I have found a problem when using some existing FORTRAN code. Although it had anticipated the need to deallocate arrays before re-allocating, this had never been necessary. I now need it to do this, and it doesn't function correctly.
The current pseudo-code is approximately:
MODULE mA TYPE A REAL, DIMENSION(:,:,:), ALLOCATABLE :: array END TYPE TYPE (A), POINTER :: sw(:) END MODULE
Later, there is the code which allocates the size of 'array', which I'm now calling twice (hitherto only once):
... IF (ALLOCATED(sw(1)%array)) DEALLOCATE(sw(1)%array, STAT=aviFail) IF (aviFail.EQ.0) ALLOCATE(sw(1)%array(1,2,3), STAT=aviFail) ...
I've looked at the definition of ALLOCATE, DEALLOCATE and ALLOCATED, and I have found the following:
- On the second time through, DEALLOCATE is called, but the STAT value is '1'
- In case of failure (i.e. a positive STAT return), DEALLOCATE is meant to leave the original array untouched. It doesn't: it apparently clears it correctly (at least, according to the debugger).
- In case of failure and no STAT being defined, DEALLOCATE is meant to terminate the program. It doesn't, but the following ALLOCATE statement fails with STAT value of '1'.
I had also inadvertently called ALLOCATE on the same array twice elsewhere, without DEALLOCATING first. According to the book, this should result in program termination. It not only works, but works correctly and the STAT return from the second ALLOCATE is '0'.
Does Intel FORTRAN handle these things differently, or is FORTRAN not as fussy about fulfilling its specification as C++?