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This is an iOS question.

I build a static library (a framework in iOS) which is then included in an app. The size of the result binary (500kb) is smaller than the size of the static library (6mb). How does this work? My understanding of static library is that the static library is included in the final binary

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up vote 16 down vote accepted

Because you are not using all the functions of your library. A static library of archive type .a is a collection of .o object files and only the object files needed in your program are included at link time.

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In addition to this, a properly-factored library has each function (or family of tightly-related functions) in a separate .o file. In such usage, .o file header overhead can easily be 25% of the file size for each .o file, and in the worst case the overhead can be tens or hundreds of times the code size. That is to say, a well-factored .a file might typically be 50% code and 50% .o file headers. Of course this works together with ouah's answer: the better-factored a library is, the more opportunities the linker has to omit unneeded object files. –  R.. Mar 30 '12 at 0:11
I agree in principle with @R..'s comment. But these days the tools can do some of these tasks automatically (e.g. gcc's -ffunction-sections (effectively puts each function in a .o file) et al.), so maybe doing this at the source code level is not as important as it once was. –  ldav1s Oct 29 '13 at 17:45
@ldav1s: While -ffunction-sections and related options are available, I don't think they're in widespread use, and I'm not clear on whether the necessary linker options are even enabled by default. There are also some cases, like static structures containing function pointers, where -ffunction-sections might (again, I'm not sure) be insufficient to eliminate the unneeded functions. –  R.. Oct 29 '13 at 20:01

Whenever you statically link an executable, the linker can go ahead and resolve all symbol names (i.e. map them to an address) since all the symbols it will know about you have provided to the linker now (in the form of .o files and .a libraries which are really just a collection of .o files). If there are names that aren't there, you'll get a link error (this is different than dynamic linking where you may be able to load another library at runtime). In your case, you have extra symbols that are unreferenced by the executable. Since these symbols are known to the linker as being unused they are simply removed from the executable output. So your executable will be smaller than the input libraries in this case.

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