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I have C implementation of an algorithm that includes shared library. The performance of the shared library is considerably different in C and C++ (performing much better in C++). Therefore, I have changed the shared library parts of the C implementation (Imp-1) into C++ (Imp-2) while keeping the rest of it same. I have compiled Imp-1 and Imp-2 by using gcc and g++ in Linux, respectively. In small sized problems both Imp-1 and Imp-2 perform exactly same. However, in a same large sized problem while Imp-1 solves it without any problem, Imp-2 returns std::bad_alloc error. Interestingly, this error occurs when the memory usage increases to 4GB where the available memory is 35GB.

Why this error occurs? (Compiler, operating system, compiler option, etc.)

Best Regards.

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Are you on a 32-bit system? –  icktoofay Apr 29 '12 at 7:57
Does the C implementation work fine for the same large size problems? Or have you only tested the small problems in your benchmark? Where C++ throws a std::bad_alloc C often returns a null pointer, which might go unnoticed for a while when an explicit check is missing. Also it would be interesting to know from where a std::bad_alloc is thrown. std::vector for example often uses an exponential scheme for resizing, so it might grow to 4GB even before all this space is need. If you use std::vector::resize at some places, it might work for some larger sizes even on 32bit systems. –  LiKao Apr 29 '12 at 8:56
I am running the codes on 64bit system (Red Hat Enterprise Linux Server release 5.6). I have checked the Makefile, I added -m64 option while compiling the C++ implementation with g++. C implementation works fine independent from the instance (small or large). I gave same instance (it is a large instance) to both implementations, while C ended up fine, C++ returns std::bad_alloc error at some point. –  Gokhan Apr 29 '12 at 13:53

1 Answer 1

up vote 1 down vote accepted

It seems that your gcc is a 64 bit compiler where as g++ is a 32 bit compiler. Even if you are running on a 32 bit system, unless you compile your program with a 64 bit compiler, your program cannot fully leverage the 64 bit addressing capabilities which would result a bad_alloc as you are experiencing if you want to address more than 4GB.

The reason I am confident that you are running a 32 bit compiled program on a 64 bit is the 4GB limit. Generally speaking, the memory is split as User/Kernal Space and on a 32 bit system the entire 4GB is not available, usually it is between 2GB and 3GB. As you can address the entire 4GB it seems you are running a 32 bit program on a 64 bit environment.

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I am running the codes on 64bit system (Red Hat Linux), and -m64 option is enabled during the compilation with g++. How can I assure that I am compiling with 64bit g++. –  Gokhan Apr 29 '12 at 16:37
@Gokhan: Good question. Run objdump -f <YourExecutable>|grep file. If you get something like file format elf64-x86-64, its a 64 bit executable, else if you get file format elf32-i386, its a 32 bit executable. –  Abhijit Apr 29 '12 at 16:58

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