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I'm getting a strange error:

*** glibc detected *** findbasis: free(): invalid next size (normal): 0x0000000006a32ce0 ***

When I try to close() a std::ofstream:

void writeEvectors(int l, parameters params, PetscReal* evectors, int basis_size)
{
    for (int n = 1 + l; n <= params.nmax(); n++)
    {
        std::stringstream fname(std::ios::out);
        fname << params.getBasisFunctionFolder() << "/evectors_n" << std::setw(4) << std::setfill('0') << n << "_l" << std::setw(3) << std::setfill('0') << l;
        std::ofstream out(fname.str().c_str(), std::ios::binary);
        std::cerr << "write out file:" << fname.str() << " ...";
        out.write((char*)( evectors + n * basis_size),sizeof(PetscReal) * basis_size);
        std::cerr << "done1" << std::endl;
        if (out.fail() || out.bad())
            std::cerr << "bad or fail..." << std::endl;
        out.close();
        std::cerr << "done2" << std::endl;
    }
    std::cout << "done writing out all evectors?" << std::endl;
}

When run, this program never reaches the "done2" (or the "bad or fail..."), however the "done1" is reached. Also, the data that is written out is good (as in what I expect).

I'm honestly at a loss as to why this happens, I can't think of any reason "close()" would fail.

Thanks for any help.

(I'm beginning to think it is some sort of compiler bug/error. I'm running GCC 4.1.2 (!) (RHEL 5 I believe) through mpicxx)

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Errors from malloc or free are usually detected well after they actually occurred (if at all; they may simply segfault); use something like valgrind to find out where the actual invalid access occurred that trashed the free block list. –  geekosaur Apr 25 '12 at 23:28
    
Hmm. Looks suspiciously like a memory-related problem (e.g. accidentally overwriting someone else's memory). Are you sure evectors + n * basis_size is doing what you want? I would have thought something like (char*)(evectors + n) + (char*)(n * basis_size) or just (char*)(evectors + n) would be correct judging from your size argument. –  Cameron Apr 25 '12 at 23:30
    
Cameron: It is actually a basis_size x basis_size array, stored as a 1d array. I had to roll my own lapack wrapper, and this is the easiest way to do it. –  Andrew Spott Apr 25 '12 at 23:43
    
thanks geekosaur, as it turns out, it was way before this... the only weird thing is that it kept happening at the exact same place in the code (I would think that the detection would be somewhat stochastic, but I guess not) –  Andrew Spott Apr 25 '12 at 23:48
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1 Answer

up vote 2 down vote accepted

The glibc error sounds like there's a problem with freeing memory. If you run inside Valgrind, a free memory profiler, it ought to give you a more helpful explanation of the error.

Running in Valgrind is fairly painless - just compile the executable with the -g option to add debugging flags (assuming you're using the GNU compiler) and then in your Linux terminal enter valgrind ./your_executable and see what happens.

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Thanks! valgrind actually is really painless... –  Andrew Spott Apr 25 '12 at 23:48
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