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I need to shave off as much memory as possible. I am using standard C++ with STL. The program does not do much (yet) and it still takes 960Kb [according to top]! The executabe size is only 64KB.

The code is 3000 lines long, I am not going to post obviously. I believe the problem is not with my code, but with the system libraries.

A single main() function (includes all my code but doesn't use it) uses 732Kb of RAM!
Simple Code:

int main() {
sleep(1000); //do nothing
return 0;
}
//Uses 732kb of RAM

My code has no global variables (apart from ones in libraries that are hidden from me).

I am using standard libraries: libstdc++ (STL), GNU libc. Also a single BSD socket and libev and the non-standard STL rope class.

Is there some memory-profiler I can run?

Platform: Linux 2.6.18-32, 32-bit processor, 16MB total system RAM, no swap available
Compiler: GCC 4
Standard Library: GCC's libstdc++
Compiler Options: -Os (no debugging symbols)

I am not making heavy use of templates: containers and iterators that's all. However I am making heavy use of the SGI STL rope class.

The test environment is a basic server running Linux with 128MB RAM, Pentium III 667 Mhz, CentOS 5.5, no emulation.

UPDATE: I am wondering if the libraries themselves (code size) are causing the problem. Doesn't shared libraries require to be loaded into RAM?

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1  
Without any code, it will be nearly impossible to tell you where to start. –  septi Apr 6 '11 at 15:44
1  
No code, no good help. Please post the code (you said it's a very basic C++ program). –  nightcracker Apr 6 '11 at 15:44
    
What is the program doing (or should it do)? –  nightcracker Apr 6 '11 at 15:52
    
@nightcrack, it is a HTTP transparent proxy, operating with 3MB of mem available. –  unixman83 Apr 6 '11 at 15:52
1  
Which Standard Library and compiler are you using? Are you building a debug or release binary? Are you stripping symbols? Are you instantiating the STL templates with a large number of different template arguments? –  James McNellis Apr 6 '11 at 17:35

4 Answers 4

up vote 2 down vote accepted

Start stripping out functionality until the memory usage goes down. Go extreme first -- if you can replace main with sleep(1000); and your memory use is still high, look to code and static data -- anything initialized at global scope or static inside a class or function, along with template instantiations of different types and debug symbols.

UPDATE: Removed incorrect commentary about STL allocators. It may apply to other compiler/STL versions (check the history if you want to see it) but it's not applicable to this question.

Be aware that malloc/operator new will often be stingy about giving free memory back to the OS, which will cause your program as a whole not to shrink its apparent usage over time; that memory will get reused throughout your program by future allocations, so it's usually not a huge issue aside from keeping your "memory use" numbers at or near their high-water mark indefinitely.

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Tried the main() sleep(1000) RAM use is still 732kb! –  unixman83 Apr 6 '11 at 18:07
2  
In that case, you're looking at code size (yes, including all the shared libraries your program links to) and static data. Note though that for most OS's a shared library load will only be in RAM once for all processes that use it; this can make memory usage numbers a little bit deceptive, but it might not help you much if your program is all you need to run. Static linking might actually save you memory if you can get it set up, because I believe the linker can be told to discard symbols your program does not use from libraries. –  Walter Mundt Apr 6 '11 at 20:18
2  
This appears to NOT be the case in GCC's libstdc++ The current default choice for allocator is __gnu_cxx::new_allocator which frees memory after each allocation by calling new and delete gcc.gnu.org/onlinedocs/libstdc++/manual/bk01pt04ch11.html –  unixman83 Apr 7 '11 at 7:57
    
@unixman83 Good call! I'd read about this recently but it looks to be incorrect for the question at hand. Updating my answer. –  Walter Mundt Apr 8 '11 at 2:58

UPDATE: I am wondering if the libraries themselves (code size) are causing the problem. Doesn't shared libraries require to be loaded into RAM?

Bingo. On Mac OS X at least, Top includes the size of shared libraries in the physical memory usage. Only one copy of each library is resident in memory, of course.

Check the documentation for top for a workaround, or just chuck it and use malloc_info(). Be careful to find a way to account for code, stack, and global usage, though.

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@unix: No, shared libraries only need to be loaded once per process. Global variables for the library get duplicated, but that isn't what's adding up to 700k+ for you. Static linking will force the code to be loaded separately for your process, leading to worse usage — how would that solve anything? –  Potatoswatter Apr 6 '11 at 20:12
    
To reiterate, the same code is being counted multiple times. You should be able to create a thousand new processes and verify that the usage reported by top exceeds the physical memory in the system, virtual memory furthermore being nonexistent. –  Potatoswatter Apr 6 '11 at 20:14

Get the linker to emit a link map file; you can use that to determine exactly how much statically linked code and static data space your code requires.

Stack, heap space, and shared libraries are additional to that, and are allocated at run-time.

If you have 16Mb of RAM does it really matter? It is likley that there is a relatively large but fixed overhead, and that your overall memory footprint will not grow linearly with lines of code added.

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with RAM overhead of Linux kernel and network buffering, I really only have about 1.5MB under heavy load. –  unixman83 Apr 8 '11 at 21:40
    
@unix: Yes well, I could say a lot on the suitability of Linux for embedded systems that would start a whole other discussion ;). However you are lucky; my current project has 64K total RAM, 200K of code running from Flash, includes an RTOS, file-system, USB, CAN bus, two serial ports, VHF transceiver, and 13 application threads, and I currently have about 4Kb RAM remaining. So 1.5Mb looks like luxurious profligacy to me! –  Clifford Apr 8 '11 at 21:56

Since the target is a linux, I would think you could learn something about the details of memory usage, particularly shared library components by looking in the maps and smaps files in /proc/{pid_number}

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