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My question is at which level compiler applies optimization. Is it at the level of different code files? If that is the case then isn't it more inefficient than say if it were applied across the whole code? Secondly, what happens when one of the source file was compiled with no optimization and then linked with one with -O3 level optimization?

I am especially interested in knowing how gcc handle such things.

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Read the compiler optimization article on Wikipedia. As you can see, optimization is applied at several stages. –  Praetorian Jul 26 '11 at 16:46
This is LLVM not GCC, but you'll find it a very interesting read, I promise. aosabook.org/en/llvm.html –  Joe Jul 26 '11 at 16:56

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up vote 4 down vote accepted

Individual translation units can be compiled with separate optimization flags, that's generally not a problem. Compile-time optimizations usually only affect the visible code within one TU.

An exception to that rule is the flag -fwhole-program, which indicates that your source code constitutes the entire program and allows for more aggressive optimization:

gcc -o prog *.c -O3 -fwhole-program -s

That said, GCC has recently introduced another layer of optimisations at link time; to use this, compile everything with -flto (GCC 4.6). However, this is also independent of the optimization flags for each TU:

gcc -c module1.c -flto -O2
gcc -c module2.c -flto -O3 -fno-strict-aliasing
gcc -c module3.c -flto -O0
gcc -c module4.c -O1
gcc -o prog module*.o -flto -s

Finally, you can also specify an independent -O* option at link stage, but I don't know if that makes any difference.

Also note that precompiled header files cannot be independently optmizied; a PCH is only eligible if it was compiled with the same optimization settings as the TU.

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Can I inline functions which are in an object file, that is, whose code I don't have access to? –  MetallicPriest Jul 26 '11 at 16:50
No, inlining can only happen at the compile stage, and the inlined function definition must be visible. That's why you traditionally put inlined functions in the header files. –  Kerrek SB Jul 26 '11 at 16:52
Inlining can happen whenever calling and called code are both visible to a program capable of (and allowed to) try optimizing. With LTO (don't know if this is true for today's GCC in particular, but it's definitely true for LLVM), optimizations like inlining can still happen right before linking/naitve code generation (long after the frontend is done). But again, the called code has to be available in some form (obviously ). –  delnan Jul 26 '11 at 17:03
Yeah, LTO adds some new possibilites. Not sure if it's genuine "inlining", I thought it's mainly static duplicate removal. But I don't know LTO very well. –  Kerrek SB Jul 26 '11 at 17:04
Again, I can't speak for GCC's LTO passes, but LLVM definitely sees C/C++-level functions and can do all the usual optimizations with them, e.g. "genuine " function inlining and also very clever ones like loop invariant code motion. In fact, nearly all of Clang's optimizations (save perhaps some shortcuts in code generation requring language-specific knowledge) are frontend-independent passes over LLVM IR, the equivalent to object code (nearly as low-level and converted to machine code at the end). And yet it's usually no worse than 10% slower than GCC, often better. –  delnan Jul 26 '11 at 17:25

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