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A simplified description of the problem:

There are exactly maxSize people shopping in a store. Each of them has a shopping list, containing the price of items (as integers). Using Fortran arrays, how can I represent all the shopping lists. The shopping lists may contain any number of items (1, 10, 1000000000).

(NOTE: The actual problem is far more complicated. It is not even about shopping.)

The lazy approach would be:

integer :: array(maxSize, A_REALLY_BIG_NUMBER)

However, this is very wasteful, I basically want the second dimension to be variable, and then allocate it for each person seperately.

The obvious attempt, doomed to failure:

integer, allocatable :: array(:,:)
allocate(array(maxSize, :)) ! Compiler error

Fortran seems to require that arrays have a fixed size in each dimension.

This is wierd, since most languages treat a multidimensional array as an "array of arrays", so you can set the size of each array in the "array of arrays" seperately.

Here is something that does work:

type array1D
    integer, allocatable :: elements(:) ! The compiler is fine with this!
endtype array1D

type(array1D) :: array2D(10)
integer :: i

do i=1, size(array2D)

If this is the only solution, I guess I will use it. But I was kind of hoping there would be a way to do this using intrinsic functions. Having to define a custom type for such a simple thing is a bit annoying.

In C, since an array is basically a pointer with fancy syntax, you can do this with an array of pointers:

int sizeAt(int x); //Function that gets the size in the 2nd dimension
int * array[maxSize];

for (int x = 0; x < maxSize; ++x)
        array[x] = (int*)(calloc(sizeAt(x) , sizeof(int)));

Fortran seems to have pointers too. But the only tutorials I have found all say "NEVER USE THESE EVER" or something similar.

share|improve this question

closed as not a real question by High Performance Mark, Rook, Chris, M. S. B., mgilson Jun 9 '12 at 14:59

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

This is a rant, not a question. – High Performance Mark Jun 9 '12 at 9:09
This is a standard solution in Fortran to what you want to do. There is nothing wrong with it. There is nothing wrong with Fortran pointers. I use them for data structures such as linked lists. I recommend not using pointers if allocatables will work. Don't expect Fortran and C to be the same. – M. S. B. Jun 9 '12 at 14:34
I certainly didn't mean to offend everyone by posting C code! I was just curious as to whether there was a better way to do it in Fortran, possibly similar to the C solution. – cerberus586 Jun 10 '12 at 3:12
up vote 5 down vote accepted

You seem to be complaining that Fortran isn't C. That's true. There are probably a near infinite number of reasons why the standards committees chose to do things differently, but here are some thoughts:

One of the powerful things about fortran arrays is that they can be sliced.

a(:,:,3) = b(:,:,3)

is a perfectly valid statement. This could not be achieved if arrays were "arrays of pointers to arrays" since the dimensions along each axis would not necessarily be consistent (the very case you're trying to implement).

In C, there really is no such thing as a multidimensional array. You can implement something that looks similar using arrays of pointers to arrays, but that isn't really a multidimensional array since it doesn't share a common block of memory. This can have performance implications. In fact, in HPC (where many Fortran users spend their time), a multi-dimensional C array is often a 1D array wrapped in a macro to calculate the stride based on the size of the dimensions. Also, dereferencing a 7D array like this:


is a good bit more difficult to type than:


Finally, the solution that you've posted is closest to the C code that you're trying to emulate -- what's wrong with it? Note that for your problem statement, a more complex data-structure (like a linked-list) might be in order (which can be implemented in C or Fortran). Of course, linked-lists are the worst as far as performance goes, but if that's not a concern, it's probably the correct data structure to use as a "shopper" can decide to add more things into their "cart", even if it wasn't on the shopping list they took to the store.

share|improve this answer
This is a good answer, but I can't vote for it. Thanks. – cerberus586 Jun 10 '12 at 3:16
You as a question poster are not supposed to vote but to accept or not accept a question. Others would or would no vote for this answer (but the question is closed). – Vladimir F Jun 11 '12 at 11:44

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