Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

When compiling shared libraries in gcc the -fPIC option compiles the code as position independent. Is there any reason (performance or otherwise) why you would not compile all code position independent?

share|improve this question
But wowest is not entirely correct. Many function calls and jumps use relative jumps so they don't even need a jump table after being moved around. –  Unknown May 2 '09 at 2:47
looking at the generated assembly code it appears that the address of the function is loaded wheras non fpic code it appears it is simply a jump. Am I misunderstanding your statement? –  ojblass May 2 '09 at 5:21
@ojblass what I mean is that some jumps are like "jump 50 instructions ahead of here" or "jump 5 instructions backwards" instead of "jump to 0x400000". So to say that you have to load an address every time with -fPIC isn't entirely true. –  Unknown May 2 '09 at 5:47
The Wikipedia article provides a good description. Basically, on some architectures there is no direct way to jump to a relative address. Hence, PIC is more expensive to use on those arhcs. See @EvanTeran's answer for more info. –  android Aug 25 '13 at 15:05

6 Answers 6

up vote 21 down vote accepted

It adds an indirection. With position independent code you have to load the address of your function and then jump to it. Normally the address of the function is already present in the instruction stream.

share|improve this answer
Chosen for simplicity. –  ojblass May 2 '09 at 2:32

Yes there are performance reasons. Some accesses are effectively under another layer of indirection to get the absolute position in memory.

There is also the GOT (Global offset table) which stores offsets of global variables. To me, this just looks like an IAT fixup table, which is classified as position dependent by wikipedia and a few other sources.


share|improve this answer
I am upvoting but selecting the other for sheer simplcity. –  ojblass May 2 '09 at 2:15

In addition to the accepted answer. One thing that hurts PIC code performance a lot is the lack of "IP relative addressing" on x86. With "IP relative addressing" you could ask for data that is X bytes from the current instruction pointer. This would make PIC code a lot simpler.

Jumps and calls, are usually EIP relative, so those don't really pose a problem. However, accessing data will require a little extra trickery. Sometimes, a register will be temporarily reserved as a "base pointer" to data that the code requires. For example, a common technique is to abuse the way calls work on x86:

call label_1
.dd 0xdeadbeef
.dd 0xfeedf00d
.dd 0x11223344
pop ebp            ; now ebp holds the address of the first dataword
                   ; this works because the call pushes the **next**
                   ; instructions address
                   ; real code follows
mov eax, [ebp + 4] ; for example i'm accessing the '0xfeedf00d' in a PIC way

This and other techniques add a layer of indirection to the data accesses. For example, the GOT (Global offset table) used by gcc compilers.

x86-64 added a "RIP relative" mode which makes things a lot simpler.

share|improve this answer
IIRC MIPS doesn't have PC-relative addressing too, except for relative jumps –  Lưu Vĩnh Phúc Aug 8 at 8:17

This article explains how PIC works and compares it to the alternative - load time relocation. I think it's relevant to your question.

share|improve this answer
relevant post != answer –  Nick Jan 19 '13 at 21:33
@Nick: I disagree. If it helps the asker, it's an answer. Pointing to a relevant article or two can provide a wealth of information. –  Eli Bendersky Jan 19 '13 at 21:57
There is no conclusion in this post, just a link to an article. Not even a clue that PIC is not used by default because of performance issues. –  Nick Jan 19 '13 at 22:14

Also, virtual memory hardware in most modern processors (used by most modern OSes) means that lots of code (all user space apps, barring quirky use of mmap or the like) doesn't need to be position independent. Every program gets its own address space which it thinks starts at zero.

share|improve this answer
Is it easier to code those applicaitons that way? –  ojblass May 2 '09 at 2:21
But even with a VM-MMU PIC code is needed to ensure that the same .so library is loaded only once into memory when it is used by different executables. –  Rüdiger Stevens May 27 '09 at 18:26

Because implementing completely position independent code adds a constraint to the code generator which can prevent the use of faster operations, or add extra steps to preserve that constraint.

This might be an acceptable trade-off to get multiprocessing without a virtual memory system, where you trust processes to not invade each other's memory and might need to load a particular application at any base address.

In many modern systems the performance trade-offs are different, and a relocating loader is often less expensive (it costs any time code is first loaded) than the best an optimizer can do if it has free reign. Also, the availability of virtual address spaces hides most of the motivation for position independence in the first place.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.