Does Function pointer make the program slow?

2020-01-27 01:19发布

I read about function pointers in C. And everyone said that will make my program run slow. Is it true?

I made a program to check it. And I got the same results on both cases. (measure the time.)

So, is it bad to use function pointer? Thanks in advance.

To response for some guys. I said 'run slow' for the time that I have compared on a loop. like this:

int end = 1000;
int i = 0;

while (i < end) {
 fp = func;
 fp ();
}

When you execute this, i got the same time if I execute this.

while (i < end) {
 func ();
}

So I think that function pointer have no difference of time and it don't make a program run slow as many people said.

8条回答
放荡不羁爱自由
2楼-- · 2020-01-27 02:11

Calling a function via a function pointer is somewhat slower than a static function call, since the former call includes an extra pointer dereferencing. But AFAIK this difference is negligible on most modern machines (except maybe some special platforms with very limited resources).

Function pointers are used because they can make the program much simpler, cleaner and easier to maintain (when used properly, of course). This more than makes up for the possible very minor speed difference.

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We Are One
3楼-- · 2020-01-27 02:16

You see, in situations that actually matter from the performance point of view, like calling the function repeatedly many times in a cycle, the performance might not be different at all.

This might sound strange to people, who are used to thinking about C code as something executed by an abstract C machine whose "machine language" closely mirrors the C language itself. In such context, "by default" an indirect call to a function is indeed slower than a direct one, because it formally involves an extra memory access in order to determine the target of the call.

However, in real life the code is executed by a real machine and compiled by an optimizing compiler that has a pretty good knowledge of the underlying machine architecture, which helps it to generate the most optimal code for that specific machine. And on many platforms it might turn out that the most efficient way to perform a function call from a cycle actually results in identical code for both direct and indirect call, leading to the identical performance of the two.

Consider, for example, the x86 platform. If we "literally" translate a direct and indirect call into machine code, we might end up with something like this

// Direct call
do-it-many-times
  call 0x12345678

// Indirect call
do-it-many-times
  call dword ptr [0x67890ABC]

The former uses an immediate operand in the machine instruction and is indeed normally faster than the latter, which has to read the data from some independent memory location.

At this point let's remember that x86 architecture actually has one more way to supply an operand to the call instruction. It is supplying the target address in a register. And a very important thing about this format is that it is normally faster than both of the above. What does this mean for us? This means that a good optimizing compiler must and will take advantage of that fact. In order to implement the above cycle, the compiler will try to use a call through a register in both cases. If it succeeds, the final code might look as follows

// Direct call

mov eax, 0x12345678

do-it-many-times
  call eax

// Indirect call

mov eax, dword ptr [0x67890ABC]

do-it-many-times
  call eax

Note, that now the part that matters - the actual call in the cycle body - is exactly and precisely the same in both cases. Needless to say, the performance is going to be virtually identical.

One might even say, however strange it might sound, that on this platform a direct call (a call with an immediate operand in call) is slower than an indirect call as long as the operand of the indirect call is supplied in a register (as opposed to being stored in memory).

Of course, the whole thing is not as easy in general case. The compiler has to deal with limited availability of registers, aliasing issues etc. But is such simplistic cases as the one in your example (and even in much more complicated ones) the above optimization will be carried out by a good compiler and will completely eliminate any difference in performance between a cyclic direct call and a cyclic indirect call. This optimization works especially well in C++, when calling a virtual function, since in a typical implementation the pointers involved are fully controlled by the compiler, giving it full knowledge of the aliasing picture and other relevant stuff.

Of course, there's always a question of whether your compiler is smart enough to optimize things like that...

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