! { dg-do run } ! { dg-additional-options "-fdump-tree-original -fcheck=all" } ! PR fortran/107424 ! Nonrectangular loop nests checks ! Valid patterns are: ! (1) a2 - var-outer ! (2) a1 * var-outer ! (3) a1 * var-outer + a2 ! (4) a2 + a1 * var-outer ! (5) a1 * var-outer - a2 ! (6) a2 - a1 * var-outer ! (7) var-outer * a1 ! (8) var-outer * a1 + a2 ! (9) a2 + var-outer * a1 ! (10) var-outer * a1 - a2 ! (11) a2 - var-outer * a1 module m contains ! { dg-final { scan-tree-dump-times "for \\(one_two_inner = one_two_outer \\* -1 \\+ one_a2; one_two_inner <= one_two_outer \\* two_a1 \\+ 0; one_two_inner = one_two_inner \\+ 1\\)" 1 original } } ! (1) a2 - var-outer ! (2) a1 * var-outer subroutine one_two() implicit none integer :: one_a2 integer :: two_a1 integer :: one_two_outer, one_two_inner integer :: i, j integer, allocatable :: var(:,:) one_a2 = 13 two_a1 = 5 allocate(var(1:10, one_a2 - 10:two_a1 * 10), & source=0) if (size(var) <= 4) error stop !$omp simd collapse(2) do one_two_outer = 1, 10 do one_two_inner = one_a2 - one_two_outer, two_a1 * one_two_outer !$omp atomic update var(one_two_outer,one_two_inner) = var(one_two_outer,one_two_inner) + 2 end do end do do i = 1, 10 do j = one_a2 - i, two_a1 * i if (var(i,j) /= 2) error stop end do end do end ! { dg-final { scan-tree-dump-times "for \\(three_four_inner = three_four_outer \\* three_a1 \\+ three_a2; three_four_inner <= three_four_outer \\* four_a1 \\+ four_a2; three_four_inner = three_four_inner \\+ 1\\)" 1 original } } ! (3) a1 * var-outer + a2 ! (4) a2 + a1 * var-outer subroutine three_four() implicit none integer :: three_a1, three_a2 integer :: four_a1, four_a2 integer :: three_four_outer, three_four_inner integer :: i, j integer, allocatable :: var(:,:) three_a1 = 2 three_a2 = 3 four_a1 = 3 four_a2 = 5 allocate(var(1:10, three_a1 * 1 + three_a2:four_a2 + four_a1 * 10), & source=0) if (size(var) <= 4) error stop !$omp simd collapse(2) do three_four_outer = 1, 10 do three_four_inner = three_a1 * three_four_outer + three_a2, four_a2 + four_a1 * three_four_outer !$omp atomic update var(three_four_outer, three_four_inner) = var(three_four_outer, three_four_inner) + 2 end do end do do i = 1, 10 do j = three_a1 * i + three_a2, four_a2 + four_a1 * i if (var(i,j) /= 2) error stop end do end do end ! { dg-final { scan-tree-dump-times "for \\(five_six_inner = five_six_outer \\* five_a1 \\+ D\\.\[0-9\]+; five_six_inner <= five_six_outer \\* D\\.\[0-9\]+ \\+ six_a2; five_six_inner = five_six_inner \\+ 1\\)" 1 original } } ! (5) a1 * var-outer - a2 ! (6) a2 - a1 * var-outer subroutine five_six() implicit none integer :: five_a1, five_a2 integer :: six_a1, six_a2 integer :: five_six_outer, five_six_inner integer :: i, j integer, allocatable :: var(:,:) five_a1 = 2 five_a2 = -3 six_a1 = 3 six_a2 = 20 allocate(var(1:10, five_a1 * 1 - five_a2:six_a2 - six_a1 * 1), & source=0) if (size(var) <= 4) error stop !$omp simd collapse(2) do five_six_outer = 1, 10 do five_six_inner = five_a1 * five_six_outer - five_a2, six_a2 - six_a1 * five_six_outer !$omp atomic update var(five_six_outer, five_six_inner) = var(five_six_outer, five_six_inner) + 2 end do end do do i = 1, 10 do j = five_a1 * i - five_a2, six_a2 - six_a1 * i if (var(i,j) /= 2) error stop end do end do end ! { dg-final { scan-tree-dump-times "for \\(seven_eight_inner = seven_eight_outer \\* seven_a1 \\+ 0; seven_eight_inner <= seven_eight_outer \\* eight_a1 \\+ eight_a2; seven_eight_inner = seven_eight_inner \\+ 1\\)" 1 original } } ! (7) var-outer * a1 ! (8) var-outer * a1 + a2 subroutine seven_eight() implicit none integer :: seven_a1 integer :: eight_a1, eight_a2 integer :: seven_eight_outer, seven_eight_inner integer :: i, j integer, allocatable :: var(:,:) seven_a1 = 3 eight_a1 = 2 eight_a2 = -4 allocate(var(1:10, 1 * seven_a1 : 10 * eight_a1 + eight_a2), & source=0) if (size(var) <= 4) error stop !$omp simd collapse(2) do seven_eight_outer = 1, 10 do seven_eight_inner = seven_eight_outer * seven_a1, seven_eight_outer * eight_a1 + eight_a2 !$omp atomic update var(seven_eight_outer, seven_eight_inner) = var(seven_eight_outer, seven_eight_inner) + 2 end do end do do i = 1, 10 do j = i * seven_a1, i * eight_a1 + eight_a2 if (var(i,j) /= 2) error stop end do end do end ! { dg-final { scan-tree-dump-times "for \\(nine_ten_inner = nine_ten_outer \\* nine_a1 \\+ nine_a2; nine_ten_inner <= nine_ten_outer \\* ten_a1 \\+ D\\.\[0-9\]+; nine_ten_inner = nine_ten_inner \\+ 1\\)" 1 original } } ! (9) a2 + var-outer * a1 ! (10) var-outer * a1 - a2 subroutine nine_ten() implicit none integer :: nine_a1, nine_a2 integer :: ten_a1, ten_a2 integer :: nine_ten_outer, nine_ten_inner integer :: i, j integer, allocatable :: var(:,:) nine_a1 = 3 nine_a2 = 5 ten_a1 = 2 ten_a2 = 3 allocate(var(1:10, nine_a2 + 1 * nine_a1:10 * ten_a1 - ten_a2), & source=0) if (size(var) <= 4) error stop !$omp simd collapse(2) do nine_ten_outer = 1, 10 do nine_ten_inner = nine_a2 + nine_ten_outer * nine_a1, nine_ten_outer * ten_a1 - ten_a2 !$omp atomic update var(nine_ten_outer, nine_ten_inner) = var(nine_ten_outer, nine_ten_inner) + 2 end do end do do i = 1, 10 do j = nine_a2 + i * nine_a1, i * ten_a1 - ten_a2 if (var(i,j) /= 2) error stop end do end do end ! { dg-final { scan-tree-dump-times "for \\(eleven_inner = eleven_outer \\* D\\.\[0-9\]+ \\+ eleven_a2; eleven_inner <= 10; eleven_inner = eleven_inner \\+ 1\\)" 1 original } } ! (11) a2 - var-outer * a1 subroutine eleven() implicit none integer :: eleven_a1, eleven_a2 integer :: eleven_outer, eleven_inner integer :: i, j integer, allocatable :: var(:,:) eleven_a1 = 2 eleven_a2 = 3 allocate(var(1:10, eleven_a2 - 10 * eleven_a1 : 10), & source=0) if (size(var) <= 4) error stop !$omp simd collapse(2) do eleven_outer = 1, 10 do eleven_inner = eleven_a2 - eleven_outer * eleven_a1, 10 !$omp atomic update var(eleven_outer, eleven_inner) = var(eleven_outer, eleven_inner) + 2 end do end do do i = 1, 10 do j = eleven_a2 - i * eleven_a1, 10 if (var(i,j) /= 2) error stop end do end do end end module m program main use m implicit none call one_two() call three_four() call five_six() call seven_eight() call nine_ten() call eleven() end