from the source code published in the programmer's manual of a commercial program, I have isolated a code snippet which puzzles me quite a lot.
The function below is expected to be called multiple times by a kernel and is supposed to implement the temporal behaviour of a component in a system consisting of many interconnected components (I have removed the Input/Output parameters from the function prototype because they are irrelevant to the point I intend to rise).
To distinguish between different instances of the same block type the kernel pass an instance number in the INFO(1) element.
As far as I have understood, the designer of this program took a great deal of effort trying to save the time spent in copying the values of the parameters from the PAR vector to local variables with meaningful names at each call (as if they were not aware of the optimizations a compiler can do). It seems to me that they wanted to assign them to the local variables only in the first call, or when the caller switch to a different instance of the same type.
However I can't understand how this could work if the local variables are not declared static with the "save" keyword. Does FORTRAN store local variables statically i.e. not on a stack? (I am sorry if the question sounds stupid, I am used to the C/C++ languages)
SUBROUTINE TYPE151(PAR, INFO, *) IMPLICIT NONE INTEGER*4 INFO(15), IUNIT DOUBLE PRECISION PAR, QMAX PARAMETER (NP=1) DIMENSION PAR(NP) ! First call IF (INFO(7).EQ.-1) THEN IUNIT = INFO(1) QMAX = PAR(1) RETURN 1 ENDIF ! later calls IF(INFO(1).NE.IUNIT) THEN IUNIT = INFO(1) QMAX = PAR(1) ENDIF ! Making use of QMAX in some ways... RETURN 1 END SUBROUTINE TYPE151