I've written some C++ code that runs perfectly fine on my laptop PC (compiled under both a Microsoft compiler and g++ under MinGW). I am in the process of porting it to a Unix machine.
I've compiled with both g++ and with Intel's ipcp on the Unix machine and in both cases, my program crashes (segfaults) after running for a while. I can run it for a short time without a crash.
When I debug, I find that the crash is happening when the program tries to copy an STL list - specifically, it happens when the program tries to allocate memory to create a new node in the list. And the error I get in the debugger (TotalView) is that "an allocation call failed or the address returned is null."
The crash does not always happen in the same place in the code each time I run it, but does always happen during an allocation call to create a node in an STL list. I don't think I'm running out of memory. I have a few memory leaks, but they're very small. What else can cause a memory allocation error? And why does it happen on the Unix machine and not on my PC?
UPDATE: I used MemoryScape to help debug. When I used guard blocks, the program ran through without crashing, further suggesting a memory issue. What finally worked to nail down the problem was to "paint" allocated memory. It turns out I was initializing a variable, but not setting it to a value before I used it as an array index. The array was therefore overrunning because it was using whatever garbage was in the variable's memory location -- often it was 0 or some other small number, so no problem. But when I ran the program long enough, it was more likely to hold a larger number and corrupt the heap when I wrote out of bounds of the array. Painting the allocated memory with a large number forced a segfault right at the line of code where I attempted to write a value in the array and I could see that large painted number being used as the array index.