// RUN: %clang_cc1 -fsyntax-only -fopenmp -x c++ -std=c++11 -fexceptions -fcxx-exceptions -verify %s static int sii; // expected-note@+1 {{defined as threadprivate or thread local}} #pragma omp threadprivate(sii) static int globalii; int test_iteration_spaces() { const int N = 100; float a[N], b[N], c[N]; int ii, jj, kk; float fii; double dii; #pragma omp simd for (int i = 0; i < 10; i+=1) { c[i] = a[i] + b[i]; } #pragma omp simd for (char i = 0; i < 10; i++) { c[i] = a[i] + b[i]; } #pragma omp simd for (char i = 0; i < 10; i+='\1') { c[i] = a[i] + b[i]; } #pragma omp simd for (long long i = 0; i < 10; i++) { c[i] = a[i] + b[i]; } // expected-error@+2 {{expression must have integral or unscoped enumeration type, not 'double'}} #pragma omp simd for (long long i = 0; i < 10; i+=1.5) { c[i] = a[i] + b[i]; } #pragma omp simd for (long long i = 0; i < 'z'; i+=1u) { c[i] = a[i] + b[i]; } // expected-error@+2 {{variable must be of integer or random access iterator type}} #pragma omp simd for (float fi = 0; fi < 10.0; fi++) { c[(int)fi] = a[(int)fi] + b[(int)fi]; } // expected-error@+2 {{variable must be of integer or random access iterator type}} #pragma omp simd for (double fi = 0; fi < 10.0; fi++) { c[(int)fi] = a[(int)fi] + b[(int)fi]; } // expected-error@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (int &ref = ii; ref < 10; ref++) { } // expected-error@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (int i; i < 10; i++) c[i] = a[i]; // expected-error@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (int i = 0, j = 0; i < 10; ++i) c[i] = a[i]; // expected-error@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (;ii < 10; ++ii) c[ii] = a[ii]; // expected-warning@+3 {{expression result unused}} // expected-error@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (ii + 1;ii < 10; ++ii) c[ii] = a[ii]; // expected-error@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (c[ii] = 0;ii < 10; ++ii) c[ii] = a[ii]; // Ok to skip parenthesises. #pragma omp simd for (((ii)) = 0;ii < 10; ++ii) c[ii] = a[ii]; // expected-error@+2 {{condition of OpenMP for loop must be a relational comparison ('<', '<=', '>', or '>=') of loop variable 'i'}} #pragma omp simd for (int i = 0; i; i++) c[i] = a[i]; // expected-error@+3 {{condition of OpenMP for loop must be a relational comparison ('<', '<=', '>', or '>=') of loop variable 'i'}} // expected-error@+2 {{increment clause of OpenMP for loop must perform simple addition or subtraction on loop variable 'i'}} #pragma omp simd for (int i = 0; jj < kk; ii++) c[i] = a[i]; // expected-error@+2 {{condition of OpenMP for loop must be a relational comparison ('<', '<=', '>', or '>=') of loop variable 'i'}} #pragma omp simd for (int i = 0; !!i; i++) c[i] = a[i]; // expected-error@+2 {{condition of OpenMP for loop must be a relational comparison ('<', '<=', '>', or '>=') of loop variable 'i'}} #pragma omp simd for (int i = 0; i != 1; i++) c[i] = a[i]; // expected-error@+2 {{condition of OpenMP for loop must be a relational comparison ('<', '<=', '>', or '>=') of loop variable 'i'}} #pragma omp simd for (int i = 0; ; i++) c[i] = a[i]; // Ok. #pragma omp simd for (int i = 11; i > 10; i--) c[i] = a[i]; // Ok. #pragma omp simd for (int i = 0; i < 10; ++i) c[i] = a[i]; // Ok. #pragma omp simd for (ii = 0; ii < 10; ++ii) c[ii] = a[ii]; // expected-error@+2 {{increment clause of OpenMP for loop must perform simple addition or subtraction on loop variable 'ii'}} #pragma omp simd for (ii = 0; ii < 10; ++jj) c[ii] = a[jj]; // expected-error@+2 {{increment clause of OpenMP for loop must perform simple addition or subtraction on loop variable 'ii'}} #pragma omp simd for (ii = 0; ii < 10; ++ ++ ii) c[ii] = a[ii]; // Ok but undefined behavior (in general, cannot check that incr // is really loop-invariant). #pragma omp simd for (ii = 0; ii < 10; ii = ii + ii) c[ii] = a[ii]; // expected-error@+2 {{expression must have integral or unscoped enumeration type, not 'float'}} #pragma omp simd for (ii = 0; ii < 10; ii = ii + 1.0f) c[ii] = a[ii]; // Ok - step was converted to integer type. #pragma omp simd for (ii = 0; ii < 10; ii = ii + (int)1.1f) c[ii] = a[ii]; // expected-error@+2 {{increment clause of OpenMP for loop must perform simple addition or subtraction on loop variable 'ii'}} #pragma omp simd for (ii = 0; ii < 10; jj = ii + 2) c[ii] = a[ii]; // expected-warning@+3 {{relational comparison result unused}} // expected-error@+2 {{increment clause of OpenMP for loop must perform simple addition or subtraction on loop variable 'ii'}} #pragma omp simd for (ii = 0; ii < 10; jj > kk + 2) c[ii] = a[ii]; // expected-error@+2 {{increment clause of OpenMP for loop must perform simple addition or subtraction on loop variable 'ii'}} #pragma omp simd for (ii = 0; ii < 10;) c[ii] = a[ii]; // expected-warning@+3 {{expression result unused}} // expected-error@+2 {{increment clause of OpenMP for loop must perform simple addition or subtraction on loop variable 'ii'}} #pragma omp simd for (ii = 0; ii < 10; !ii) c[ii] = a[ii]; // expected-error@+2 {{increment clause of OpenMP for loop must perform simple addition or subtraction on loop variable 'ii'}} #pragma omp simd for (ii = 0; ii < 10; ii ? ++ii : ++jj) c[ii] = a[ii]; // expected-error@+2 {{increment clause of OpenMP for loop must perform simple addition or subtraction on loop variable 'ii'}} #pragma omp simd for (ii = 0; ii < 10; ii = ii < 10) c[ii] = a[ii]; // expected-note@+3 {{loop step is expected to be positive due to this condition}} // expected-error@+2 {{increment expression must cause 'ii' to increase on each iteration of OpenMP for loop}} #pragma omp simd for (ii = 0; ii < 10; ii = ii + 0) c[ii] = a[ii]; // expected-note@+3 {{loop step is expected to be positive due to this condition}} // expected-error@+2 {{increment expression must cause 'ii' to increase on each iteration of OpenMP for loop}} #pragma omp simd for (ii = 0; ii < 10; ii = ii + (int)(0.8 - 0.45)) c[ii] = a[ii]; // expected-note@+3 {{loop step is expected to be positive due to this condition}} // expected-error@+2 {{increment expression must cause 'ii' to increase on each iteration of OpenMP for loop}} #pragma omp simd for (ii = 0; (ii) < 10; ii-=25) c[ii] = a[ii]; // expected-note@+3 {{loop step is expected to be positive due to this condition}} // expected-error@+2 {{increment expression must cause 'ii' to increase on each iteration of OpenMP for loop}} #pragma omp simd for (ii = 0; (ii < 10); ii-=0) c[ii] = a[ii]; // expected-note@+3 {{loop step is expected to be negative due to this condition}} // expected-error@+2 {{increment expression must cause 'ii' to decrease on each iteration of OpenMP for loop}} #pragma omp simd for (ii = 0; ii > 10; (ii+=0)) c[ii] = a[ii]; // expected-note@+3 {{loop step is expected to be positive due to this condition}} // expected-error@+2 {{increment expression must cause 'ii' to increase on each iteration of OpenMP for loop}} #pragma omp simd for (ii = 0; ii < 10; (ii) = (1-1)+(ii)) c[ii] = a[ii]; // expected-note@+3 {{loop step is expected to be negative due to this condition}} // expected-error@+2 {{increment expression must cause 'ii' to decrease on each iteration of OpenMP for loop}} #pragma omp simd for ((ii = 0); ii > 10; (ii-=0)) c[ii] = a[ii]; // expected-note@+3 {{loop step is expected to be positive due to this condition}} // expected-error@+2 {{increment expression must cause 'ii' to increase on each iteration of OpenMP for loop}} #pragma omp simd for (ii = 0; (ii < 10); (ii-=0)) c[ii] = a[ii]; // expected-note@+2 {{defined as private}} // expected-error@+2 {{loop iteration variable in the associated loop of 'omp simd' directive may not be private, predetermined as linear}} #pragma omp simd private(ii) for (ii = 0; ii < 10; ii++) c[ii] = a[ii]; // expected-error@+3 {{unexpected OpenMP clause 'shared' in directive '#pragma omp simd'}} // expected-note@+2 {{defined as shared}} // expected-error@+2 {{loop iteration variable in the associated loop of 'omp simd' directive may not be shared, predetermined as linear}} #pragma omp simd shared(ii) for (ii = 0; ii < 10; ii++) c[ii] = a[ii]; #pragma omp simd linear(ii) for (ii = 0; ii < 10; ii++) c[ii] = a[ii]; #pragma omp simd lastprivate(ii) linear(jj) collapse(2) // expected-note {{defined as linear}} for (ii = 0; ii < 10; ii++) for (jj = 0; jj < 10; jj++) // expected-error {{loop iteration variable in the associated loop of 'omp simd' directive may not be linear, predetermined as lastprivate}} c[ii] = a[jj]; #pragma omp parallel { // expected-error@+2 {{loop iteration variable in the associated loop of 'omp simd' directive may not be threadprivate or thread local, predetermined as linear}} #pragma omp simd for (sii = 0; sii < 10; sii+=1) c[sii] = a[sii]; } #pragma omp parallel { #pragma omp simd for (globalii = 0; globalii < 10; globalii+=1) c[globalii] = a[globalii]; } #pragma omp parallel { #pragma omp simd collapse(2) for (ii = 0; ii < 10; ii += 1) for (globalii = 0; globalii < 10; globalii += 1) c[globalii] += a[globalii] + ii; } // expected-error@+2 {{statement after '#pragma omp simd' must be a for loop}} #pragma omp simd for (auto &item : a) { item = item + 1; } // expected-note@+3 {{loop step is expected to be positive due to this condition}} // expected-error@+2 {{increment expression must cause 'i' to increase on each iteration of OpenMP for loop}} #pragma omp simd for (unsigned i = 9; i < 10; i--) { c[i] = a[i] + b[i]; } int (*lb)[4] = nullptr; #pragma omp simd for (int (*p)[4] = lb; p < lb + 8; ++p) { } // expected-warning@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (int a{0}; a<10; ++a) { } return 0; } // Iterators allowed in openmp for-loops. namespace std { struct random_access_iterator_tag { }; template struct iterator_traits { typedef typename Iter::difference_type difference_type; typedef typename Iter::iterator_category iterator_category; }; template typename iterator_traits::difference_type distance(Iter first, Iter last) { return first - last; } } class Iter0 { public: Iter0() { } Iter0(const Iter0 &) { } Iter0 operator ++() { return *this; } Iter0 operator --() { return *this; } Iter0 operator + (int delta) { return *this; } bool operator <(Iter0 a) { return true; } }; // expected-note@+1 2 {{candidate function not viable: no known conversion from 'Iter1' to 'Iter0' for 1st argument}} int operator -(Iter0 a, Iter0 b) { return 0; } class Iter1 { public: Iter1(float f=0.0f, double d=0.0) { } Iter1(const Iter1 &) { } Iter1 operator ++() { return *this; } Iter1 operator --() { return *this; } bool operator <(Iter1 a) { return true; } bool operator >=(Iter1 a) { return false; } }; class GoodIter { public: GoodIter() { } GoodIter(const GoodIter &) { } GoodIter(int fst, int snd) { } GoodIter &operator =(const GoodIter &that) { return *this; } GoodIter &operator =(const Iter0 &that) { return *this; } GoodIter &operator +=(int x) { return *this; } explicit GoodIter(void *) { } GoodIter operator ++() { return *this; } GoodIter operator --() { return *this; } bool operator !() { return true; } bool operator <(GoodIter a) { return true; } bool operator <=(GoodIter a) { return true; } bool operator >=(GoodIter a) { return false; } typedef int difference_type; typedef std::random_access_iterator_tag iterator_category; }; // expected-note@+1 2 {{candidate function not viable: no known conversion from 'Iter1' to 'GoodIter' for 1st argument}} int operator -(GoodIter a, GoodIter b) { return 0; } // expected-note@+1 2 {{candidate function not viable: requires single argument 'a', but 2 arguments were provided}} GoodIter operator -(GoodIter a) { return a; } // expected-note@+1 2 {{candidate function not viable: no known conversion from 'Iter1' to 'GoodIter' for 1st argument}} GoodIter operator -(GoodIter a, int v) { return GoodIter(); } GoodIter operator +(GoodIter a, int v) { return GoodIter(); } // expected-note@+1 2 {{candidate function not viable: no known conversion from 'Iter1' to 'int' for 1st argument}} GoodIter operator -(int v, GoodIter a) { return GoodIter(); } GoodIter operator +(int v, GoodIter a) { return GoodIter(); } int test_with_random_access_iterator() { GoodIter begin, end; Iter0 begin0, end0; #pragma omp simd for (GoodIter I = begin; I < end; ++I) ++I; // expected-error@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (GoodIter &I = begin; I < end; ++I) ++I; #pragma omp simd for (GoodIter I = begin; I >= end; --I) ++I; // expected-warning@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (GoodIter I(begin); I < end; ++I) ++I; // expected-warning@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (GoodIter I(nullptr); I < end; ++I) ++I; // expected-warning@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (GoodIter I(0); I < end; ++I) ++I; // expected-warning@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (GoodIter I(1,2); I < end; ++I) ++I; #pragma omp simd for (begin = GoodIter(0); begin < end; ++begin) ++begin; #pragma omp simd for (begin = GoodIter(1,2); begin < end; ++begin) ++begin; // expected-error@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (++begin; begin < end; ++begin) ++begin; #pragma omp simd for (begin = end; begin < end; ++begin) ++begin; // expected-error@+2 {{condition of OpenMP for loop must be a relational comparison ('<', '<=', '>', or '>=') of loop variable 'I'}} #pragma omp simd for (GoodIter I = begin; I - I; ++I) ++I; // expected-error@+2 {{condition of OpenMP for loop must be a relational comparison ('<', '<=', '>', or '>=') of loop variable 'I'}} #pragma omp simd for (GoodIter I = begin; begin < end; ++I) ++I; // expected-error@+2 {{condition of OpenMP for loop must be a relational comparison ('<', '<=', '>', or '>=') of loop variable 'I'}} #pragma omp simd for (GoodIter I = begin; !I; ++I) ++I; // expected-note@+3 {{loop step is expected to be negative due to this condition}} // expected-error@+2 {{increment expression must cause 'I' to decrease on each iteration of OpenMP for loop}} #pragma omp simd for (GoodIter I = begin; I >= end; I = I + 1) ++I; #pragma omp simd for (GoodIter I = begin; I >= end; I = I - 1) ++I; // expected-error@+2 {{increment clause of OpenMP for loop must perform simple addition or subtraction on loop variable 'I'}} #pragma omp simd for (GoodIter I = begin; I >= end; I = -I) ++I; // expected-note@+3 {{loop step is expected to be negative due to this condition}} // expected-error@+2 {{increment expression must cause 'I' to decrease on each iteration of OpenMP for loop}} #pragma omp simd for (GoodIter I = begin; I >= end; I = 2 + I) ++I; // expected-error@+2 {{increment clause of OpenMP for loop must perform simple addition or subtraction on loop variable 'I'}} #pragma omp simd for (GoodIter I = begin; I >= end; I = 2 - I) ++I; #pragma omp simd for (Iter0 I = begin0; I < end0; ++I) ++I; // Initializer is constructor without params. // expected-warning@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (Iter0 I; I < end0; ++I) ++I; Iter1 begin1, end1; // expected-error@+3 {{invalid operands to binary expression ('Iter1' and 'Iter1')}} // expected-error@+2 {{could not calculate number of iterations calling 'operator-' with upper and lower loop bounds}} #pragma omp simd for (Iter1 I = begin1; I < end1; ++I) ++I; // expected-note@+3 {{loop step is expected to be negative due to this condition}} // expected-error@+2 {{increment expression must cause 'I' to decrease on each iteration of OpenMP for loop}} #pragma omp simd for (Iter1 I = begin1; I >= end1; ++I) ++I; // Initializer is constructor with all default params. // expected-error@+4 {{invalid operands to binary expression ('Iter1' and 'float')}} // expected-error@+3 {{could not calculate number of iterations calling 'operator-' with upper and lower loop bounds}} // expected-warning@+2 {{initialization clause of OpenMP for loop is not in canonical form ('var = init' or 'T var = init')}} #pragma omp simd for (Iter1 I; I < end1; ++I) { } return 0; } template class TC { public: int dotest_lt(IT begin, IT end) { // expected-note@+3 {{loop step is expected to be positive due to this condition}} // expected-error@+2 {{increment expression must cause 'I' to increase on each iteration of OpenMP for loop}} #pragma omp simd for (IT I = begin; I < end; I = I + ST) { ++I; } // expected-note@+3 {{loop step is expected to be positive due to this condition}} // expected-error@+2 {{increment expression must cause 'I' to increase on each iteration of OpenMP for loop}} #pragma omp simd for (IT I = begin; I <= end; I += ST) { ++I; } #pragma omp simd for (IT I = begin; I < end; ++I) { ++I; } } static IT step() { return IT(ST); } }; template int dotest_gt(IT begin, IT end) { // expected-note@+3 2 {{loop step is expected to be negative due to this condition}} // expected-error@+2 2 {{increment expression must cause 'I' to decrease on each iteration of OpenMP for loop}} #pragma omp simd for (IT I = begin; I >= end; I = I + ST) { ++I; } // expected-note@+3 2 {{loop step is expected to be negative due to this condition}} // expected-error@+2 2 {{increment expression must cause 'I' to decrease on each iteration of OpenMP for loop}} #pragma omp simd for (IT I = begin; I >= end; I += ST) { ++I; } // expected-note@+3 {{loop step is expected to be negative due to this condition}} // expected-error@+2 {{increment expression must cause 'I' to decrease on each iteration of OpenMP for loop}} #pragma omp simd for (IT I = begin; I >= end; ++I) { ++I; } #pragma omp simd for (IT I = begin; I < end; I+=TC::step()) { ++I; } } void test_with_template() { GoodIter begin, end; TC t1; TC t2; t1.dotest_lt(begin, end); t2.dotest_lt(begin, end); // expected-note {{in instantiation of member function 'TC::dotest_lt' requested here}} dotest_gt(begin, end); // expected-note {{in instantiation of function template specialization 'dotest_gt' requested here}} dotest_gt(0, 100); // expected-note {{in instantiation of function template specialization 'dotest_gt' requested here}} } void test_loop_break() { const int N = 100; float a[N], b[N], c[N]; #pragma omp simd for (int i = 0; i < 10; i++) { c[i] = a[i] + b[i]; for (int j = 0; j < 10; ++j) { if (a[i] > b[j]) break; // OK in nested loop } switch(i) { case 1: b[i]++; break; default: break; } if (c[i] > 10) break; // expected-error {{'break' statement cannot be used in OpenMP for loop}} if (c[i] > 11) break; // expected-error {{'break' statement cannot be used in OpenMP for loop}} } #pragma omp simd for (int i = 0; i < 10; i++) { for (int j = 0; j < 10; j++) { c[i] = a[i] + b[i]; if (c[i] > 10) { if (c[i] < 20) { break; // OK } } } } } void test_loop_eh() { const int N = 100; float a[N], b[N], c[N]; #pragma omp simd for (int i = 0; i < 10; i++) { c[i] = a[i] + b[i]; try { // expected-error {{'try' statement cannot be used in OpenMP simd region}} for (int j = 0; j < 10; ++j) { if (a[i] > b[j]) throw a[i]; // expected-error {{'throw' statement cannot be used in OpenMP simd region}} } throw a[i]; // expected-error {{'throw' statement cannot be used in OpenMP simd region}} } catch (float f) { if (f > 0.1) throw a[i]; // expected-error {{'throw' statement cannot be used in OpenMP simd region}} return; // expected-error {{cannot return from OpenMP region}} } switch(i) { case 1: b[i]++; break; default: break; } for (int j = 0; j < 10; j++) { if (c[i] > 10) throw c[i]; // expected-error {{'throw' statement cannot be used in OpenMP simd region}} } } if (c[9] > 10) throw c[9]; // OK #pragma omp simd for (int i = 0; i < 10; ++i) { struct S { void g() { throw 0; } }; } }