// { dg-do run } #include #include template class J { public: typedef typename std::vector::const_iterator const_iterator; J(const const_iterator &x, const const_iterator &y) : b (x), e (y) {} const const_iterator &begin (); const const_iterator &end (); private: const_iterator b, e; }; template const typename std::vector::const_iterator &J::begin () { return b; } template const typename std::vector::const_iterator &J::end () { return e; } int results[2000]; template void baz (T &i) { if (*i < 0 || *i >= 2000) std::abort (); results[*i]++; } void f1 (const std::vector::const_iterator &x, const std::vector::const_iterator &y) { #pragma omp parallel for for (std::vector::const_iterator i = x; i <= y; i += 6) baz (i); } void f2 (const std::vector::const_iterator &x, const std::vector::const_iterator &y) { std::vector::const_iterator i; #pragma omp parallel for private(i) for (i = x; i < y - 1; i = 1 - 6 + 7 + i) baz (i); } template void f3 (const std::vector::const_iterator &x, const std::vector::const_iterator &y) { #pragma omp parallel for schedule (dynamic, 6) for (std::vector::const_iterator i = x; i <= y; i = i + 9 - 8) baz (i); } template void f4 (const std::vector::const_iterator &x, const std::vector::const_iterator &y) { std::vector::const_iterator i; #pragma omp parallel for lastprivate(i) for (i = x + 2000 - 64; i > y + 10; --i) baz (i); } void f5 (const std::vector::const_iterator &x, const std::vector::const_iterator &y) { #pragma omp parallel for schedule (static, 10) for (std::vector::const_iterator i = x + 2000 - 64; i > y + 10; i -= 10) baz (i); } template void f6 (const std::vector::const_iterator &x, const std::vector::const_iterator &y) { #pragma omp parallel for schedule (runtime) for (std::vector::const_iterator i = x + 2000 - 64; i > y + 10; i = i - 12 + 2) { std::vector::const_iterator j = i + N; baz (j); } } template void f7 (std::vector::const_iterator i, const std::vector::const_iterator &x, const std::vector::const_iterator &y) { #pragma omp parallel for schedule (dynamic, 6) for (i = x - 10; i <= y + 10; i += N) baz (i); } template void f8 (J j) { std::vector::const_iterator i; #pragma omp parallel for schedule (dynamic, 40) for (i = j.begin (); i <= j.end () + N; i += 2) baz (i); } template void f9 (const typename std::vector::const_iterator &x, const typename std::vector::const_iterator &y) { #pragma omp parallel for schedule (static, 25) for (typename std::vector::const_iterator i = x; i <= y; i = i + N) baz (i); } template void f10 (const typename std::vector::const_iterator &x, const typename std::vector::const_iterator &y) { typename std::vector::const_iterator i; #pragma omp parallel for for (i = x; i > y; i = i + N) baz (i); } template void f11 (const T &x, const T &y) { #pragma omp parallel { #pragma omp for nowait schedule (static, 2) for (T i = x; i <= y; i += 3) baz (i); #pragma omp single { T j = y + 3; baz (j); } } } template void f12 (const T &x, const T &y) { T i; #pragma omp parallel for schedule (dynamic, 130) for (i = x; i > y; --i) baz (i); } template struct K { template static void f13 (const T &x, const T &y) { #pragma omp parallel for schedule (runtime) for (T i = x; i <= y + N; i += N) baz (i); } }; #define check(expr) \ for (int i = 0; i < 2000; i++) \ if (expr) \ { \ if (results[i] != 1) \ std::abort (); \ results[i] = 0; \ } \ else if (results[i]) \ std::abort () int main () { std::vector a(2000); std::vector b(2000); for (int i = 0; i < 2000; i++) { a[i] = i; b[i] = i; } f1 (a.begin () + 10, a.begin () + 1990); check (i >= 10 && i <= 1990 && (i - 10) % 6 == 0); f2 (a.begin () + 0, a.begin () + 1999); check (i < 1998 && (i & 1) == 0); f3 (a.begin () + 20, a.begin () + 1837); check (i >= 20 && i <= 1837); f4 (a.begin () + 0, a.begin () + 30); check (i > 40 && i <= 2000 - 64); f5 (a.begin () + 0, a.begin () + 100); check (i >= 116 && i <= 2000 - 64 && (i - 116) % 10 == 0); f6<-10> (a.begin () + 10, a.begin () + 110); check (i >= 116 && i <= 2000 - 64 && (i - 116) % 10 == 0); f7<6> (std::vector::const_iterator (), a.begin () + 12, a.begin () + 1800); check (i >= 2 && i <= 1808 && (i - 2) % 6 == 0); f8<121> (J (a.begin () + 14, a.begin () + 1803)); check (i >= 14 && i <= 1924 && (i & 1) == 0); f9 (a.begin () + 33, a.begin () + 1967); check (i >= 33 && i <= 1967 && (i - 33) % 7 == 0); f10 (a.begin () + 1939, a.begin () + 17); check (i >= 21 && i <= 1939 && (i - 21) % 7 == 0); f11::const_iterator > (a.begin () + 16, a.begin () + 1981); check (i >= 16 && i <= 1984 && (i - 16) % 3 == 0); f12::const_iterator > (a.begin () + 1761, a.begin () + 37); check (i > 37 && i <= 1761); K<5>::f13::const_iterator > (a.begin () + 1, a.begin () + 1935); check (i >= 1 && i <= 1936 && (i - 1) % 5 == 0); f9 (b.begin () + 33, b.begin () + 1967); check (i >= 33 && i <= 1967 && (i - 33) % 7 == 0); f10 (b.begin () + 1939, b.begin () + 17); check (i >= 21 && i <= 1939 && (i - 21) % 7 == 0); f11::const_iterator > (b.begin () + 16, b.begin () + 1981); check (i >= 16 && i <= 1984 && (i - 16) % 3 == 0); f12::const_iterator > (b.begin () + 1761, b.begin () + 37); check (i > 37 && i <= 1761); K<5>::f13::const_iterator > (b.begin () + 1, b.begin () + 1935); check (i >= 1 && i <= 1936 && (i - 1) % 5 == 0); }