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clang-p2996/clang/test/OpenMP/for_simd_ast_print.cpp
Serge Pavlov a67a4d2f3c Make output of -ast-print a valid C++ code. 
Output generated by option -ast-print looks like C/C++ code, and it
really is for plain C. For C++ the produced output was not valid C++
code, but the differences were small. With this change the output
is fixed and can be compiled. Tests are changed so that output produced
by -ast-print is compiled again with the same flags and both outputs are
compared.

Option -ast-print is extensively used in clang tests but it itself
was tested poorly, existing tests only checked that compiler did not
crash. There are unit tests in file DeclPrinterTest.cpp, but they test
only terse output mode.

Differential Revision: https://reviews.llvm.org/D26452

llvm-svn: 286439
2016-11-10 08:49:37 +00:00

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// RUN: %clang_cc1 -verify -fopenmp -ast-print %s | FileCheck %s
// RUN: %clang_cc1 -fopenmp -x c++ -std=c++11 -emit-pch -o %t %s
// RUN: %clang_cc1 -fopenmp -std=c++11 -include-pch %t -fsyntax-only -verify %s -ast-print | FileCheck %s
// expected-no-diagnostics
#ifndef HEADER
#define HEADER
struct S1 {
S1(): a(0) {}
S1(int v) : a(v) {}
int a;
typedef int type;
};
template <typename T>
class S7 : public T {
protected:
T a;
S7() : a(0) {}
public:
S7(typename T::type v) : a(v) {
#pragma omp for simd private(a) private(this->a) private(T::a)
for (int k = 0; k < a.a; ++k)
++this->a.a;
}
S7 &operator=(S7 &s) {
#pragma omp for simd private(a) private(this->a)
for (int k = 0; k < s.a.a; ++k)
++s.a.a;
return *this;
}
};
// CHECK: #pragma omp for simd private(this->a) private(this->a) private(T::a)
// CHECK: #pragma omp for simd private(this->a) private(this->a)
// CHECK: #pragma omp for simd private(this->a) private(this->a) private(this->S1::a)
class S8 : public S7<S1> {
S8() {}
public:
S8(int v) : S7<S1>(v){
#pragma omp for simd private(a) private(this->a) private(S7<S1>::a)
for (int k = 0; k < a.a; ++k)
++this->a.a;
}
S8 &operator=(S8 &s) {
#pragma omp for simd private(a) private(this->a)
for (int k = 0; k < s.a.a; ++k)
++s.a.a;
return *this;
}
};
// CHECK: #pragma omp for simd private(this->a) private(this->a) private(this->S7<S1>::a)
// CHECK: #pragma omp for simd private(this->a) private(this->a)
void foo() {}
int g_ind = 1;
template<class T, class N> T reduct(T* arr, N num) {
N i;
N ind;
N myind;
T sum = (T)0;
// CHECK: T sum = (T)0;
#pragma omp for simd private(myind, g_ind), linear(ind), aligned(arr) ordered
// CHECK-NEXT: #pragma omp for simd private(myind,g_ind) linear(ind) aligned(arr) ordered
for (i = 0; i < num; ++i) {
myind = ind;
T cur = arr[myind];
ind += g_ind;
sum += cur;
}
}
template<class T> struct S {
S(const T &a)
:m_a(a)
{}
T result(T *v) const {
T res;
T val;
T lin = 0;
// CHECK: T res;
// CHECK: T val;
// CHECK: T lin = 0;
#pragma omp for simd private(val) safelen(7) linear(lin : -5) lastprivate(res) simdlen(5)
// CHECK-NEXT: #pragma omp for simd private(val) safelen(7) linear(lin: -5) lastprivate(res) simdlen(5)
for (T i = 7; i < m_a; ++i) {
val = v[i-7] + m_a;
res = val;
lin -= 5;
}
const T clen = 3;
// CHECK: T clen = 3;
#pragma omp for simd safelen(clen-1) simdlen(clen-1)
// CHECK-NEXT: #pragma omp for simd safelen(clen - 1) simdlen(clen - 1)
for(T i = clen+2; i < 20; ++i) {
// CHECK-NEXT: for (T i = clen + 2; i < 20; ++i) {
v[i] = v[v-clen] + 1;
// CHECK-NEXT: v[i] = v[v - clen] + 1;
}
// CHECK-NEXT: }
return res;
}
~S()
{}
T m_a;
};
template<int LEN> struct S2 {
static void func(int n, float *a, float *b, float *c) {
int k1 = 0, k2 = 0;
#pragma omp for simd safelen(LEN) linear(k1,k2:LEN) aligned(a:LEN) simdlen(LEN)
for(int i = 0; i < n; i++) {
c[i] = a[i] + b[i];
c[k1] = a[k1] + b[k1];
c[k2] = a[k2] + b[k2];
k1 = k1 + LEN;
k2 = k2 + LEN;
}
}
};
// S2<4>::func is called below in main.
// CHECK: template<> struct S2<4> {
// CHECK-NEXT: static void func(int n, float *a, float *b, float *c) {
// CHECK-NEXT: int k1 = 0, k2 = 0;
// CHECK-NEXT: #pragma omp for simd safelen(4) linear(k1,k2: 4) aligned(a: 4) simdlen(4)
// CHECK-NEXT: for (int i = 0; i < n; i++) {
// CHECK-NEXT: c[i] = a[i] + b[i];
// CHECK-NEXT: c[k1] = a[k1] + b[k1];
// CHECK-NEXT: c[k2] = a[k2] + b[k2];
// CHECK-NEXT: k1 = k1 + 4;
// CHECK-NEXT: k2 = k2 + 4;
// CHECK-NEXT: }
// CHECK-NEXT: }
int main (int argc, char **argv) {
int b = argc, c, d, e, f, g;
int k1=0,k2=0;
static int *a;
// CHECK: static int *a;
#pragma omp for simd ordered
// CHECK-NEXT: #pragma omp for simd ordered
for (int i=0; i < 2; ++i)*a=2;
// CHECK-NEXT: for (int i = 0; i < 2; ++i)
// CHECK-NEXT: *a = 2;
#pragma omp parallel
#pragma omp for simd private(argc, b),lastprivate(d,f) collapse(2) aligned(a : 4) ,firstprivate( g )
for (int i = 0; i < 10; ++i)
for (int j = 0; j < 10; ++j) {foo(); k1 += 8; k2 += 8;}
// CHECK-NEXT: #pragma omp parallel
// CHECK-NEXT: #pragma omp for simd private(argc,b) lastprivate(d,f) collapse(2) aligned(a: 4) firstprivate(g)
// CHECK-NEXT: for (int i = 0; i < 10; ++i)
// CHECK-NEXT: for (int j = 0; j < 10; ++j) {
// CHECK-NEXT: foo();
// CHECK-NEXT: k1 += 8;
// CHECK-NEXT: k2 += 8;
// CHECK-NEXT: }
for (int i = 0; i < 10; ++i)foo();
// CHECK-NEXT: for (int i = 0; i < 10; ++i)
// CHECK-NEXT: foo();
const int CLEN = 4;
// CHECK-NEXT: const int CLEN = 4;
#pragma omp for simd aligned(a:CLEN) linear(a:CLEN) safelen(CLEN) collapse( 1 ) simdlen(CLEN)
// CHECK-NEXT: #pragma omp for simd aligned(a: CLEN) linear(a: CLEN) safelen(CLEN) collapse(1) simdlen(CLEN)
for (int i = 0; i < 10; ++i)foo();
// CHECK-NEXT: for (int i = 0; i < 10; ++i)
// CHECK-NEXT: foo();
float arr[16];
S2<4>::func(0,arr,arr,arr);
return (0);
}
#endif
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