// RUN: %clang_cc1 %s -verify -pedantic -fsyntax-only -Wno-unused-value -triple spir-unknown-unknown // RUN: %clang_cc1 %s -verify -pedantic -fsyntax-only -Wno-unused-value -triple spir-unknown-unknown -fdeclare-opencl-builtins -finclude-default-header constant float f = 1.0h; // expected-error{{half precision constant requires cl_khr_fp16}} half half_disabled(half *p, // expected-error{{declaring function return value of type 'half' is not allowed}} half h) // expected-error{{declaring function parameter of type '__private half' is not allowed}} { half a[2]; // expected-error{{declaring variable of type '__private half [2]' is not allowed}} half b; // expected-error{{declaring variable of type '__private half' is not allowed}} *p; // expected-error{{loading directly from pointer to type '__private half' requires cl_khr_fp16. Use vector data load builtin functions instead}} *p = 0; // expected-error{{assigning directly to pointer to type 'half' requires cl_khr_fp16. Use vector data store builtin functions instead}} p[1]; // expected-error{{loading directly from pointer to type '__private half' requires cl_khr_fp16. Use vector data load builtin functions instead}} p[1] = 0; // expected-error{{assigning directly to pointer to type 'half' requires cl_khr_fp16. Use vector data store builtin functions instead}} float c = 1.0f; b = (half) c; // expected-error{{casting to type 'half' is not allowed}} c = (float) 1.0h; // expected-error{{half precision constant requires cl_khr_fp16}} b = 1.0h; // expected-error{{half precision constant requires cl_khr_fp16}} half *allowed = &p[1]; half *allowed2 = &*p; half *allowed3 = p + 1; return h; } kernel void half_disabled_kernel(global half *p, half h); // expected-error{{declaring function parameter of type '__private half' is not allowed; did you forget * ?}} // Exactly the same as above but with the cl_khr_fp16 extension enabled. #pragma OPENCL EXTENSION cl_khr_fp16 : enable constant half a = 1.0h; half half_enabled(half *p, half h) { half a[2]; half b; *p; *p = 0; p[1]; p[1] = 0; float c = 1.0f; b = (half) c; c = (float) 1.0h; b = 1.0h; half *allowed = &p[1]; half *allowed2 = &*p; half *allowed3 = p + 1; return h; } kernel void half_enabled_kernel(global half *p, half h);