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I need to optimize the size of my executable severely (ARM development) and I noticed that in my current build scheme (gcc + ld) unused symbols are not getting stripped.

The usage of the arm-strip --strip-unneeded for the resulting executables / libraries doesn't change the output size of the executable (I have no idea why, maybe it simply can't).

What would be the way (if it exists) to modify my building pipeline, so that the unused symbols are stripped from the resulting file?


I wouldn't even think of this, but my current embedded enviroment isn't very "powerful" and saving even 500K out of 2M results in a very nice loading performance boost.

Thank you.

Update:

Unfortunately the current gcc version I use doesn't have the -dead-strip option and the -ffunction-sections... + --gc-sections for ld doesn't give any significant difference for the resulting output.

I'm shocked that this even became a problem, because I was sure that gcc + ld should automatically strip unused symbols (why do they even have to keep them?).

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How do you know that symbols are not used? –  zvrba Jul 16 '11 at 14:32
    
Not referenced anywhere => not being used in the final application. I assume that building call graph while comipling / linking shouldn't be very hard. –  Yippie-Ki-Yay Jul 16 '11 at 14:52
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Are you trying to reduce the size of the .o file by removing dead symbols, or you are trying reduce the size of the actual code footprint once loaded into executable memory? The fact that you say "embedded" hints at the latter; the question you ask seems focused on the former. –  Ira Baxter Jul 16 '11 at 16:54
    
@Ira I'm trying to reduce the output executable size, because (as an example) if I attempt to port some existing applications, which use boost libraries, the resulting .exe file contains many unused object files and due to the specifications of my current embedded runtime, starting a 10mb applications takes much longer than, for example, starting a 500k application. –  Yippie-Ki-Yay Jul 16 '11 at 19:51
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@Yippie: You want to get rid of code to minimize load time; the code you want to get rid of are unused methods/etc. from libraries. Yes, you need to build a call graph to do this. It isn't that easy; it has to be a global call graph, it has to be conservative (can't remove something that might get used) and has to be accurate (so you have as close to an ideal call graph, so you really know what isn't used). The big problem is doing a global, accurate call graph. Don't know of many compilers that do this, let alone linkers. –  Ira Baxter Jul 16 '11 at 20:12
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9 Answers

up vote 26 down vote accepted

For GCC, this is accomplished in two stages:

First compile the data but tell the compiler to separate the code into separate sections within the translation unit. This will be done for functions, classes, and external variables by using the following two compiler flags:

-fdata-sections -ffunction-sections

Link the translation units together using the linker optimization flag (this causes the linker to discard unreferenced sections):

-Wl,--gc-sections

So if you had one file called test.cpp that had two functions declared in it, but one of them was unused, you could omit the unused one with the following command to gcc(g++):

gcc -Os -fdata-sections -ffunction-sections test.cpp -o test.o -Wl,--gc-sections

(Note that -Os is an additional compiler flag that tells GCC to optimize for size)

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This is really interesting. Thanks very much for these tips! –  Alek Mar 29 '12 at 14:47
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Isn't this identical to my answer but one week later? –  Nemo Jan 30 '13 at 14:39
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@Nemo, no, it is not. –  maxschlepzig Feb 24 at 17:37
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From the GCC 4.2.1 manual

 -fwhole-program
           Assume that the current compilation unit represents whole program being compiled.  All public functions and variables with the exception of "main"
           and those merged by attribute "externally_visible" become static functions and in a affect gets more aggressively optimized by interprocedural
           optimizers.  While this option is equivalent to proper use of "static" keyword for programs consisting of single file, in combination with option
           --combine this flag can be used to compile most of smaller scale C programs since the functions and variables become local for the whole combined
           compilation unit, not for the single source file itself.
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Yeah but that presumably doesn't work with any kind of incremental compilation and is probably going to be a bit slow. –  Timmmm May 16 at 13:46
    
@Timmmm: I suspect you're thinking of -flto. –  Ben Voigt yesterday
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While not strictly about symbols, if going for size - always compile with -Os and -s flags. -Os optimizes the resulting code for minimum executable size and -s removes the symbol table and relocation information from the executable.

Sometimes - if small size is desired - playing around with different optimization flags may - or may not - have significance. For example toggling -ffast-math and/or -fomit-frame-pointer may at times save you even dozens of bytes.

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It seems to me that the answer provided by Nemo is the correct one. If those instructions do not work, the issue may be related to the version of gcc/ld you're using, as an exercise I compiled an example program using instructions detailed here

#include <stdio.h>
void deadcode() { printf("This is d dead codez\n"); }
int main(void) { printf("This is main\n"); return 0 ; }

Then I compiled the code using progressively more aggressive dead-code removal switches:

gcc -Os test.c -o test.elf
gcc -Os -fdata-sections -ffunction-sections test.c -o test.elf -Wl,--gc-sections
gcc -Os -fdata-sections -ffunction-sections test.c -o test.elf -Wl,--gc-sections -Wl,--strip-all

These compilation and linking parameters produced executables of size 8457, 8164 and 6160 bytes, respectively, the most substantial contribution coming from the 'strip-all' declaration. If you cannot produce similar reductions on your platform,then maybe your version of gcc does not support this functionality. I'm using gcc(4.5.2-8ubuntu4), ld(2.21.0.20110327) on Linux Mint 2.6.38-8-generic x86_64

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I don't know if this will help with your current predicament as this is a recent feature, but you can specify the visibility of symbols in a global manner. Passing -fvisibility=hidden -fvisibility-inlines-hidden at compilation can help the linker to later get rid of unneeded symbols. If you're producing an executable (as opposed to a shared library) there's nothing more to do.

More information (and a fine-grained approach for e.g. libraries) is available on the GCC wiki.

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Programming habits could help too; e.g. add static to functions that are not accessed outside a specific file; use shorter names for symbols (can help a bit, likely not too much); use const char x[] where possible; ... this paper, though it talks about dynamic shared objects, can contain suggestions that, if followed, can help to make your final binary output size smaller (if your target is ELF).

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the suggested things do make shorter executable. The given link is very interesting for executable ELF too and for the OP request. I wonder why the -1. –  ShinTakezou Jul 16 '11 at 18:31
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+1 I do wish that people who down vote had the decency to say why they down voted. Then perhaps we could improve the answers or - more likely - point out any misconceptions they had. –  Dipstick Jul 16 '11 at 23:48
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though the answer is for sure not a "best candidate" nor "bounty winner", it suggests things that may help making a final object shorter, that is what the OP in my understanding wanted; thus I would expect that people do not upvote it; but I see no reason to downvote and if in other opinion there's a strong reason, I would like to know it. It would help SO a lot; but in meta there where already strong resistance against forcing to give a reason for a downvote, and likely it is a reasonable decision. –  ShinTakezou Jul 17 '11 at 9:00
    
It is reasonable. It should be a culture to explain. In all cultures, you also have rude people. –  Prof. Falken Jul 19 '11 at 16:12
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You'll want to check your docs for your version of gcc & ld:

However for me (OS X gcc 4.0.1) I find these for ld

-dead_strip

Remove functions and data that are unreachable by the entry point or exported symbols.

-dead_strip_dylibs

Remove dylibs that are unreachable by the entry point or exported symbols. That is, suppresses the generation of load command commands for dylibs which supplied no symbols during the link. This option should not be used when linking against a dylib which is required at runtime for some indirect reason such as the dylib has an important initializer.

And this helpful option

-why_live symbol_name

Logs a chain of references to symbol_name. Only applicable with -dead_strip. It can help debug why something that you think should be dead strip removed is not removed.

There's also a note in the gcc/g++ man that certain kinds of dead code elimination are only performed if optimization is enabled when compiling.

While these options/conditions may not hold for your compiler, I suggest you look for something similar in your docs.

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+1 for -why_live. That's an interesting one. –  Maxpm Jul 14 '11 at 2:36
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strip --strip-unneeded only operates on the symbol table of your executable. It doesn't actually remove any executable code.

The standard libraries achieve the result you're after by splitting all of their functions into seperate object files, which are combined using ar. If you then link the resultant archive as a library (ie. give the option -l your_library to ld) then ld will only include the object files, and therefore the symbols, that are actually used.

You may also find some of the responses to this similar question of use.

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The separate object files in the library is only relevant when doing a static link. With shared libraries, the whole library is loaded, but not included in the executable, of course. –  Jonathan Leffler Jul 16 '11 at 3:13
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If this thread is to be believed, you need to supply the -ffunction-sections and -fdata-sections to gcc, which will put each function and data object in its own section. Then you give and -gc-sections to GNU ld to remove the unused sections.

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Unfortunately this didn't work, I have no idea why, probably the arm-gcc compiler issue or something ARM-related. If there is something else I could try... –  Yippie-Ki-Yay Jul 14 '11 at 2:02
    
Just a FYI - That thread is from 2003 and may not be current... –  Michael Anderson Jul 14 '11 at 2:06
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@MSalters: It's not the default, because it violates the C and C++ standards. Suddenly global initialization doesn't happen, which results in some very surprised programmers. –  Ben Voigt Jul 16 '11 at 14:38
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@MSalters: Only if you pass the non-standard behavior-breaking options, which you proposed to make the default behavior. –  Ben Voigt Jul 18 '11 at 12:42
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@MSalters: If you can make a patch that runs static initializers if and only if the side effects are necessary to the correct operation of the program, that would be awesome. Unfortunately I think doing it perfectly often requires solving the halting problem, so you'll probably need to err on the side of including some extra symbols at times. Which basically is what Ira says in his comments to the question. (BTW: "not necessary to the correct operation of the program" is a different definition of "unused" than how that term is used in the standards) –  Ben Voigt Jul 18 '11 at 13:18
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