I'm on a Linux x86_64 machine (Debian 5.0). The version of gcc and gortran I use is 4.3.2. I met the same problem on a x86_64 Debian 6.0, with gcc and gfortran at version 4.4.5.
I'm trying to compile a Fortran 77 program with gfortran, that used to be compiled with g95. This program uses a C module to allocate memory dynamically (with calls to malloc). When executing this program, the user can pass to the program the maximum total memory (in words) the program can use.
When compiled with g95 -d8 -fsloppy-char -fstatic, the program runs with no problem, no matter how much memory the user gives.
When compiled with gfortran -fdefault-integer-8 -fdefault-real-8 -fno-automatic -m64 -mcmodel=large, the program runs only if the memory given by the user is under 268 740 955 words (i.e. 2 149 927 640 bytes). If the memory is beyond this value, a segmentation fault occurs during execution.
It appears that the problems comes from a part of the code using a very big array (whose size is approximately equal to the memory parameter given by the user) allocated by the C module (using malloc).
I used gdb to understand what was happening, here is what I saw:
- the array's first element's address is 0x237def0,
- the array can be accessed without any problem until the element located at 0x8237deef,
- when accessing the next element (that should be located at 0x8237def0), the segmentation occurs. Its address is 0xffffffff8237def0.
I tried to do the same thing with the program compiled with g95, but gdb can't print these addresses for a reason I don't know.
I suspect something is represented in 32 bits, as the difference between the address where the problem occurs and the array's first element's address is 0x80000000, that is equal to (2^32)/2 (maximum "unsigned int" value + 1 in 32 bits).
I've read many web sites, forums etc. where this problem appeared, but the only things I could use in my case was add the options -m64 -mcmodel=large to gfortran. I also tried some options I found on gcc and gfortran manuals, like -fno-stack-limit, -std=legacy and -frepack-arrays, but it doesn't change anything.
Does someone have an idea of what could resolve this problem? Am I missing an option that should be used to be fully 64 bits?