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I'm at the end of my rope here: I have a single-threaded C++ program. Here is some empirical data and background information, I tried to highlight the most important keywords;

  • The entire section I'm talking about does not have any syscalls, other than the memory (de-)allocation calls the standard C++ library may perform (std::sets are involved). It's a purely logical algorithm.
  • The behaviour of this should be deterministic, depending on the input, which I do not vary.
  • If the bug manifests itself, the program simply falls into what looks like an endless loop where it seems to start allocating memory beyond any bound.
  • The bug does not manifest itself predictably, I can run the program from the command line and sometimes (perhaps 30%-50%) the bug manifests itself, otherwise, everything runs smoothly and correctly as far as I can tell.
  • Once I run the program not directly from the prompt, but in gdb or valgrind, the bug is gone, the program never dies.
  • Now comes the best part: I traced the problem to a (templated) non-virtual member function call. Just before the call, I print a message to std::cout, which I can see in the terminal. The first line inside the function also has a debug message, which is never shown.

I don't see any reasonable explanation any more. Maybe you can come up with an idea how to proceed.

Edit: The significant lines of code, I changed the line numbers so we can refer to them and omitted irrelevant parts, so not everything seems to make the best sense.


 10     std::set<Array const*>* symbols;
 11     std::set<Array const*> allSymbols;
 12     symbols = &allSymbols;
 //  ... allSymbols are populated with std::inserter
 15     std::cout << "eval; cd = " << &cd << ", cg = " << &cd.cg << std::endl;
 16     senderConstraints = cd.cg.eval(*symbols);


 31     template <typename ArrayContainer>
 32     ConstraintList eval(ArrayContainer const request) {
 33       std::cout << "inside eval ... going to update graph now" << std::endl;

The last line of output is:

eval; cd = 0x2e6ebb0, cg = 0x2e6ebc0

Then it's trapped in the endless loop.

share|improve this question
If your really are sure that this is not a race condition (effects look exactly like what you describe), i would dump the state of my objects to see which state leads to the bug-state. some wrong initialisation order can also lead to such behaviour. – Mare Infinitus Jun 26 '12 at 10:15
Code would help, otherwise it's kind of impossible to tell anything. However "bug is magically gone in debugger" usually points to a constellation of if(ptr != NULL) do_something(); and a non-initialized variable. If the memory location is accidentially zero, the bug does not occur, otherwise it does. The debugger zero-initializes all variables (even the ones you didn't), so the bug is "magically gone". – Damon Jun 26 '12 at 10:15
You can try to trace system calls (some may be hidden inside the system libraries) with strace. Also consider adding lots of debug printing, the more the better. – Joachim Pileborg Jun 26 '12 at 10:16
It's possible your program is implicitly relying on some uninitialised stack variable, which Valgrind will not catch. – Oliver Charlesworth Jun 26 '12 at 10:22
@MareInfinitus: Well, how can it be a race condition if I only have one thread and don't really communicate with anything other than the part of the kernel that gives me heap memory? – bitmask Jun 26 '12 at 10:25
up vote 4 down vote accepted

I bet, the second line is printed, when you change

ConstraintList eval(ArrayContainer const request)


ConstraintList eval(ArrayContainer const & request)

If so, either the state of allSymbols is corrupted between line 12 and line 15, or your code really looks more like this:

std::set<Array const*>* symbols;
    std::set<Array const*> allSymbols;
    symbols = &allSymbols;
    //  ... allSymbols are populated with std::inserter
std::cout << "eval; cd = " << &cd << ", cg = " << &cd.cg << std::endl;
senderConstraints = cd.cg.eval(*symbols);

Which is UB, because symbols refers to an already destructed object.

share|improve this answer
Yes I was blind, sorry. Good guess, though. To my defence though, the actual thing looks a bit more complicated. – bitmask Jun 26 '12 at 11:32

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