I have a program that implements several heuristic search algorithms and several domains, designed to experimentally evaluate the various algorithms. The program is written in C++, built using the GNU toolchain, and run on a 64-bit Ubuntu system. When I run my experiments, I use bash's ulimit command to limit the amount of virtual memory the process can use, so that my test system does not start swapping.

Certain algorithm/test instance combinations hit the memory limit I have defined. Most of the time, the program throws an std::bad_alloc exception, which is printed by the default handler, at which point the program terminates. Occasionally, rather than this happening, the program simply segfaults.

Why does my program occasionally segfault when out of memory, rather than reporting an unhandled std::bad_alloc and terminating?

  • segfault can be caused not only because you hit limit of memory
    – Andrey
    Commented Apr 2, 2010 at 16:09
  • I am quite aware. In the cases where I have seen a segfault, the process has been using amounts of memory near the limit I have specified. I'm pretty confident that the segfaults I saw were not due to bugs in my code. Commented Apr 2, 2010 at 16:37
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    Have you considered a simple run in GDB (Well a few of them) to see which part of the code seg-faults?
    – Shiroko
    Commented Apr 2, 2010 at 17:01

3 Answers 3


One reason might be that by default Linux overcommits memory. Requesting memory from the kernel appears to work alright, but later on when you actually start using the memory the kernel notices "Oh crap, I'm running out of memory", invokes the out-of-memory (OOM) killer which selects some victim process and kills it.

For a description of this behavior, see http://lwn.net/Articles/104185/

  • Possibly. Some more info, I have been running as the only user on the test system, which has 48GB of memory. I've been running with a 47GB virtual memory ulimit, which should leave plenty of core memory for the OS. The linked-to article is from 2004. Is it still relevant today? Commented Apr 2, 2010 at 16:40

It could be some code using no-throw new and not checking the return value.

Or some code could be catching the exception and not handling it or rethrowing it.


What janneb said. In fact Linux by default never throws std::bad_alloc (or returns NULL from malloc()).

  • I assume you mean "std::bad_alloc is never thrown by default on Linux". Why, then, have I see std::bad_alloc thrown from C++ programs on several Linux systems when the program hits its memory limit? Commented Apr 2, 2010 at 16:44
  • Also, I think you mean malloc' rather than free'. The Linux man page for malloc does not make it sound like NULL will never be returned. Commented Apr 2, 2010 at 16:47
  • As I said it is the default behavior. Take a look at this thread: stackoverflow.com/questions/1592535/… Commented Apr 2, 2010 at 16:59
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    I thought that even with overcommitting, linux does fail fast if you ask for more than some upper bound it knows it could never possibly satisfy, or if you ask for more than is left in the virtual memory space (that being quite a rare occurrence on a 64 bit system, I'd think), or more than can be contiguously reserved in address space (again, ain't gonna happen by accident on a 64 bit system) . I could be wrong of course. Commented Apr 2, 2010 at 17:05
  • @Steve This was a while ago, but IIRC, on my x86_64 desktop with 8 GB RAM my simple test program that allocated memory but never touched it, was able to allocate around 90 GB before malloc() returned NULL.
    – janneb
    Commented Apr 2, 2010 at 17:30

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