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When transitioning from using the g95 compiler to gfortran I get the following error when I try to compile what previously had been a working code

Error: Allocatable array ' ' at (1) must have a deferred shape

This happens in all of my subroutines for all of my allocatable arrays. An example is below.

    SUBROUTINE TEST(name,ndimn,ntype,nelem,npoin,nface,inpoel,coord,face)

    IMPLICIT  NONE

    integer:: i, j,testing
    integer, INTENT(OUT)::ndimn,ntype,nelem,npoin,nface
    integer, allocatable, dimension(1:,1:), INTENT(OUT)::inpoel
    real::time, dummy
    real, allocatable, dimension(1:,1:), INTENT(OUT)::coord
    integer, allocatable, dimension(1:,1:), INTENT(OUT)::face

    character(len=13)::name
    character(len=11)::name3

    name='testgrid.dat'
    name3='testgeo.dat'

    open (unit=14, file='testgrid2.dat', status='old')

    read(14,*)
    read(14,*)
    read(14,*)
    read(14,*) ndimn, ntype
    read(14,*)
    read(14,*) nelem, npoin, nface
    read(14,*)

    allocate(inpoel(ntype,nelem+1),coord(ndimn,npoin+1),face(ntype,nface+1))

How can I make this code compile with gfortran?

share|improve this question
up vote 4 down vote accepted

The Fortran 2003 (and, I think, the 90,95 and 2008) standard states that the expression inside the parentheses of the dimension() clause in the declaration of an allocatable array must be a deferred-shape-spec-list and that a deferred-shape-spec-list is a list of colons, separated by , if there is more than one element in the list. There should be one colon for each dimension in the array.

I suggest you replace statements such as

integer, allocatable, dimension(1:,1:), INTENT(OUT)::inpoel

with statements such as

integer, allocatable, dimension(:,:), INTENT(OUT)::inpoel

When you later allocate this array the lower bound on each dimension will be, by default, 1. If, on the other hand you wanted to allocate it with non-default bounds you might write

allocate(inpoel(3:12,4:14))

replacing, obviously, those constants with whatever values you wish.

It's not terrifically surprising that code acceptable to one Fortran compiler is not acceptable to another.

share|improve this answer
    
This does indeed fix the issue. Is it good practice then to not define a lower bound in the data deceleration but rather in the allocation statement? Thanks for the help! – spacegirl1923 May 20 '13 at 19:59
    
It's not a matter of good or bad practice. A compiler which allows specifying (any of) the bounds of an allocatable array upon declaration, as g95 appears to have done with your original code, is in error. – High Performance Mark May 20 '13 at 21:08

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