! Copyright 2019-2022 Free Software Foundation, Inc. ! ! This program is free software; you can redistribute it and/or modify ! it under the terms of the GNU General Public License as published by ! the Free Software Foundation; either version 3 of the License, or ! (at your option) any later version. ! ! This program is distributed in the hope that it will be useful, ! but WITHOUT ANY WARRANTY; without even the implied warranty of ! MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ! GNU General Public License for more details. ! ! You should have received a copy of the GNU General Public License ! along with this program. If not, see . subroutine show_elem (array) integer :: array print *, "" print *, "Expected GDB Output:" print *, "" write(*, fmt="(A)", advance="no") "GDB = " write(*, fmt="(I0)", advance="no") array write(*, fmt="(A)", advance="yes") "" print *, "" ! Display Element end subroutine show_elem subroutine show_str (array) character (len=*) :: array print *, "" print *, "Expected GDB Output:" print *, "" write (*, fmt="(A)", advance="no") "GDB = '" write (*, fmt="(A)", advance="no") array write (*, fmt="(A)", advance="yes") "'" print *, "" ! Display String end subroutine show_str subroutine show_1d (array) integer, dimension (:) :: array print *, "Array Contents:" print *, "" do i=LBOUND (array, 1), UBOUND (array, 1), 1 write(*, fmt="(i4)", advance="no") array (i) end do print *, "" print *, "Expected GDB Output:" print *, "" write(*, fmt="(A)", advance="no") "GDB = (" do i=LBOUND (array, 1), UBOUND (array, 1), 1 if (i > LBOUND (array, 1)) then write(*, fmt="(A)", advance="no") ", " end if write(*, fmt="(I0)", advance="no") array (i) end do write(*, fmt="(A)", advance="yes") ")" print *, "" ! Display Array Slice 1D end subroutine show_1d subroutine show_2d (array) integer, dimension (:,:) :: array print *, "Array Contents:" print *, "" do i=LBOUND (array, 2), UBOUND (array, 2), 1 do j=LBOUND (array, 1), UBOUND (array, 1), 1 write(*, fmt="(i4)", advance="no") array (j, i) end do print *, "" end do print *, "" print *, "Expected GDB Output:" print *, "" write(*, fmt="(A)", advance="no") "GDB = (" do i=LBOUND (array, 2), UBOUND (array, 2), 1 if (i > LBOUND (array, 2)) then write(*, fmt="(A)", advance="no") " " end if write(*, fmt="(A)", advance="no") "(" do j=LBOUND (array, 1), UBOUND (array, 1), 1 if (j > LBOUND (array, 1)) then write(*, fmt="(A)", advance="no") ", " end if write(*, fmt="(I0)", advance="no") array (j, i) end do write(*, fmt="(A)", advance="no") ")" end do write(*, fmt="(A)", advance="yes") ")" print *, "" ! Display Array Slice 2D end subroutine show_2d subroutine show_3d (array) integer, dimension (:,:,:) :: array print *, "" print *, "Expected GDB Output:" print *, "" write(*, fmt="(A)", advance="no") "GDB = (" do i=LBOUND (array, 3), UBOUND (array, 3), 1 if (i > LBOUND (array, 3)) then write(*, fmt="(A)", advance="no") " " end if write(*, fmt="(A)", advance="no") "(" do j=LBOUND (array, 2), UBOUND (array, 2), 1 if (j > LBOUND (array, 2)) then write(*, fmt="(A)", advance="no") " " end if write(*, fmt="(A)", advance="no") "(" do k=LBOUND (array, 1), UBOUND (array, 1), 1 if (k > LBOUND (array, 1)) then write(*, fmt="(A)", advance="no") ", " end if write(*, fmt="(I0)", advance="no") array (k, j, i) end do write(*, fmt="(A)", advance="no") ")" end do write(*, fmt="(A)", advance="no") ")" end do write(*, fmt="(A)", advance="yes") ")" print *, "" ! Display Array Slice 3D end subroutine show_3d subroutine show_4d (array) integer, dimension (:,:,:,:) :: array print *, "" print *, "Expected GDB Output:" print *, "" write(*, fmt="(A)", advance="no") "GDB = (" do i=LBOUND (array, 4), UBOUND (array, 4), 1 if (i > LBOUND (array, 4)) then write(*, fmt="(A)", advance="no") " " end if write(*, fmt="(A)", advance="no") "(" do j=LBOUND (array, 3), UBOUND (array, 3), 1 if (j > LBOUND (array, 3)) then write(*, fmt="(A)", advance="no") " " end if write(*, fmt="(A)", advance="no") "(" do k=LBOUND (array, 2), UBOUND (array, 2), 1 if (k > LBOUND (array, 2)) then write(*, fmt="(A)", advance="no") " " end if write(*, fmt="(A)", advance="no") "(" do l=LBOUND (array, 1), UBOUND (array, 1), 1 if (l > LBOUND (array, 1)) then write(*, fmt="(A)", advance="no") ", " end if write(*, fmt="(I0)", advance="no") array (l, k, j, i) end do write(*, fmt="(A)", advance="no") ")" end do write(*, fmt="(A)", advance="no") ")" end do write(*, fmt="(A)", advance="no") ")" end do write(*, fmt="(A)", advance="yes") ")" print *, "" ! Display Array Slice 4D end subroutine show_4d ! ! Start of test program. ! program test interface subroutine show_str (array) character (len=*) :: array end subroutine show_str subroutine show_1d (array) integer, dimension (:) :: array end subroutine show_1d subroutine show_2d (array) integer, dimension(:,:) :: array end subroutine show_2d subroutine show_3d (array) integer, dimension(:,:,:) :: array end subroutine show_3d subroutine show_4d (array) integer, dimension(:,:,:,:) :: array end subroutine show_4d end interface ! Declare variables used in this test. integer, dimension (-10:-1,-10:-2) :: neg_array integer, dimension (1:10,1:10) :: array integer, allocatable :: other (:, :) character (len=26) :: str_1 = "abcdefghijklmnopqrstuvwxyz" integer, dimension (-2:2,-2:2,-2:2) :: array3d integer, dimension (-3:3,7:10,-3:3,-10:-7) :: array4d integer, dimension (10:20) :: array1d integer, dimension(:,:), pointer :: pointer2d => null() integer, dimension(-1:9,-1:9), target :: tarray ! Allocate or associate any variables as needed. allocate (other (-5:4, -2:7)) pointer2d => tarray ! Fill arrays with contents ready for testing. call fill_array_1d (array1d) call fill_array_2d (neg_array) call fill_array_2d (array) call fill_array_2d (other) call fill_array_2d (tarray) call fill_array_3d (array3d) call fill_array_4d (array4d) ! The tests. Each call to a show_* function must have a unique set ! of arguments as GDB uses the arguments are part of the test name ! string, so duplicate arguments will result in duplicate test ! names. ! ! If a show_* line ends with VARS=... where '...' is a comma ! separated list of variable names, these variables are assumed to ! be part of the call line, and will be expanded by the test script, ! for example: ! ! do x=1,9,1 ! do y=x,10,1 ! call show_1d (some_array (x,y)) ! VARS=x,y ! end do ! end do ! ! In this example the test script will automatically expand 'x' and ! 'y' in order to better test different aspects of GDB. Do take ! care, the expansion is not very "smart", so try to avoid clashing ! with other text on the line, in the example above, avoid variables ! named 'some' or 'array', as these will likely clash with ! 'some_array'. call show_str (str_1) call show_str (str_1 (1:20)) call show_str (str_1 (10:20)) call show_elem (array1d (11)) call show_elem (pointer2d (2,3)) call show_1d (array1d) call show_1d (array1d (13:17)) call show_1d (array1d (17:13:-1)) call show_1d (array (1:5,1)) call show_1d (array4d (1,7,3,:)) call show_1d (pointer2d (-1:3, 2)) call show_1d (pointer2d (-1, 2:4)) ! Enclosing the array slice argument in (...) causess gfortran to ! repack the array. call show_1d ((array (1:5,1))) call show_2d (pointer2d) call show_2d (array) call show_2d (array (1:5,1:5)) do i=1,10,2 do j=1,10,3 call show_2d (array (1:10:i,1:10:j)) ! VARS=i,j call show_2d (array (10:1:-i,1:10:j)) ! VARS=i,j call show_2d (array (10:1:-i,10:1:-j)) ! VARS=i,j call show_2d (array (1:10:i,10:1:-j)) ! VARS=i,j end do end do call show_2d (array (6:2:-1,3:9)) call show_2d (array (1:10:2, 1:10:2)) call show_2d (other) call show_2d (other (-5:0, -2:0)) call show_2d (other (-5:4:2, -2:7:3)) call show_2d (neg_array) call show_2d (neg_array (-10:-3,-8:-4:2)) ! Enclosing the array slice argument in (...) causess gfortran to ! repack the array. call show_2d ((array (1:10:3, 1:10:2))) call show_2d ((neg_array (-10:-3,-8:-4:2))) call show_3d (array3d) call show_3d (array3d(-1:1,-1:1,-1:1)) call show_3d (array3d(1:-1:-1,1:-1:-1,1:-1:-1)) ! Enclosing the array slice argument in (...) causess gfortran to ! repack the array. call show_3d ((array3d(1:-1:-1,1:-1:-1,1:-1:-1))) call show_4d (array4d) call show_4d (array4d (-3:0,10:7:-1,0:3,-7:-10:-1)) call show_4d (array4d (3:0:-1, 10:7:-1, :, -7:-10:-1)) ! Enclosing the array slice argument in (...) causess gfortran to ! repack the array. call show_4d ((array4d (3:-2:-2, 10:7:-2, :, -7:-10:-1))) ! All done. Deallocate. deallocate (other) ! GDB catches this final breakpoint to indicate the end of the test. print *, "" ! Final Breakpoint. contains ! Fill a 1D array with a unique positive integer in each element. subroutine fill_array_1d (array) integer, dimension (:) :: array integer :: counter counter = 1 do j=LBOUND (array, 1), UBOUND (array, 1), 1 array (j) = counter counter = counter + 1 end do end subroutine fill_array_1d ! Fill a 2D array with a unique positive integer in each element. subroutine fill_array_2d (array) integer, dimension (:,:) :: array integer :: counter counter = 1 do i=LBOUND (array, 2), UBOUND (array, 2), 1 do j=LBOUND (array, 1), UBOUND (array, 1), 1 array (j,i) = counter counter = counter + 1 end do end do end subroutine fill_array_2d ! Fill a 3D array with a unique positive integer in each element. subroutine fill_array_3d (array) integer, dimension (:,:,:) :: array integer :: counter counter = 1 do i=LBOUND (array, 3), UBOUND (array, 3), 1 do j=LBOUND (array, 2), UBOUND (array, 2), 1 do k=LBOUND (array, 1), UBOUND (array, 1), 1 array (k, j,i) = counter counter = counter + 1 end do end do end do end subroutine fill_array_3d ! Fill a 4D array with a unique positive integer in each element. subroutine fill_array_4d (array) integer, dimension (:,:,:,:) :: array integer :: counter counter = 1 do i=LBOUND (array, 4), UBOUND (array, 4), 1 do j=LBOUND (array, 3), UBOUND (array, 3), 1 do k=LBOUND (array, 2), UBOUND (array, 2), 1 do l=LBOUND (array, 1), UBOUND (array, 1), 1 array (l, k, j,i) = counter counter = counter + 1 end do end do end do end do print *, "" end subroutine fill_array_4d end program test