typedef __PTRDIFF_TYPE__ ptrdiff_t; template class I { public: typedef ptrdiff_t difference_type; I (); ~I (); I (T *); I (const I &); T &operator * (); T *operator -> (); T &operator [] (const difference_type &) const; I &operator = (const I &); I &operator ++ (); I operator ++ (int); I &operator -- (); I operator -- (int); I &operator += (const difference_type &); I &operator -= (const difference_type &); I operator + (const difference_type &) const; I operator - (const difference_type &) const; template friend bool operator == (I &, I &); template friend bool operator == (const I &, const I &); template friend bool operator < (I &, I &); template friend bool operator < (const I &, const I &); template friend bool operator <= (I &, I &); template friend bool operator <= (const I &, const I &); template friend bool operator > (I &, I &); template friend bool operator > (const I &, const I &); template friend bool operator >= (I &, I &); template friend bool operator >= (const I &, const I &); template friend typename I::difference_type operator - (I &, I &); template friend typename I::difference_type operator - (const I &, const I &); template friend I operator + (typename I::difference_type , const I &); private: T *p; }; template bool operator == (I &, I &); template bool operator == (const I &, const I &); template bool operator != (I &, I &); template bool operator != (const I &, const I &); template bool operator < (I &, I &); template bool operator < (const I &, const I &); template bool operator <= (I &, I &); template bool operator <= (const I &, const I &); template bool operator > (I &, I &); template bool operator > (const I &, const I &); template bool operator >= (I &, I &); template bool operator >= (const I &, const I &); template typename I::difference_type operator - (I &, I &); template typename I::difference_type operator - (const I &, const I &); template I operator + (typename I::difference_type, const I &); ptrdiff_t foo (I &); I &bar (I &); I &baz (I *); void f1 (I &x, I &y, I &u, I &v) { I i, j; #pragma omp for for (i = x; i < y; i++) ; #pragma omp for for (i = x; y > i; i++) ; #pragma omp for for (i = x; i < y; i = i + 2) ; #pragma omp for for (i = x; i < y; i = 2 + i) ; #pragma omp for for (i = i; i < y; i++) /* { dg-error "initializer expression refers to iteration variable" } */ ; #pragma omp for for (i = i + 3; i < y; i++) /* { dg-error "initializer expression refers to iteration variable" } */ ; #pragma omp for for (i = bar (i); i < y; i++) /* { dg-error "initializer expression refers to iteration variable" } */ ; #pragma omp for for (i = baz (&i); i < y; i++) /* { dg-error "initializer expression refers to iteration variable" } */ ; #pragma omp for for (i = x; i <= i + 5; i++) /* { dg-error "condition expression refers to iteration variable" } */ ; #pragma omp for for (i = x; i <= baz (&i); i++) /* { dg-error "condition expression refers to iteration variable" } */ ; #pragma omp for for (i = x; baz (&i) > i; i++) /* { dg-error "condition expression refers to iteration variable" } */ ; #pragma omp for for (i = x; i <= i; i++) /* { dg-error "invalid controlling predicate|condition expression refers to iteration variable" } */ ; #pragma omp for for (i = x; i < y; i += foo (i)) /* { dg-error "increment expression refers to iteration variable" } */ ; #pragma omp for for (i = x; i < y; i = i + foo (i)) /* { dg-error "increment expression refers to iteration variable" } */ ; #pragma omp for for (i = x; i < y; i = foo (i) + i) /* { dg-error "increment expression refers to iteration variable" } */ ; #pragma omp for collapse(2) for (i = x; i < y; i = i + 2) for (j = u; j < y; j += 2) ; #pragma omp for collapse(2) for (i = j; i < y; i = i + 2) /* { dg-error "initializer expression refers to iteration variable" } */ for (j = x; j < y; j++) ; #pragma omp for collapse(2) for (i = x; i < y; i = i + 2) for (j = i; j < v; j += 2) ; #pragma omp for collapse(2) for (i = x; i < y; i = i + 2) for (j = i + 3; j < v; j += 2) /* { dg-error "initializer expression refers to iteration variable" } */ ; #pragma omp for collapse(2) for (i = x; i < y; i++) for (j = baz (&i); j < v; j += 2) /* { dg-error "initializer expression refers to iteration variable" } */ ; #pragma omp for collapse(2) for (i = x; i < y; i++) for (j = v; j > i; j--) ; #pragma omp for collapse(2) for (i = x; i < y; i++) for (j = x; j < i; j++) ; #pragma omp for collapse(2) for (i = x; i < y; i++) /* { dg-error "condition expression refers to iteration variable" } */ for (j = u; j < i + 4; j++) ; #pragma omp for collapse(2) for (i = x; i < j + 4; i++) /* { dg-error "condition expression refers to iteration variable" } */ for (j = u; j < v; j++) ; #pragma omp for collapse(2) for (i = x; i < j; i++) /* { dg-error "condition expression refers to iteration variable" } */ for (j = u; j < v; j++) ; #pragma omp for collapse(2) for (i = x; i < bar (j); i++) /* { dg-error "condition expression refers to iteration variable" } */ for (j = u; j < v; j++) ; #pragma omp for collapse(2) for (i = x; i < y; i++) /* { dg-error "condition expression refers to iteration variable" } */ for (j = u; j < baz (&i); j++) ; #pragma omp for collapse(2) for (i = x; i < y; i += foo (j)) /* { dg-error "increment expression refers to iteration variable" } */ for (j = u; j < v; j++) ; #pragma omp for collapse(2) for (i = x; i < y; i++) for (j = u; j < v; j += foo (i)) /* { dg-error "increment expression refers to iteration variable" } */ ; #pragma omp for collapse(2) for (i = x; i < y; i = foo (j) + i) /* { dg-error "increment expression refers to iteration variable" } */ for (j = u; j < v; j++) ; #pragma omp for collapse(2) for (i = x; i < y; i++) for (j = u; j < y; j = j + (i - v)) /* { dg-error "increment expression refers to iteration variable" } */ ; #pragma omp for collapse(2) for (i = x; i < y; i = foo (j) + i) /* { dg-error "increment expression refers to iteration variable" } */ for (j = u; j < v; j++) ; #pragma omp for collapse(2) for (i = x; i < y; i++) for (j = u; j < v; j = j + foo (i)) /* { dg-error "increment expression refers to iteration variable" } */ ; } void f2 (I &x, I &y, I &u, I &v) { #pragma omp for for (I i = x; i < y; i++) ; #pragma omp for for (I i = x; y > i; i++) ; #pragma omp for for (I i = x; i < y; i = i + 2) ; #pragma omp for for (I i = x; i < y; i = 2 + i) ; #pragma omp for for (I i = i; i < y; i++) /* { dg-error "initializer expression refers to iteration variable" } */ ; #pragma omp for for (I i = i + 3; i < y; i++) /* { dg-error "initializer expression refers to iteration variable" } */ ; #pragma omp for for (I i = bar (i); i < y; i++) /* { dg-error "initializer expression refers to iteration variable" } */ ; #pragma omp for for (I i = baz (&i); i < y; i++) /* { dg-error "initializer expression refers to iteration variable" } */ ; #pragma omp for for (I i = x; i <= i + 5; i++) /* { dg-error "condition expression refers to iteration variable" } */ ; #pragma omp for for (I i = x; i <= baz (&i); i++) /* { dg-error "condition expression refers to iteration variable" } */ ; #pragma omp for for (I i = x; baz (&i) > i; i++) /* { dg-error "condition expression refers to iteration variable" } */ ; #pragma omp for for (I i = x; i <= i; i++) /* { dg-error "invalid controlling predicate|condition expression refers to iteration variable" } */ ; #pragma omp for for (I i = x; i < y; i += foo (i)) /* { dg-error "increment expression refers to iteration variable" } */ ; #pragma omp for for (I i = x; i < y; i = i + foo (i)) /* { dg-error "increment expression refers to iteration variable" } */ ; #pragma omp for for (I i = x; i < y; i = foo (i) + i) /* { dg-error "increment expression refers to iteration variable" } */ ; #pragma omp for collapse(2) for (I i = x; i < y; i = i + 2) for (I j = u; j < y; j += 2) ; #pragma omp for collapse(2) for (I i = x; i < y; i = i + 2) for (I j = i; j < v; j += 2) ; #pragma omp for collapse(2) for (I i = x; i < y; i = i + 2) for (I j = i + 3; j < v; j += 2) /* { dg-error "initializer expression refers to iteration variable" } */ ; #pragma omp for collapse(2) for (I i = x; i < y; i++) for (I j = baz (&i); j < v; j += 2) /* { dg-error "initializer expression refers to iteration variable" } */ ; #pragma omp for collapse(2) for (I i = x; i < y; i++) for (I j = v; j > i; j--) ; #pragma omp for collapse(2) for (I i = x; i < y; i++) for (I j = x; j < i; j++) ; #pragma omp for collapse(2) for (I i = x; i < y; i++) /* { dg-error "condition expression refers to iteration variable" } */ for (I j = u; j < i + 4; j++) ; #pragma omp for collapse(2) for (I i = x; i < y; i++) /* { dg-error "condition expression refers to iteration variable" } */ for (I j = u; j < baz (&i); j++) ; #pragma omp for collapse(2) for (I i = x; i < y; i++) for (I j = u; j < v; j += foo (i)) /* { dg-error "increment expression refers to iteration variable" } */ ; #pragma omp for collapse(2) for (I i = x; i < y; i++) for (I j = u; j < y; j = j + (i - v)) /* { dg-error "increment expression refers to iteration variable" } */ ; #pragma omp for collapse(2) for (I i = x; i < y; i++) for (I j = u; j < v; j = j + foo (i)) /* { dg-error "increment expression refers to iteration variable" } */ ; } void f3 (I &x, I &y, I &u, I &v) { I j; #pragma omp for collapse(2) for (I i = j; i < y; i = i + 2) for (I j = x; j < y; j++) ; #pragma omp for collapse(2) for (I i = x; i < j + 4; i++) for (I j = u; j < v; j++) ; #pragma omp for collapse(2) for (I i = x; i < j; i++) for (I j = u; j < v; j++) ; #pragma omp for collapse(2) for (I i = x; i < bar (j); i++) for (I j = u; j < v; j++) ; #pragma omp for collapse(2) for (I i = x; i < y; i += foo (j)) for (I j = u; j < v; j++) ; #pragma omp for collapse(2) for (I i = x; i < y; i = foo (j) + i) for (I j = u; j < v; j++) ; }