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If I include <stdlib.h> or <stdio.h> in a C program I don't have to link these when compiling but I do have to link to <math.h>, using -lm with gcc, for example:

gcc test.c -o test -lm

What is the reason for this? Why do I have to explicitly link the math library but not the other libraries?

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9 Answers 9

up vote 77 down vote accepted

The functions in stdlib.h and stdio.h have implementations in libc.so (or .a static linking), which is linked into your executable by default (as if -lc were specified). GCC can be instructed to avoid this automatic link with the -nostdlib or -nodefaultlibs options.

The math functions in math.h have implementations in libm.so (or .a for static linking), and libm is not linked in by default. There are hysterical raisins historical reasons for this libm/libc split, none of them very convincing.

Interestingly, the C++ runtime libstdc++ requres libm, so if you compile a C++ program with GCC (g++), you will automatically get libm linked in.

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This has nothing to do with Linux, since it was common long before Linux. I suspect it has something to do with trying to minimize executable size, since there's a lot of programs that don't need math functions. –  David Thornley Jun 23 '09 at 17:35
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On ancient systems, if math functions were contained in libc, then compiling all programs would be slower, the output executables would be larger, and runtime would require more memory, with no benefit to most programs which do not use these math functions at all. These days we have good support for shared libraries, and even when statically linking, the standard libraries are set up so that unused code can be discarded, so none of these are good reasons anymore. –  ephemient Jun 23 '09 at 17:38
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@ephemient Even in the old days, linking to a library did not pull in all the contents of the library to the executable. Linkers, although an often ignored technology, have historically been quite efficent. –  anon Jun 23 '09 at 17:43
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@ephemient Also, shared libraries have been around for longer than you might think. They were invented in the 1950s, not the 1980s. –  anon Jun 23 '09 at 17:46
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I suppose at the end of the day what we are looking at is nothing more than GCC conservatism: "it's always worked like that". I only wish they applied the same reasoning to their compiler extensions. –  anon Jun 23 '09 at 17:59

Remember that C is an old language and that FPUs are a relatively recent phenomenon. I first saw C on 8-bit processors where it was a lot of work to do even 32-bit integer arithmetic. Many of these implementations didn't even have a floating point math library available!

Even on the first 68000 machines (Mac, Atari ST, Amiga), floating point coprocessors were often expensive add-ons.

To do all that floating point math, you needed a pretty sizable library. And the math was going to be slow. So you rarely used floats. You tried to do everything with integers or scaled integers. When you had to include math.h, you gritted your teeth. Often, you'd write your own approximations and lookup tables to avoid it.

Trade-offs existed for a long time. Sometimes there were competing math packages called "fastmath" or such. What's the best solution for math? Really accurate but slow stuff? Inaccurate but fast? Big tables for trig functions? It wasn't until coprocessors were guaranteed to be in the computer that most implementations became obvious. I imagine that there's some programmer out there somewhere right now, working on an embedded chip, trying to decide whether to bring in the math library to handle some math problem.

That's why math wasn't standard. Many or maybe most programs didn't use a single float. If FPUs had always been around and floats and doubles were always cheap to operate on, no doubt there would have been a "stdmath".

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Heh, I am using Pade approximants for (1+x)^y in Java, in a desktop PC. Log, exp and pow are still slow. –  quant_dev Jun 24 '09 at 6:23
    
Good point. And I've seen approximations for sin() in audio plugins. –  Nosredna Jun 24 '09 at 16:03
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This explains why libm isn't linked in by default, but math was standard from C89 and before that, K&R had de facto standardized it, so your "stdmath" remark doesn't make sense. –  larsmans Nov 14 '11 at 9:36

An explanation is given here:

So if your program is using math functions and including math.h, then you need to explicitly link the math library by passing the -lm flag. The reason for this particular separation is that mathematicians are very picky about the way their math is being computed and they may want to use their own implementation of the math functions instead of the standard implementation. If the math functions were lumped into libc.a it wouldn't be possible to do that.

[Edit]

I'm not sure I agree with this, though. If you have a library which provides, say, sqrt(), and you pass it before the standard library, a Unix linker will take your version, right?

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I don't think there's a guarantee that that'll happen; you might end up with a symbol conflict instead. It would probably depend on the linker and the layout of library. I still find that reason to be weak; if you're making a custom sqrt function, you really shouldn't give it the same name as the standard sqrt function, even if it does the same thing... –  ephemient Jun 23 '09 at 20:45
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Indeed, making your own function (non-static) named sqrt results in a program with undefined behavior. –  R.. Aug 1 '10 at 20:07

stdio is part of the standard C library which, by default, gcc will link against.

The math function implementations are in a separate libm file that is not linked to by default so you have to specify it -lm. By the way, there is no relation between those header files and library files.

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he knows that..he is asking why –  Evan Teran Jun 23 '09 at 17:14
    
That does not explain "why"? –  anon Jun 23 '09 at 17:16
    
He says why. Simon explains that some libraries are linked to by default, like stdio whereas the math library is not linked to by default so it has to be specified. –  mnuzzo Jun 23 '09 at 17:17
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I would say that the nature of the question is asking why libm is not linked by default (or even seperate from libc) since its contents are largely part of the c standard library. –  Evan Teran Jun 23 '09 at 17:21

I think it's kind of arbitrary. You have to draw a line somewhere (which libraries are default and which need to be specified).

It gives you the opportunity to replace it with a different one that has the same functions, but I don't think it's very common to do so.

EDIT: (from my own comments): I think gcc does this to maintain backwards compatibility with the original cc. My guess for why cc does this is because of build time -- cc was written for machines with far less power than we have now. A lot of programs have no floating-point math and they probably took every library that wasn't commonly used out of the default. I'm guessing that the build time of the UNIX OS and the tools that go along with it were the driving force.

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i think the mentality behind the question is that the contents of libm are largely part of the standard C library, why aren't they in libc? –  Evan Teran Jun 23 '09 at 17:15
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The why for gcc is to maintain compatibility with the original cc in AT&T Unix. I used 3B2s in 1988 and you had to -lm to get math. It seemed completely arbitrary to me at the time. In Visual Studio, I don't remember ever having to add math, but you have to add other seemingly c-runtime libraries sometimes. I assume that the compiler vendors have a reason (build time?), but right now, I bet gcc is just trying to be backwards compatible. –  Lou Franco Jun 23 '09 at 17:20

There's a thorough discussion of linking to external libraries in An Introduction to GCC - Linking with external libraries. If a library is a member of the standard libraries (like stdio), then you don't need to specify to the compiler (really the linker) to link them.

EDIT: After reading some of the other answers and comments, I think the libc.a reference and the libm reference that it links to both have a lot to say about why the two are separate.

Note that many of the functions in 'libm.a' (the math library) are defined in 'math.h' but are not present in libc.a. Some are, which may get confusing, but the rule of thumb is this--the C library contains those functions that ANSI dictates must exist, so that you don't need the -lm if you only use ANSI functions. In contrast, `libm.a' contains more functions and supports additional functionality such as the matherr call-back and compliance to several alternative standards of behavior in case of FP errors. See section libm, for more details.

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Which doesn't answer the question of why you have to link in the match libraries separately. Obviously you want to have to link OpenGL libraries separately, but arguably the math libraries are generally useful. –  David Thornley Jun 23 '09 at 17:33
    
@David: Right you are. It wasn't clear to me from the question that this was the bit that the OP was asking about. I was editing my answer as you commented. –  Bill the Lizard Jun 23 '09 at 17:45

If I put stdlib.h or stdio.h, I don't have to link those but I have to link when I compile:

stdlib.h, stdio.h are the header files. You include them for your convenience. They only forecast what symbols will become available if you link in the proper library. The implementations are in the library files, that's where the functions really live.

Including math.h is only the first step to gaining access to all the math functions.

Also, you don't have to link against libm if you don't use it's functions, even if you do a #include <math.h> which is only an informational step for you, for the compiler about the symbols.

stdlib.h, stdio.h refer to functions available in libc, which happens to be always linked in so that the user doesn't have to do it himself.

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I would guess that it is a way to make apps which don't use it at all perform slightly better. Here's my thinking on this.

x86 OSes (and I imagine others) need to store FPU state on context switch. However, most OSes only bother to save/restore this state after the app attempts to use the FPU for the first time.

In addition to this, there is probably some basic code in the math library which will set the FPU to a sane base state when the library is loaded.

So, if you don't link in any math code at all, none of this will happen, therefore the OS doesn't have to save/restore any FPU state at all, making context switches slightly more efficient.

Just a guess though.

EDIT: in response to some of the comments, the same base premise still applies to non-FPU cases (the premise being that it was to make apps which didn't make use libm perform slightly better).

For example, if there is a soft-FPU which was likley in the early days of C. Then having libm separate could prevent a lot of large (and slow if it was used) code from unnecessarily being linked in.

In addition, if there is only static linking available, then a similar argument applies that it would keep executable sizes and compile times down.

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If you don't link with libm but touch the x87 FPU through other means (operations on floats, for example), the x86 kernel does need to save FPU state. I don't think this is a very good guess... –  ephemient Jun 23 '09 at 17:20
    
of course if you manually use the FPU the kernel will still need to save/restore its state. I was saying that if you never use it (including not using libm) then it wont have to. –  Evan Teran Jun 23 '09 at 17:24
    
Really it can very highly depend on the kernel. The math library the kernel uses could have a save_FPU_on_switch() function that turns it on, while others just detect if the FPU was touched. –  Earlz Jun 23 '09 at 17:25
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If I recall correctly, the whole issue long predates floating point coprocessors even being on microprocessors. –  Nosredna Jun 23 '09 at 17:27
    
@earlz: the approach of having the math library request saving would be a terrible design. What if they use the FPU by some other means? The only sane approach (besides just always saving/restoring) would be to detect usage and then start saving/restoring. –  Evan Teran Jun 23 '09 at 18:14

As ephemient said, the C library libc is linked by default and this library contains the implementations of stdlib.h, stdio.h and several other standard header files. Just to add to it, according to "An Introduction to GCC" the linker command for a basic "Hello World" program in C is as below:

ld -dynamic-linker /lib/ld-linux.so.2 /usr/lib/crt1.o 
/usr/lib/crti.o /usr/libgcc-lib /i686/3.3.1/crtbegin.o
-L/usr/lib/gcc-lib/i686/3.3.1 hello.o -lgcc -lgcc_eh -lc 
-lgcc -lgcc_eh /usr/lib/gcc-lib/i686/3.3.1/crtend.o /usr/lib/crtn.o

Notice the option -lc in the third line that links the C library.

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