llvm-for-llvmta/tools/clang/test/SemaCUDA/device-use-host-var.cu

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2022-04-25 13:02:35 +02:00
// RUN: %clang_cc1 -std=c++11 -fcuda-is-device -fsyntax-only -verify=dev %s
// RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify=host %s
// host-no-diagnostics
#include "Inputs/cuda.h"
int global_host_var;
__device__ int global_dev_var;
__constant__ int global_constant_var;
__shared__ int global_shared_var;
constexpr int global_constexpr_var = 1;
const int global_const_var = 1;
template<typename F>
__global__ void kernel(F f) { f(); } // dev-note2 {{called by 'kernel<(lambda}}
__device__ void dev_fun(int *out) {
int &ref_host_var = global_host_var; // dev-error {{reference to __host__ variable 'global_host_var' in __device__ function}}
int &ref_dev_var = global_dev_var;
int &ref_constant_var = global_constant_var;
int &ref_shared_var = global_shared_var;
const int &ref_constexpr_var = global_constexpr_var;
const int &ref_const_var = global_const_var;
*out = global_host_var; // dev-error {{reference to __host__ variable 'global_host_var' in __device__ function}}
*out = global_dev_var;
*out = global_constant_var;
*out = global_shared_var;
*out = global_constexpr_var;
*out = global_const_var;
*out = ref_host_var;
*out = ref_dev_var;
*out = ref_constant_var;
*out = ref_shared_var;
*out = ref_constexpr_var;
*out = ref_const_var;
}
__global__ void global_fun(int *out) {
int &ref_host_var = global_host_var; // dev-error {{reference to __host__ variable 'global_host_var' in __global__ function}}
int &ref_dev_var = global_dev_var;
int &ref_constant_var = global_constant_var;
int &ref_shared_var = global_shared_var;
const int &ref_constexpr_var = global_constexpr_var;
const int &ref_const_var = global_const_var;
*out = global_host_var; // dev-error {{reference to __host__ variable 'global_host_var' in __global__ function}}
*out = global_dev_var;
*out = global_constant_var;
*out = global_shared_var;
*out = global_constexpr_var;
*out = global_const_var;
*out = ref_host_var;
*out = ref_dev_var;
*out = ref_constant_var;
*out = ref_shared_var;
*out = ref_constexpr_var;
*out = ref_const_var;
}
__host__ __device__ void host_dev_fun(int *out) {
int &ref_host_var = global_host_var; // dev-error {{reference to __host__ variable 'global_host_var' in __host__ __device__ function}}
int &ref_dev_var = global_dev_var;
int &ref_constant_var = global_constant_var;
int &ref_shared_var = global_shared_var;
const int &ref_constexpr_var = global_constexpr_var;
const int &ref_const_var = global_const_var;
*out = global_host_var; // dev-error {{reference to __host__ variable 'global_host_var' in __host__ __device__ function}}
*out = global_dev_var;
*out = global_constant_var;
*out = global_shared_var;
*out = global_constexpr_var;
*out = global_const_var;
*out = ref_host_var;
*out = ref_dev_var;
*out = ref_constant_var;
*out = ref_shared_var;
*out = ref_constexpr_var;
*out = ref_const_var;
}
inline __host__ __device__ void inline_host_dev_fun(int *out) {
int &ref_host_var = global_host_var;
int &ref_dev_var = global_dev_var;
int &ref_constant_var = global_constant_var;
int &ref_shared_var = global_shared_var;
const int &ref_constexpr_var = global_constexpr_var;
const int &ref_const_var = global_const_var;
*out = global_host_var;
*out = global_dev_var;
*out = global_constant_var;
*out = global_shared_var;
*out = global_constexpr_var;
*out = global_const_var;
*out = ref_host_var;
*out = ref_dev_var;
*out = ref_constant_var;
*out = ref_shared_var;
*out = ref_constexpr_var;
*out = ref_const_var;
}
void dev_lambda_capture_by_ref(int *out) {
int &ref_host_var = global_host_var;
kernel<<<1,1>>>([&]() {
int &ref_dev_var = global_dev_var;
int &ref_constant_var = global_constant_var;
int &ref_shared_var = global_shared_var;
const int &ref_constexpr_var = global_constexpr_var;
const int &ref_const_var = global_const_var;
*out = global_host_var; // dev-error {{reference to __host__ variable 'global_host_var' in __host__ __device__ function}}
// dev-error@-1 {{capture host variable 'out' by reference in device or host device lambda function}}
*out = global_dev_var;
*out = global_constant_var;
*out = global_shared_var;
*out = global_constexpr_var;
*out = global_const_var;
*out = ref_host_var; // dev-error {{capture host variable 'ref_host_var' by reference in device or host device lambda function}}
*out = ref_dev_var;
*out = ref_constant_var;
*out = ref_shared_var;
*out = ref_constexpr_var;
*out = ref_const_var;
});
}
void dev_lambda_capture_by_copy(int *out) {
int &ref_host_var = global_host_var;
kernel<<<1,1>>>([=]() {
int &ref_dev_var = global_dev_var;
int &ref_constant_var = global_constant_var;
int &ref_shared_var = global_shared_var;
const int &ref_constexpr_var = global_constexpr_var;
const int &ref_const_var = global_const_var;
*out = global_host_var; // dev-error {{reference to __host__ variable 'global_host_var' in __host__ __device__ function}}
*out = global_dev_var;
*out = global_constant_var;
*out = global_shared_var;
*out = global_constexpr_var;
*out = global_const_var;
*out = ref_host_var;
*out = ref_dev_var;
*out = ref_constant_var;
*out = ref_shared_var;
*out = ref_constexpr_var;
*out = ref_const_var;
});
}
// Texture references are special. As far as C++ is concerned they are host
// variables that are referenced from device code. However, they are handled
// very differently by the compiler under the hood and such references are
// allowed. Compiler should produce no warning here, but it should diagnose the
// same case without the device_builtin_texture_type attribute.
template <class, int = 1, int = 1>
struct __attribute__((device_builtin_texture_type)) texture {
static texture<int> ref;
__device__ int c() {
auto &x = ref;
}
};
template <class, int = 1, int = 1>
struct not_a_texture {
static not_a_texture<int> ref;
__device__ int c() {
auto &x = ref; // dev-error {{reference to __host__ variable 'ref' in __device__ function}}
}
};