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I'm working on an embedded processor so binary size matters a lot. I am trying to avoid using the standard library. I'd like to use std::function, however. I extracted "function.hpp" from boost, and I'm trying to use that, but simply including function.hpp increases the size of my binary 200k, which makes it bigger than my processor can accept. If I include the standard library, it only increases my binary 60k. I can't figure it out, if I'm not using any of the templates yet, there shouldn't be any overhead. And even if I do, I can't imagine it's 200k worth of code. I'm using gcc 4.7, and I've disabled debugging info from what I can tell "-g0" and turned on optimizations "-O2".

Any help would be much appreciated.

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  • Optimize more with -O3? (or -Os for size)
    – Cornstalks
    Commented Feb 5, 2013 at 0:47
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    @Cornstalks That's exactly the wrong thing to do. -O3 enables optimizations that can increase binary size. Either way, I don't think this is related to optimizations, I reckon that including the boost header makes the compiler pull in exception handling into your program whereas you're not using them otherwise. Which system/processor are you compiling for?
    – us2012
    Commented Feb 5, 2013 at 0:50
  • -Os shaves off a couple kb, (thanks for the tip) but not enough to matter. Compiling without exceptions, -fno-exceptions changes the size 5k, and adding exception support, adds the 5k back. Still doesn't make sense. I'm compiling for ARM Cortex m3. The other weird thing, is that I can use std::function from the standard library, actually use it in code, not just include it and it only adds 60k. You figure that would compile in the same exception handling that boost would. Commented Feb 5, 2013 at 0:56
  • Have you actually looked at what the function.hpp contains [I haven't, so I can't say] - and what does the compiled code actually contain - objdump --disassemble prog would give you disassembly of your program. Add -S to get the source-lines intermingled. Commented Feb 5, 2013 at 1:00
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    The linker should not include code that is not referenced (in either library) unless you are forcing a "partial link" (-r or -Ur). Are you sure this is the binary size rather than the object code size? Check the linker map file output to see the actual size.
    – Clifford
    Commented Feb 5, 2013 at 11:41

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GCC includes some symbol information into the compiled binary even if you use -g0. In order to really get rid of all symbols one should use --strip-all command line option for the linker.

Also, since the size of the executable is important for you, consider -fdata-sections and -ffunction-sections for the compiler and --gc-sections for the linker.

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