// RUN: %clang_cc1 -std=c++17 -fsyntax-only -verify=com %s // RUN: %clang_cc1 -std=c++17 -fsyntax-only -fcuda-is-device -verify=com,dev %s #include "Inputs/cuda.h" auto global_lambda = [] () { return 123; }; template __global__ void kernel(F f) { f(); } // dev-note@-1 7{{called by 'kernel<(lambda}} __host__ __device__ void hd(int x); class A { int b; public: void test() { [=](){ hd(b); }(); [&](){ hd(b); }(); kernel<<<1,1>>>([](){ hd(0); }); kernel<<<1,1>>>([=](){ hd(b); }); // dev-error@-1 {{capture host side class data member by this pointer in device or host device lambda function}} kernel<<<1,1>>>([&](){ hd(b); }); // dev-error@-1 {{capture host side class data member by this pointer in device or host device lambda function}} kernel<<<1,1>>>([&] __device__ (){ hd(b); }); // dev-error@-1 {{capture host side class data member by this pointer in device or host device lambda function}} kernel<<<1,1>>>([&](){ auto f = [&]{ hd(b); }; // dev-error@-1 {{capture host side class data member by this pointer in device or host device lambda function}} f(); }); } }; int main(void) { auto lambda_kernel = [&]__global__(){}; // com-error@-1 {{kernel function 'operator()' must be a free function or static member function}} int b; [&](){ hd(b); }(); [=, &b](){ hd(b); }(); kernel<<<1,1>>>(global_lambda); kernel<<<1,1>>>([](){ hd(0); }); kernel<<<1,1>>>([=](){ hd(b); }); kernel<<<1,1>>>([b](){ hd(b); }); kernel<<<1,1>>>([&](){ hd(b); }); // dev-error@-1 {{capture host variable 'b' by reference in device or host device lambda function}} kernel<<<1,1>>>([=, &b](){ hd(b); }); // dev-error@-1 {{capture host variable 'b' by reference in device or host device lambda function}} kernel<<<1,1>>>([&, b](){ hd(b); }); kernel<<<1,1>>>([&](){ auto f = [&]{ hd(b); }; // dev-error@-1 {{capture host variable 'b' by reference in device or host device lambda function}} f(); }); return 0; }