! { dg-do compile } ! { dg-options "-fcoarray=single -fdump-tree-original" } ! ! PR fortran/18918 ! PR fortran/43919 for boundsTest() ! ! Coarray intrinsics ! subroutine image_idx_test1() INTEGER,save :: array[2,-1:4,8,*] WRITE (*,*) IMAGE_INDEX (array, [2,0,3,1]) if (IMAGE_INDEX (array, [1,-1,1,1]) /= 1) call not_existing() if (IMAGE_INDEX (array, [2,-1,1,1]) /= 0) call not_existing() if (IMAGE_INDEX (array, [1,-1,1,2]) /= 0) call not_existing() end subroutine subroutine this_image_check() integer,save :: a(1,2,3,5)[0:3,*] integer :: j if (this_image() /= 1) call not_existing() if (this_image(a,dim=1) /= 0) call not_existing() if (this_image(a,dim=2) /= 1) call not_existing() end subroutine this_image_check subroutine othercheck() real,save :: a(5)[2,*] complex,save :: c[4:5,6,9:*] integer,save :: i, j[*] dimension :: b(3) codimension :: b[5:*] dimension :: h(9:10) codimension :: h[8:*] save :: b,h if (this_image() /= 1) call not_existing() if (num_images() /= 1) call not_existing() if(any(this_image(coarray=a) /= [ 1, 1 ])) call not_existing() if(any(this_image(c) /= [4,1,9])) call not_existing() if(this_image(c, dim=3) /= 9) call not_existing() if(ubound(b,dim=1) /= 3 .or. this_image(coarray=b,dim=1) /= 5) call not_existing() if(ubound(h,dim=1) /= 10 .or. this_image(h,dim=1) /= 8) call not_existing() end subroutine othercheck subroutine andanother() integer,save :: a(1)[2:9,4,-3:5,0:*] print *, lcobound(a) print *, lcobound(a,dim=3,kind=8) print *, ucobound(a) print *, ucobound(a,dim=1,kind=2) if (any(lcobound(a) /= [2, 1, -3, 0])) call not_existing() if (any(ucobound(a) /= [9, 4, 5, 0])) call not_existing() if (lcobound(a,dim=3,kind=8) /= -3_8) call not_existing() if (ucobound(a,dim=1,kind=2) /= 9_2) call not_existing() end subroutine andanother subroutine boundsTest() implicit none integer :: a[*] = 7 if (any (lcobound(a) /= [1])) call not_existing() if (any (ucobound(a) /= [1])) call not_existing() end subroutine boundsTest ! { dg-final { scan-tree-dump-times "not_existing" 0 "original" } } ! { dg-final { cleanup-tree-dump "original" } }