The following program tries to do a common mistake: modify a function argument, whereas it is passed initially as a constant. Thus, usually, the constant is stored in a read-only section in object code, and at run time one gets an access violation.
It's exactly what happens with gfortran, with optimization -O0 or -O1 (gfortran 4.8.1 on Windows). But it disappears with -O2, and the second PRINT shows the value 100, like the first.
By inspection of the assembly output, I can see that in the -O1 case, the function F is optimized out, but the computations are still done in the code of A, and storing 117 causes a crash. With -O2, no computation is done, the result (201) is included in the assembly output as a constant, and the value 117 is never stored.
program bob implicit none call a(100) contains subroutine a(n) integer :: n print *, "In A:", f(n), n print *, n end subroutine function f(n) integer :: n, f f = 2*n + 1 n = 117 end function end program
Is this behaviour accepted by the standard? Is this a bug? My first thought was that maybe it's a bug of the optimizer (it does not do something that would have indeed an effect, since the modified value is printed afterwards). But I'm aware that usually, an undefined behaviour in the standard can have any consequence when actually run.
If I replace the constant 100 in the call, with a variable previously initialized to 100, the compiler produces the expected result (the second PRINT gives me 117, with any optimization level).
So, maybe the optimizer is very clever, in the "constant" case: since the code would crash, the print woud not happen, so the value is not needed, so optmized out, and finally the program won't crash. But I still find it a bit puzzling.