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I asked google to give me the meaning of the gcc option -fomit-frame-pointer, which redirects me to the below statement.

        Don't keep the frame pointer in a register for functions that don't 
need one. This avoids the instructions to save, set up and restore frame 
pointers; it also makes an extra register available in many functions. It 
also makes debugging impossible on some machines.

As per my knowledge for each function, an activation record will be created in stack of the process memory to keep all local variables and some more information. I hope this frame pointer means the address of the activation record of a function.

In this case what are the type of functions, for which it doesn't need to keep frame pointer in register? If i get this information, I will try to design the new function based on that(if possible). Because if frame pointer is not kept in registers some instructions will be omitted in binary. This will really improves the performace noticably in an application where number of functions are more.

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Although I'm not sure if it really improves the performance, I'm very interested to know the answer myself! –  Shahbaz Feb 2 '13 at 21:28
I hope atleast this option will remove 3 instructions for function for which it doesnt need to keep frame pointer. –  raja ashok Feb 2 '13 at 21:32
Having to debug just one crash dump of code that was compiled with this option will be enough to get you to excise this option from your makefiles. It doesn't remove any instructions btw, it just gives the optimizer one more register to work with for storage. –  Hans Passant Feb 2 '13 at 23:35

1 Answer 1

up vote 14 down vote accepted

Most smaller functions don't need a frame-pointer - larger functions MAY need one.

It's really about how well the compiler manages to track how the stack is used, and where things are on the stack (local variables, arguments passed to the current function and arguments being prepared for a function about to be called). I don't think it's easy to characterize the functions that need or don't need a frame-pointer [technically, NO function HAS to have a frame-pointer - it's more a case of "if the compiler deems it necessary to reduce the complexity of other code"].

I don't think you should "attempt to make functions not have frame-pointer" as part of your strategy for coding - like I said, simple functions don't need them, so use -fomit-frame-pointer, and you'll get one more register available for the register allocator, and save 1-3 instructions on entry/exit to functions. If your function needs a frame-pointer, it's because the compiler decides that's a better option than using frame pointer. It's not a goal to have functions without frame pointer, it's a goal to have code that works both correctly and fast.

Note that "not having framepointer" should give better performance, but it's not some magic bullet that gives enormous improvements - particularly not on x86-64, which already has 16 registers to start with. On 32-bit x86, since it only has 8 registers, one of which is stackpointer, and taking up another as the frame-pointer means 25% of register-space is taken. To change that to 12.5% is quite an improvement. Of course, compiling for 64-bit will help quite a lot too.

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Typically the compiler can keep track of stack depth on its own and does not need a frame pointer. The exception is if the function uses alloca which moves the stack pointer by a variable amount. Frame pointer omission does make debugging significantly harder. Local variables are harder to locate and stack traces are much harder to reconstruct without a frame pointer to help out. Also, accessing parameters can get more expensive since they are far away from the top of the stack and may require more expensive addressing modes. –  Raymond Chen Feb 2 '13 at 21:43
Yes, so, assuming we're not using alloca [who does? - I'm 99% sure I've never written code that uses alloca] or variable size local arrays [which is modern form of alloca], then the compiler MAY still decide that using frame-pointer is a better option - because compilers are written to not blindly follow the options given, but give you the best choices. –  Mats Petersson Feb 2 '13 at 21:49
@MatsPetersson VLA are different from alloca: they are thrown away as soon as you leave the scope in which they are declared, whereas alloca space is only freed when you leave the function. This makes VLA much easier to follow than alloca, I think. –  Jens Gustedt Feb 2 '13 at 21:52
It's maybe worth mentioning that gcc has -fomit-frame-pointer on by default for x86-64. –  zwol Feb 2 '13 at 22:04
@JensGustedt, the problem is not when they are thrown away, the problem is that their size (like alloca'ed space) is unknown at compile time. Usually the compiler will use the frame pointer to get the address of local variables, if the size of the stack frame doesn't change, it can locate them at a fixed offset from the stack pointer. –  vonbrand Feb 2 '13 at 23:39

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