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Okay, until this morning I was thoroughly confused between these terms. I guess I have got the difference, hopefully.

Firstly, the confusion was that since the preprocessor already includes the header files into the code which contains the functions, what library functions does linker link to the object file produced by the assembler/compiler? Part of the confusion primarily arose due to my ignorance about the difference between a header file and a library. After a bit of googling, and stack-overflowing (is that the term? :p), I gathered that the header file mostly contains the function declarations whereas the actual implementation is in another binary file called the library (I am still not 100% sure about this).

So, suppose in the following program:-

#include<stdio.h>
int main()
{
      printf("whatever");
      return 0;
}

The preprocessor includes the contents of the header file in the code. The compiler/compiler+assembler does its work, and then finally linker combines this object file with another object file which actually has stored the way printf works.

Am I correct in my understanding? I may be way off...so could you please help me?

Thanks.

Edit:- I have alwayss wondered about the C++ STL.. it always confused me as to what it exactly is...collection of all those headers or what? Now after reading the responses, can I say that STL is an object file/something that resembles an object file?

And also, I thought where I could read the function definitions of functiosn like pow(),sqrt() etc etc. I would open the ehader files and not find anything. So, is the function definition in the library in binary unreadable form?

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The understanding you mention under the code is correct. –  Alok Save Aug 29 '12 at 12:24
    
+1 for finding the almost perfect answer for yourself by making the effort and googling. –  user529758 Aug 29 '12 at 12:26
    
and finally an executable or another library is produced.... ;) –  perilbrain Aug 29 '12 at 12:30
    
One explanation (particular to C, but C++ is pretty much the same) can be found in my C tutorial, in the chapter on headers: masters-of-the-void.com/book10.htm –  uliwitness Jan 20 at 16:29

3 Answers 3

up vote 5 down vote accepted

A C source file goes through two main stages, the preprocessor stage where the C source code is processed by the preprocessor utility which looks for preprocessor directives and performs those actions and the compilation stage where the processed C source code is then actually compiled to produce object code files.

The preprocessor is a utility that does text manipulation. It takes as input a file that contains text (usually C source code) with preprocessor directives and outputs a modified version of the file by applying the directives to the text. The file does not have to be C source code because the preprocessor is doing text manipulation. I have seen the C Preprocssor used to extend the make utility by allowing preprossor directives to be included in a make file and the output then being fed into make.

A library is a file that contains object code of various functions. It is a way to package the output from several source files when they are compiled into a single file. Many times a library file is provided along with a header file, a .h file, containing the function declarations as well as preprocessor directives. So to use the library, you include the header file provided using the #include directive and you link with the library file.

The linker is a utility that takes the various object files and library files to create the executable file. When an external or global function or variable is used the C source file, a kind of marker is used to tell the linker that the address of the function or variable needs to be inserted at that point. The C compiler only knows what is in the source it compiles and does not know what is in other files such as object files or libraries. So the linker's job is to take the various object files and libraries and to make the final connections between the use of a global function or variable in the object files and libraries and the actual object code that was generated for that global function or variable. In some cases the same global function name may be used in several different object files or libraries so the linker will normally just use the first one it comes across and issue a warning about others found.

So the basic process for a compile and link of a C program is: - preprocessor utility generates the C source to be compiled - compiler compiles the C source into object code generating a set of object files - linker links the various object files along with any libraries into executable file

The above is the basic process however when using dynamic libraries it can get more complicated especially if part of the application being generated has dynamic libraries that it is generating.

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Thanks for the detailed explanation. :) –  Nikhar Agrawal Aug 30 '12 at 7:24

Yes, almost correct. Except that the linker does not links object files, but also libraries - in thise case, it's the C standard library (libc) is what is linked to your object file. The rest of your assumptions appear to be true about the compilation stages + difference between a header and a library.

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3  
A library is an object file, or a collection of object files... –  DevSolar Aug 29 '12 at 12:25
    
@DevSolar except that it isn't. It is created from object files, but it's certainly not an object file itself. –  user529758 Aug 29 '12 at 12:26
    
@H2CO3: shared libraries are often considered object files in their own right. –  larsmans Aug 29 '12 at 12:35
    
@larsmans didn't you mean static libraries? –  user529758 Aug 29 '12 at 12:40
    
@H2CO3: no, shared libraries. Static libraries are ar archives of plain old object files. Shared libraries are "shared object" files (.so extension on Linux and some other systems). –  larsmans Aug 29 '12 at 12:42

This is an extremely common source of confusion. I think the easiest way to understand what's happening is to take a simple example. Forget about libraries for a moment and consider the following:

$ cat main.c
extern int foo( void );
int main( void ) { return foo(); }
$ cat foo.c
int foo( void ) { return 0; }
$ cc -c main.c
$ cc -c foo.c
$ cc main.o foo.o

The declaration extern int foo( void ) is performing exactly the same function as the header file of a library. foo.o is performing the function of the library. If you understand this example, and why neither cc main.c nor cc main.o work, then you understand the difference between header files and libraries.

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Thanks.. I'm not sure I completely understand this example... but that's coz I don't understand the word 'extren'. I'll do the research on it a li'l later and bug you again in case of doubts. :) –  Nikhar Agrawal Aug 30 '12 at 7:23
    
It appears that the cat Linux command is being used to create two small, simple C source code files, main.c and foo.c, each of which are first compiled and then are linked. The cc command has sufficient intelligence so that if you specify object files, the main.o and foo.o files, it will just perform a link using those files. –  Richard Chambers Aug 30 '12 at 12:31
    
cat is not creating the files, merely displaying them. –  William Pursell Aug 30 '12 at 16:59

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