static int disp_method2() { return 2; }
	};

	Obj foo_vari();
	#pragma omp declare variant(foo_vari) \
	match(construct={dispatch}, device={arch(arm)})
	Obj foo_obj();

	//DUMP: FunctionDecl{{.*}} test_two
	void test_two(Obj o1, Obj &o2, Obj *o3)
	{
	//PRINT: #pragma omp dispatch
	//PRINT: o1.disp_method1();
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	o1.disp_method1();

	//PRINT: #pragma omp dispatch
	//PRINT: o2.disp_method1();
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	o2.disp_method1();

	//PRINT: #pragma omp dispatch
	//PRINT: o3->disp_method1();
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	o3->disp_method1();

	//PRINT: #pragma omp dispatch
	//PRINT: Obj::disp_method2();
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	Obj::disp_method2();

	int ret;
	//PRINT: #pragma omp dispatch
	//PRINT: ret = o1.disp_method1();
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	ret = o1.disp_method1();

	//PRINT: #pragma omp dispatch
	//PRINT: ret = o2.disp_method1();
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	ret = o2.disp_method1();

	//PRINT: #pragma omp dispatch
	//PRINT: ret = o3->disp_method1();
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	ret = o3->disp_method1();

	//PRINT: #pragma omp dispatch
	//PRINT: ret = Obj::disp_method2();
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	ret = Obj::disp_method2();

	//PRINT: #pragma omp dispatch
	//PRINT: (void)Obj::disp_method2();
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	(void)Obj::disp_method2();

	// Full C++ operator= case with temps and EH.
	Obj o;
	//PRINT: #pragma omp dispatch
	//PRINT: o = foo_obj();
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	o = foo_obj();
	}

	struct A {
	A& disp_operator(A other);
	#pragma omp declare variant(disp_operator) \
	match(construct={dispatch}, device={arch(arm)})
	A& operator=(A other);
	};

	struct Obj2 {
	A xx;
	Obj2& disp_operator(Obj2 other);
	#pragma omp declare variant(disp_operator) \
	match(construct={dispatch}, device={arch(arm)})
	Obj2& operator=(Obj2 other);

	void foo() {
	Obj2 z;
	//PRINT: #pragma omp dispatch
	//PRINT: z = z;
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	z = z;
	//PRINT: #pragma omp dispatch
	//PRINT: z.operator=(z);
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	z.operator=(z);
	}
	void bar() {
	Obj2 j;
	//PRINT: #pragma omp dispatch
	//PRINT: j = {this->xx};
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	j = {this->xx};
	//PRINT: #pragma omp dispatch
	//PRINT: j.operator=({this->xx});
	//DUMP: OMPDispatchDirective
	#pragma omp dispatch
	j.operator=({this->xx});
	}
	};

	void test_three()
	{
	Obj2 z1, z;
	#pragma omp dispatch
	z1 = z;
	#pragma omp dispatch
	z1.operator=(z);
	}
	#endif // HEADER