test/SemaCUDA/call-host-fn-from-device.cu - clang - Git at Google

 // RUN: %clang_cc1 %s --std=c++11 -triple nvptx-unknown-unknown -fcuda-is-device \
 // RUN:   -emit-llvm -o /dev/null -verify -verify-ignore-unexpected=note

 // Note: This test won't work with -fsyntax-only, because some of these errors
 // are emitted during codegen.

 #include "Inputs/cuda.h"

 extern "C" void host_fn() {}
 // expected-note@-1 7 {{'host_fn' declared here}}

 struct Dummy {};

 struct S {
   S() {}
   // expected-note@-1 2 {{'S' declared here}}
   ~S() { host_fn(); }
   // expected-note@-1 {{'~S' declared here}}
   int x;
 };

 struct T {
   __host__ __device__ void hd() { host_fn(); }
   // expected-error@-1 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}

   // No error; this is (implicitly) inline and is never called, so isn't
   // codegen'ed.
   __host__ __device__ void hd2() { host_fn(); }

   __host__ __device__ void hd3();

   void h() {}
   // expected-note@-1 {{'h' declared here}}

   void operator+();
   // expected-note@-1 {{'operator+' declared here}}

   void operator-(const T&) {}
   // expected-note@-1 {{'operator-' declared here}}

   operator Dummy() { return Dummy(); }
   // expected-note@-1 {{'operator Dummy' declared here}}

   __host__ void operator delete(void *) { host_fn(); };
   __device__ void operator delete(void*, __SIZE_TYPE__);
 };

 struct U {
   __device__ void operator delete(void*, __SIZE_TYPE__) = delete;
   __host__ __device__ void operator delete(void*);
 };

 __host__ __device__ void T::hd3() {
   host_fn();
   // expected-error@-1 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}
 }

 template <typename T> __host__ __device__ void hd2() { host_fn(); }
 // expected-error@-1 2 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}
 __global__ void kernel() { hd2<int>(); }

 __host__ __device__ void hd() { host_fn(); }
 // expected-error@-1 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}

 template <typename T> __host__ __device__ void hd3() { host_fn(); }
 // expected-error@-1 2 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}
 __device__ void device_fn() { hd3<int>(); }

 // No error because this is never instantiated.
 template <typename T> __host__ __device__ void hd4() { host_fn(); }

 __host__ __device__ void local_var() {
   S s;
   // expected-error@-1 {{reference to __host__ function 'S' in __host__ __device__ function}}
 }

 __host__ __device__ void placement_new(char *ptr) {
   ::new(ptr) S();
   // expected-error@-1 {{reference to __host__ function 'S' in __host__ __device__ function}}
 }

 __host__ __device__ void explicit_destructor(S *s) {
   s->~S();
   // expected-error@-1 {{reference to __host__ function '~S' in __host__ __device__ function}}
 }

 __host__ __device__ void class_specific_delete(T *t, U *u) {
   delete t; // ok, call sized device delete even though host has preferable non-sized version
   delete u; // ok, call non-sized HD delete rather than sized D delete
 }

 __host__ __device__ void hd_member_fn() {
   T t;
   // Necessary to trigger an error on T::hd.  It's (implicitly) inline, so
   // isn't codegen'ed until we call it.
   t.hd();
 }

 __host__ __device__ void h_member_fn() {
   T t;
   t.h();
   // expected-error@-1 {{reference to __host__ function 'h' in __host__ __device__ function}}
 }

 __host__ __device__ void fn_ptr() {
   auto* ptr = &host_fn;
   // expected-error@-1 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}
 }

 template <typename T>
 __host__ __device__ void fn_ptr_template() {
   auto* ptr = &host_fn;  // Not an error because the template isn't instantiated.
 }

 __host__ __device__ void unaryOp() {
   T t;
   (void) +t; // expected-error {{reference to __host__ function 'operator+' in __host__ __device__ function}}
 }

 __host__ __device__ void binaryOp() {
   T t;
   (void) (t - t); // expected-error {{reference to __host__ function 'operator-' in __host__ __device__ function}}
 }

 __host__ __device__ void implicitConversion() {
   T t;
   Dummy d = t; // expected-error {{reference to __host__ function 'operator Dummy' in __host__ __device__ function}}
 }

 template <typename T>
 struct TmplStruct {
   template <typename U> __host__ __device__ void fn() {}
 };

 template <>
 template <>
 __host__ __device__ void TmplStruct<int>::fn<int>() { host_fn(); }
 // expected-error@-1 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}

 __device__ void double_specialization() { TmplStruct<int>().fn<int>(); }
	// RUN: %clang_cc1 %s --std=c++11 -triple nvptx-unknown-unknown -fcuda-is-device \
	// RUN: -emit-llvm -o /dev/null -verify -verify-ignore-unexpected=note

	// Note: This test won't work with -fsyntax-only, because some of these errors
	// are emitted during codegen.

	#include "Inputs/cuda.h"

	extern "C" void host_fn() {}
	// expected-note@-1 7 {{'host_fn' declared here}}

	struct Dummy {};

	struct S {
	S() {}
	// expected-note@-1 2 {{'S' declared here}}
	~S() { host_fn(); }
	// expected-note@-1 {{'~S' declared here}}
	int x;
	};

	struct T {
	__host__ __device__ void hd() { host_fn(); }
	// expected-error@-1 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}

	// No error; this is (implicitly) inline and is never called, so isn't
	// codegen'ed.
	__host__ __device__ void hd2() { host_fn(); }

	__host__ __device__ void hd3();

	void h() {}
	// expected-note@-1 {{'h' declared here}}

	void operator+();
	// expected-note@-1 {{'operator+' declared here}}

	void operator-(const T&) {}
	// expected-note@-1 {{'operator-' declared here}}

	operator Dummy() { return Dummy(); }
	// expected-note@-1 {{'operator Dummy' declared here}}

	__host__ void operator delete(void *) { host_fn(); };
	__device__ void operator delete(void*, __SIZE_TYPE__);
	};

	struct U {
	__device__ void operator delete(void*, __SIZE_TYPE__) = delete;
	__host__ __device__ void operator delete(void*);
	};

	__host__ __device__ void T::hd3() {
	host_fn();
	// expected-error@-1 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}
	}

	template <typename T> __host__ __device__ void hd2() { host_fn(); }
	// expected-error@-1 2 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}
	__global__ void kernel() { hd2<int>(); }

	__host__ __device__ void hd() { host_fn(); }
	// expected-error@-1 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}

	template <typename T> __host__ __device__ void hd3() { host_fn(); }
	// expected-error@-1 2 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}
	__device__ void device_fn() { hd3<int>(); }

	// No error because this is never instantiated.
	template <typename T> __host__ __device__ void hd4() { host_fn(); }

	__host__ __device__ void local_var() {
	S s;
	// expected-error@-1 {{reference to __host__ function 'S' in __host__ __device__ function}}
	}

	__host__ __device__ void placement_new(char *ptr) {
	::new(ptr) S();
	// expected-error@-1 {{reference to __host__ function 'S' in __host__ __device__ function}}
	}

	__host__ __device__ void explicit_destructor(S *s) {
	s->~S();
	// expected-error@-1 {{reference to __host__ function '~S' in __host__ __device__ function}}
	}

	__host__ __device__ void class_specific_delete(T t, U u) {
	delete t; // ok, call sized device delete even though host has preferable non-sized version
	delete u; // ok, call non-sized HD delete rather than sized D delete
	}

	__host__ __device__ void hd_member_fn() {
	T t;
	// Necessary to trigger an error on T::hd. It's (implicitly) inline, so
	// isn't codegen'ed until we call it.
	t.hd();
	}

	__host__ __device__ void h_member_fn() {
	T t;
	t.h();
	// expected-error@-1 {{reference to __host__ function 'h' in __host__ __device__ function}}
	}

	__host__ __device__ void fn_ptr() {
	auto* ptr = &host_fn;
	// expected-error@-1 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}
	}

	template <typename T>
	__host__ __device__ void fn_ptr_template() {
	auto* ptr = &host_fn; // Not an error because the template isn't instantiated.
	}

	__host__ __device__ void unaryOp() {
	T t;
	(void) +t; // expected-error {{reference to __host__ function 'operator+' in __host__ __device__ function}}
	}

	__host__ __device__ void binaryOp() {
	T t;
	(void) (t - t); // expected-error {{reference to __host__ function 'operator-' in __host__ __device__ function}}
	}

	__host__ __device__ void implicitConversion() {
	T t;
	Dummy d = t; // expected-error {{reference to __host__ function 'operator Dummy' in __host__ __device__ function}}
	}

	template <typename T>
	struct TmplStruct {
	template <typename U> __host__ __device__ void fn() {}
	};

	template <>
	template <>
	__host__ __device__ void TmplStruct<int>::fn<int>() { host_fn(); }
	// expected-error@-1 {{reference to __host__ function 'host_fn' in __host__ __device__ function}}

	__device__ void double_specialization() { TmplStruct<int>().fn<int>(); }