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Can anyone explain how compilation works?

I can't seem to figure out how compilation works..

To be more specific, here's an example.. I'm trying to write some code in MSVC++ 6 to load a Lua state..

I've already:

  • set the additional directories for the library and include files to the right directories
  • used extern "C" (because Lua is C only or so I hear)
  • #include'd the right header files

But i'm still getting some errors in MSVC++6 about unresolved external symbols (for the Lua functions that I used).

As much as I'd like to know how to solve this problem and move on, I think it would be much better for me if I came to understand the underlying processes involved, so could anyone perhaps write a nice explanation for this? What I'm looking to know is the process.. It could look like this:

Step 1:

  • Input: Source code(s)
  • Process: Parsing (perhaps add more detail here)
  • Output: whatever is output here..

Step 2:

  • Input: Whatever was output from step 1, plus maybe whatever else is needed (libraries? DLLs? .so? .lib? )
  • Process: whatever is done with the input
  • Output: whatever is output

and so on..


Maybe this will explain what symbols are, what exactly "linking" is, what "object" code or whatever is..

Thanks.. Sorry for being such a noob..

P.S. This doesn't have to be language specific.. But feel free to express it in the language you're most comfortable in.. :)

EDIT: So anyway, I was able to get the errors resolved, it turns out that I have to manually add the .lib file to the project; simply specifying the library directory (where the .lib resides) in the IDE settings or project settings does not work..

However, the answers below have somewhat helped me understand the process better. Many thanks!.. If anyone still wants to write up a thorough guide, please do.. :)

EDIT: Just for additional reference, I found two articles by one author (Mike Diehl) to explain this quite well.. :) Examining the Compilation Process: Part 1 Examining the Compilation Process: Part 2

share|improve this question I found this somewhere, that somehow explains it to some extent.. – krebstar Feb 4 '09 at 7:01
up vote 9 down vote accepted

From source to executable is generally a two stage process for C and associated languages, although the IDE probably presents this as a single process.

1/ You code up your source and run it through the compiler. The compiler at this stage needs your source and the header files of the other stuff that you're going to link with (see below).

Compilation consists of turning your source files into object files. Object files have your compiled code and enough information to know what other stuff they need, but not where to find that other stuff (e.g., the LUA libraries).

2/ Linking, the next stage, is combining all your object files with libraries to create an executable. I won't cover dynamic linking here since that will complicate the explanation with little benefit.

Not only do you need to specify the directories where the linker can find the other code, you need to specify the actual library containing that code. The fact that you're getting unresolved externals indicates that you haven't done this.

As an example, consider the following simplified C code (xx.c) and command.

#include <bob.h>
int x = bob_fn(7);

cc -c -o xx.obj xx.c

This compiles the xx.c file to xx.obj. The bob.h contains the prototype for bob_fn() so that compilation will succeed. The -c instructs the compiler to generate an object file rather than an executable and the -o xx.obj sets the output file name.

But the actual code for bob_fn() is not in the header file but in /bob/libs/, so to link, you need something like:

cc -o xx.exe xx.obj -L/bob/libs;/usr/lib -lbob

This creates xx.exe from xx.obj, using libraries (searched for in the given paths) of the form (the lib and .so are added by the linker usually). In this example, -L sets the search path for libraries. The -l specifies a library to find for inclusion in the executable if necessary. The linker usually takes the "bob" and finds the first relevant library file in the search path specified by -L.

A library file is really a collection of object files (sort of how a zip file contains multiple other files, but not necessarily compressed) - when the first relevant occurrence of an undefined external is found, the object file is copied from the library and added to the executable just like your xx.obj file. This generally continues until there are no more unresolved externals. The 'relevant' library is a modification of the "bob" text, it may look for libbob.a, libbob.dll,, bob.a, bob.dll, and so on. The relevance is decided by the linker itself and should be documented.

How it works depends on the linker but this is basically it.

1/ All of your object files contain a list of unresolved externals that they need to have resolved. The linker puts together all these objects and fixes up the links between them (resolves as many externals as possible).

2/ Then, for every external still unresolved, the linker combs the library files looking for an object file that can satisfy the link. If it finds it, it pulls it in - this may result in further unresolved externals as the object pulled in may have its own list of externals that need to be satisfied.

3/ Repeat step 2 until there are no more unresolved externals or no possibility of resolving them from the library list (this is where your development was at, since you hadn't included the LUA library file).

The complication I mentioned earlier is dynamic linking. That's where you link with a stub of a routine (sort of a marker) rather than the actual routine, which is later resolved at load time (when you run the executable). Things such as the Windows common controls are in these DLLs so that they can change without having to relink the objects into a new executable.

share|improve this answer
Wow this is good.. I'm accepting this as the answer.. :) BTW, can you explain a bit more about the syntax you used? what does -lbob stand for in the second command? – krebstar Feb 4 '09 at 7:46
Done, although the commands I mentioned are UNIX-type commands. It's done differently in the MSVC IDE, where you set library paths and library names in the project configuration dialog boxes. – paxdiablo Feb 4 '09 at 8:42
No problem pax, you've been quite helpful :) One last thing.. So in an MSVC environment, .lib files are static libraries that must be included in the project, and .dll files are dynamic libraries that are loaded through a LoadLibrary command or similar? Is that the only difference between the two? – krebstar Feb 5 '09 at 1:32
Aside from that, are dll and lib files essentially the same? (i.e. they contain the code for the functions used in your code) – krebstar Feb 5 '09 at 1:33
From a conceptual viewpoint, I think you're right, krebstar. They just contain code/data to be added at link time (LIB) and load time (DLL). The internal file formats may be vastly different. I suspect DLLs may already be half-way converted into an EXE-type format but I may be wrong. – paxdiablo Feb 5 '09 at 2:21

Step 1 - Compiler:

  • Input: Source code file[s]
  • Process: Parsing source code and translating into machine code
  • Output: Object file[s], which consist[s] of:
    • The names of symbols which are defined in this object, and which this object file "exports"
    • The machine code associated with each symbol that's defined in this object file
    • The names of symbols which are not defined in this object file, but on which the software in this object file depends and to which it must subsequently be linked, i.e. names which this object file "imports"

Step 2 - Linking:

  • Input:
    • Object file[s] from step 1
    • Libraries of other objects (e.g. from the O/S and other software)
  • Process:
    • For each object that you want to link
    • Get the list of symbols which this object imports
    • Find these symbols in other libraries
    • Link the corresponding libraries to your object files
  • Output: a single, executable file, which includes the machine code from all all your objects, plus the objects from libraries which were imported (linked) to your objects.
share|improve this answer
ChrisW, do you know how exactly the linker finds the symbols in the other libraries? Does it only search through a specified lib file, or can it be made to scan a directory and try all lib files? Thanks.. – krebstar Feb 4 '09 at 7:43
You give it an explicit list of lib file names (and a list of directories in which those specific lib files may be found): so you need to specify/know the names of the lib files which contains the symbols on which your source depends. – ChrisW Feb 4 '09 at 7:50
Google found for me a sample program which uses Lua: ... according to this sample, the filename of the lua library file is "lua.lib". – ChrisW Feb 4 '09 at 7:53
Cool thanks ChrisW.. :) – krebstar Feb 5 '09 at 1:34

The two main steps are compilation and linking.

Compilation takes single compilation units (those are simply source files, with all the headers they include), and create object files. Now, in those object files, there are a lot of functions (and other stuff, like static data) defined at specific locations (addresses). In the next step, linking, a bit of extra information about these functions is also needed: their names. So these are also stored. A single object file can reference functions (because it wants to call them when to code is run) that are actually in other object files, but since we are dealing with a single object file here, only symbolic references (their 'names') to those other functions are stored in the object file.

Next comes linking (let's restrict ourselves to static linking here). Linking is where the object files that were created in the first step (either directly, or after they have been thrown together into a .lib file) are taken together and an executable is created. In the linking step, all those symbolic references from one object file or lib to another are resolved (if they can be), by looking up the names in the correct object, finding the address of the function, and putting the addresses in the right place.

Now, to explain something about the 'extern "C"' thing you need:

C does not have function overloading. A function is always recognizable by its name. Therefore, when you compile code as C code, only the real name of the function is stored in the object file.

C++, however, has something called 'function / method overloading'. This means that the name of a function is no longer enough to identify it. C++ compilers therefore create 'names' for functions that include the prototypes of the function (since the name plus the prototype will uniquely identify a function). This is known as 'name mangling'.

The 'extern "C"' specification is needed when you want to use a library that has been compiled as 'C' code (for example, the pre-compiled Lua binaries) from a C++ project.

For your exact problem: if it still does not work, these hints might help: * have the Lua binaries been compiled with the same version of VC++? * can you simply compile Lua yourself, either within your VC solution, or as a separate project as C++ code? * are you sure you have all the 'extern "C"' things correct?

share|improve this answer

You have to go into project setting and add a directory where you have that LUA library *.lib files somewhere on the "linker" tab. Setting called "including libraries" or something, sorry I can't look it up.

The reason you get "unresolved external symbols" is because compilation in C++ works in two stages. First, the code gets compiled, each .cpp file in it's own .obj file, then "linker" starts and join all that .obj files into .exe file. .lib file is just a bunch of .obj files merged together to make distribution of libraries just a little bit simplier. So by adding all the "#include" and extern declaration you told the compiler that somewhere it would be possible to find code with those signatures but linker can't find that code because it doesn't know where those .lib files with actual code is placed.

Make sure you have read REDME of the library, usually they have rather detailed explanation of what you had to do to include it in your code.

share|improve this answer
I tried that but it didn't work. I'll go comb the readme file again.. – krebstar Feb 4 '09 at 7:02
The directory is not enough - you need to specify the library file as well. – paxdiablo Feb 4 '09 at 8:34

You might also want to check this out: COMPILER, ASSEMBLER, LINKER AND LOADER: A BRIEF STORY.

share|improve this answer
Thanks :) might be useful sometime :) – krebstar Jun 10 '09 at 6:50

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