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I got a Linux C++ program design problem in my job .

A function f() is called in two places. It has been declared as inline.

In place one, f() is called 10000 times, we need to do manual inline (copy f() body to its caller) to reduce overhead of calling it. The benefits have been confirmed by results.

In place two, f() is only called once for a purpose different from place one.

For further work me may make some changes inside f(), if we do inline manually, it is required to make the same changes in f() body in place two so that f() in place 1 and 2 are always exactly same.

it is hard to make synchronization between place 1 and 2 in this way.

We do not want to use macro because we need to use gdb for debug.

__attribute__ ((always_inline)) is not supported on our system.

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Is something wrong with your inline keyword? How about __attribute__(always_inline) ? –  Ben Voigt Nov 8 '12 at 21:20
Why are you manually inlining it instead of letting the compiler do it with the inline keyword (or if need be, something like the always_inline attribute? –  Adam Rosenfield Nov 8 '12 at 21:20
Write the function's body as a macro and apply the macro in the two places where it's needed. –  Pete Becker Nov 8 '12 at 21:24
If you are debugging code you probably do not have any optimizations enabled which would explain why you did not see any performance gain. As others have said use __attribute__ ((always_inline)) to guarantee inlining even without optimizations. –  Joe Nov 8 '12 at 21:27
You say f() is "declared inline". But more importantly is its body visible at the point where it's called? A simple program example that demonstrates the performance gain by manually inlining would be extremely helpful as well. –  Mark B Nov 8 '12 at 21:36

3 Answers 3

One possibility which would generate somewhat unintuitive code but would allow the same piece of code to be used in both inlined and not inlined version would be as follows (it works if there is exactly one place where the function needs to be inlined).

Suppose a() is the piece of code you want to have in either inlined or non-inlined form, and b() is the function inside which an inlined version of a() should be embedded. Make use of C++ templates and parametrize b() with a boolean parameter, called e.g. JUST_A. Now, your function b() could look like this:

if (!JUST_A) {
    //do something
if (!JUST_A) {
    //do something more

Since the template mechanism generates code for each parametrisation separately, the boolean parameter will get optimized out and you will end up with one variant (for JUST_A==false) which does:

//do something
//do something more

and another which does only


(for JUST_A==true). Depending on whether you call a<true>() or a<false>() you will run one piece of code or the other.

You can check in your program's disassembly if this actually works, but it should. Still, I don't think this is nice code and would prefer some variant of forced inlining that others have suggested for code readability if possible.

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Use the macro. When you want to debug, copy the body out of the macro into the code, debug it, then switch back to the macro when done. Unless the situation is a bit unusual, you shouldn't need to step through that code that many times to get it right.

Alternatively, you could use a pre-processor alternative like Cog or a custom script to verify that the code stays the same. Basically, put a marker around the block in question in both files, and have something extract and compare. If they get out of sync, break the build.

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Offer the function twice. The first function is implemented inline in a header, the second is implemented in a cpp file calling the inline function.

// function_inline.h
inline void function_inline()
   // implementation

// function.h
void function();

// function.cpp
#include "function.hpp"
#include "function_inline.hpp"
void function() { function_inline(); }

The regular code would call function() but in places where you want the function to be inlined, function_inline() can be used.

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