// RUN: %clang_cc1 -verify -fopenmp -x c++ -std=c++11 -ast-print %s | FileCheck %s // RUN: %clang_cc1 -fopenmp -x c++ -std=c++11 -emit-pch -o %t %s // RUN: %clang_cc1 -fopenmp -x c++ -std=c++11 -include-pch %t -fsyntax-only -verify %s -ast-print | FileCheck %s // expected-no-diagnostics #ifndef HEADER #define HEADER #pragma omp declare simd linear(d: 8) #pragma omp declare simd inbranch simdlen(32) #pragma omp declare simd notinbranch void add_1(float *d) __attribute__((cold)); // CHECK: #pragma omp declare simd notinbranch // CHECK-NEXT: #pragma omp declare simd inbranch simdlen(32) // CHECK-NEXT: #pragma omp declare simd linear(val(d): 8) // CHECK-NEXT: void add_1(float *d) __attribute__((cold)); // #pragma omp declare simd aligned(hp, hp2) template <class C> void h(C *hp, C *hp2, C *hq, C *lin) { } // CHECK: #pragma omp declare simd aligned(hp) aligned(hp2) // CHECK-NEXT: template <class C = int> void h(int *hp, int *hp2, int *hq, int *lin) { // CHECK-NEXT: h((float *)hp, (float *)hp2, (float *)hq, (float *)lin); // CHECK-NEXT: } // CHECK: #pragma omp declare simd aligned(hp) aligned(hp2) // CHECK-NEXT: template <class C = float> void h(float *hp, float *hp2, float *hq, float *lin) { // CHECK-NEXT: } // CHECK: #pragma omp declare simd aligned(hp) aligned(hp2) // CHECK: template <class C> void h(C *hp, C *hp2, C *hq, C *lin) { // CHECK-NEXT: } // // Explicit specialization with <C=int>. // Pragmas need to be same, otherwise standard says that's undefined behavior. #pragma omp declare simd aligned(hp, hp2) template <> void h(int *hp, int *hp2, int *hq, int *lin) { // Implicit specialization with <C=float>. // This is special case where the directive is stored by Sema and is // generated together with the (pending) function instatiation. h((float*) hp, (float*) hp2, (float*) hq, (float*) lin); } class VV { // CHECK: #pragma omp declare simd uniform(this, a) linear(val(b): a) // CHECK-NEXT: int add(int a, int b) __attribute__((cold)) { // CHECK-NEXT: return a + b; // CHECK-NEXT: } #pragma omp declare simd uniform(this, a) linear(val(b): a) int add(int a, int b) __attribute__((cold)) { return a + b; } // CHECK: #pragma omp declare simd aligned(b: 4) aligned(a) linear(ref(b): 4) linear(val(this)) linear(val(a)) // CHECK-NEXT: float taddpf(float *a, float *&b) { // CHECK-NEXT: return *a + *b; // CHECK-NEXT: } #pragma omp declare simd aligned (b: 4) aligned(a) linear(ref(b): 4) linear(this, a) float taddpf(float *a, float *&b) { return *a + *b; } // CHECK: #pragma omp declare simd aligned(b: 8) // CHECK-NEXT: #pragma omp declare simd linear(uval(c): 8) // CHECK-NEXT: int tadd(int (&b)[], int &c) { // CHECK-NEXT: return this->x[b[0]] + b[0]; // CHECK-NEXT: } #pragma omp declare simd linear(uval(c): 8) #pragma omp declare simd aligned(b : 8) int tadd(int (&b)[], int &c) { return x[b[0]] + b[0]; } private: int x[10]; }; // CHECK: template <int X = 16, typename T = float> class TVV { // CHECK: #pragma omp declare simd // CHECK-NEXT: int tadd(int a, int b); // CHECK: #pragma omp declare simd aligned(a: 16 * 2) aligned(b) linear(ref(b): 16) // CHECK-NEXT: float taddpf(float *a, float *&b) { // CHECK-NEXT: return *a + *b; // CHECK-NEXT: } // CHECK: #pragma omp declare simd // CHECK-NEXT: #pragma omp declare simd // CHECK-NEXT: int tadd(int b) { // CHECK-NEXT: return this->x[b] + b; // CHECK-NEXT: } // CHECK: } template <int X, typename T> class TVV { public: // CHECK: template <int X, typename T> class TVV { #pragma omp declare simd simdlen(X) int tadd(int a, int b) { return a + b; } // CHECK: #pragma omp declare simd simdlen(X) // CHECK-NEXT: int tadd(int a, int b) { // CHECK-NEXT: return a + b; // CHECK-NEXT: } #pragma omp declare simd aligned(a : X * 2) aligned(b) linear(ref(b): X) float taddpf(float *a, T *&b) { return *a + *b; } // CHECK: #pragma omp declare simd aligned(a: X * 2) aligned(b) // CHECK-NEXT: float taddpf(float *a, T *&b) { // CHECK-NEXT: return *a + *b; // CHECK-NEXT: } #pragma omp declare simd #pragma omp declare simd uniform(this, b) int tadd(int b) { return x[b] + b; } // CHECK: #pragma omp declare simd uniform(this, b) // CHECK-NEXT: #pragma omp declare simd // CHECK-NEXT: int tadd(int b) { // CHECK-NEXT: return this->x[b] + b; // CHECK-NEXT: } private: int x[X]; }; // CHECK: }; // CHECK: #pragma omp declare simd simdlen(64) aligned(b: 64 * 2) linear(uval(c): 64) // CHECK: template <int N = 64> void foo(int (&b)[64], float *&c) // CHECK: #pragma omp declare simd simdlen(N) aligned(b: N * 2) linear(uval(c): N) // CHECK: template <int N> void foo(int (&b)[N], float *&c) #pragma omp declare simd simdlen(N) aligned(b : N * 2) linear(uval(c): N) template <int N> void foo(int (&b)[N], float *&c); // CHECK: TVV<16, float> t16; TVV<16, float> t16; void f() { float a = 1.0f, b = 2.0f; float *p = &b; float r = t16.taddpf(&a, p); int res = t16.tadd(b); int c[64]; foo(c, p); } #endif