llvm-project/clang/test/SemaCUDA/usual-deallocators.cu

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// RUN: %clang_cc1 %s --std=c++11 -triple nvptx-unknown-unknown -fcuda-is-device \
// RUN: -emit-llvm -o /dev/null -verify=device
// RUN: %clang_cc1 %s --std=c++11 -triple nvptx-unknown-unknown \
// RUN: -emit-llvm -o /dev/null -verify=host
// RUN: %clang_cc1 %s --std=c++17 -triple nvptx-unknown-unknown -fcuda-is-device \
// RUN: -emit-llvm -o /dev/null -verify=device
// RUN: %clang_cc1 %s --std=c++17 -triple nvptx-unknown-unknown \
// RUN: -emit-llvm -o /dev/null -verify=host
#include "Inputs/cuda.h"
extern __host__ void host_fn();
extern __device__ void dev_fn();
extern __host__ __device__ void hd_fn();
struct H1D1 {
__host__ void operator delete(void *) { host_fn(); };
__device__ void operator delete(void *) { dev_fn(); };
};
struct h1D1 {
__host__ void operator delete(void *) = delete;
// host-note@-1 {{'operator delete' has been explicitly marked deleted here}}
__device__ void operator delete(void *) { dev_fn(); };
};
struct H1d1 {
__host__ void operator delete(void *) { host_fn(); };
__device__ void operator delete(void *) = delete;
// device-note@-1 {{'operator delete' has been explicitly marked deleted here}}
};
struct H1D2 {
__host__ void operator delete(void *) { host_fn(); };
__device__ void operator delete(void *, __SIZE_TYPE__) { dev_fn(); };
};
struct H2D1 {
__host__ void operator delete(void *, __SIZE_TYPE__) { host_fn(); };
__device__ void operator delete(void *) { dev_fn(); };
};
struct H2D2 {
__host__ void operator delete(void *, __SIZE_TYPE__) { host_fn(); };
__device__ void operator delete(void *, __SIZE_TYPE__) { dev_fn(); };
};
struct H1D1D2 {
__host__ void operator delete(void *) { host_fn(); };
__device__ void operator delete(void *) { dev_fn(); };
__device__ void operator delete(void *, __SIZE_TYPE__) { dev_fn(); };
};
struct H1H2D1 {
__host__ void operator delete(void *) { host_fn(); };
__host__ void operator delete(void *, __SIZE_TYPE__) { host_fn(); };
__device__ void operator delete(void *) { dev_fn(); };
};
struct H1H2D2 {
__host__ void operator delete(void *) { host_fn(); };
__host__ void operator delete(void *, __SIZE_TYPE__) { host_fn(); };
__device__ void operator delete(void *, __SIZE_TYPE__) { dev_fn(); };
};
struct H1H2D1D2 {
__host__ void operator delete(void *) { host_fn(); };
__host__ void operator delete(void *, __SIZE_TYPE__) { host_fn(); };
__device__ void operator delete(void *) { dev_fn(); };
__device__ void operator delete(void *, __SIZE_TYPE__) { dev_fn(); };
};
template <typename T>
__host__ __device__ void test_hd(void *p) {
T *t = (T *)p;
delete t;
// host-error@-1 {{attempt to use a deleted function}}
// device-error@-2 {{attempt to use a deleted function}}
}
__host__ __device__ void tests_hd(void *t) {
test_hd<H1D1>(t);
test_hd<h1D1>(t);
// host-note@-1 {{in instantiation of function template specialization 'test_hd<h1D1>' requested here}}
test_hd<H1d1>(t);
// device-note@-1 {{in instantiation of function template specialization 'test_hd<H1d1>' requested here}}
test_hd<H1D2>(t);
test_hd<H2D1>(t);
test_hd<H2D2>(t);
test_hd<H1D1D2>(t);
test_hd<H1H2D1>(t);
test_hd<H1H2D1>(t);
test_hd<H1H2D2>(t);
test_hd<H1H2D1D2>(t);
}
// This should produce no errors. Defaulted destructor should be treated as HD,
// which allows referencing host-only `operator delete` with a deferred
// diagnostics that would fire if we ever attempt to codegen it on device..
struct H {
virtual ~H() = default;
static void operator delete(void *) {}
};
H h;