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2.5 Make

2.5.1 What is make?

When you are working on a simple program with only one or two source files, typing in

    % cc file1.c file2.c

is not too bad, but it quickly becomes very tedious when there are several files--and it can take a while to compile, too.

One way to get around this is to use object files and only recompile the source file if the source code has changed. So we could have something like:

    % cc file1.o file2.o ... file37.c ...

if we had changed file37.c, but not any of the others, since the last time we compiled. This may speed up the compilation quite a bit, but does not solve the typing problem.

Or we could write a shell script to solve the typing problem, but it would have to re-compile everything, making it very inefficient on a large project.

What happens if we have hundreds of source files lying about? What if we are working in a team with other people who forget to tell us when they have changed one of their source files that we use?

Perhaps we could put the two solutions together and write something like a shell script that would contain some kind of magic rule saying when a source file needs compiling. Now all we need now is a program that can understand these rules, as it is a bit too complicated for the shell.

This program is called make. It reads in a file, called a makefile, that tells it how different files depend on each other, and works out which files need to be re-compiled and which ones do not. For example, a rule could say something like ``if fromboz.o is older than fromboz.c, that means someone must have changed fromboz.c, so it needs to be re-compiled.'' The makefile also has rules telling make how to re-compile the source file, making it a much more powerful tool.

Makefiles are typically kept in the same directory as the source they apply to, and can be called makefile, Makefile or MAKEFILE. Most programmers use the name Makefile, as this puts it near the top of a directory listing, where it can easily be seen. [1]

2.5.2 Example of using make

Here is a very simple make file:

    foo: foo.c
        cc -o foo foo.c

It consists of two lines, a dependency line and a creation line.

The dependency line here consists of the name of the program (known as the target), followed by a colon, then whitespace, then the name of the source file. When make reads this line, it looks to see if foo exists; if it exists, it compares the time foo was last modified to the time foo.c was last modified. If foo does not exist, or is older than foo.c, it then looks at the creation line to find out what to do. In other words, this is the rule for working out when foo.c needs to be re-compiled.

The creation line starts with a tab (press the tab key) and then the command you would type to create foo if you were doing it at a command prompt. If foo is out of date, or does not exist, make then executes this command to create it. In other words, this is the rule which tells make how to re-compile foo.c.

So, when you type make, it will make sure that foo is up to date with respect to your latest changes to foo.c. This principle can be extended to Makefiles with hundreds of targets--in fact, on FreeBSD, it is possible to compile the entire operating system just by typing make world in the appropriate directory!

Another useful property of makefiles is that the targets do not have to be programs. For instance, we could have a make file that looks like this:

    foo: foo.c
        cc -o foo foo.c
    
    install:
        cp foo /home/me

We can tell make which target we want to make by typing:

    % make target

make will then only look at that target and ignore any others. For example, if we type make foo with the makefile above, make will ignore the install target.

If we just type make on its own, make will always look at the first target and then stop without looking at any others. So if we typed make here, it will just go to the foo target, re-compile foo if necessary, and then stop without going on to the install target.

Notice that the install target does not actually depend on anything! This means that the command on the following line is always executed when we try to make that target by typing make install. In this case, it will copy foo into the user's home directory. This is often used by application makefiles, so that the application can be installed in the correct directory when it has been correctly compiled.

This is a slightly confusing subject to try to explain. If you do not quite understand how make works, the best thing to do is to write a simple program like ``hello world'' and a make file like the one above and experiment. Then progress to using more than one source file, or having the source file include a header file. The touch command is very useful here--it changes the date on a file without you having to edit it.

2.5.3 Make and include-files

C code often starts with a list of files to include, for example stdio.h. Some of these files are system-include files, some of them are from the project you are now working on:

    #include <stdio.h>
    #include "foo.h"
    
    int main(....

To make sure that this file is recompiled the moment foo.h is changed, you have to add it in your Makefile:

    foo: foo.c foo.h

The moment your project is getting bigger and you have more and more own include-files to maintain, it will be a pain to keep track of all include files and the files which are depending on it. If you change an include-file but forget to recompile all the files which are depending on it, the results will be devastating. gcc has an option to analyze your files and to produce a list of include-files and their dependencies: -MM.

If you add this to your Makefile:

    depend:
        gcc -E -MM *.c > .depend

and run make depend, the file .depend will appear with a list of object-files, C-files and the include-files:

    foo.o: foo.c foo.h

If you change foo.h, next time you run make all files depending on foo.h will be recompiled.

Do not forget to run make depend each time you add an include-file to one of your files.

2.5.4 FreeBSD Makefiles

Makefiles can be rather complicated to write. Fortunately, BSD-based systems like FreeBSD come with some very powerful ones as part of the system. One very good example of this is the FreeBSD ports system. Here is the essential part of a typical ports Makefile:

    MASTER_SITES=   ftp://freefall.cdrom.com/pub/FreeBSD/LOCAL_PORTS/
    DISTFILES=      scheme-microcode+dist-7.3-freebsd.tgz
    
    .include <bsd.port.mk>

Now, if we go to the directory for this port and type make, the following happens:

  1. A check is made to see if the source code for this port is already on the system.

  2. If it is not, an FTP connection to the URL in MASTER_SITES is set up to download the source.

  3. The checksum for the source is calculated and compared it with one for a known, good, copy of the source. This is to make sure that the source was not corrupted while in transit.

  4. Any changes required to make the source work on FreeBSD are applied--this is known as patching.

  5. Any special configuration needed for the source is done. (Many Unix program distributions try to work out which version of Unix they are being compiled on and which optional Unix features are present--this is where they are given the information in the FreeBSD ports scenario).

  6. The source code for the program is compiled. In effect, we change to the directory where the source was unpacked and do make--the program's own make file has the necessary information to build the program.

  7. We now have a compiled version of the program. If we wish, we can test it now; when we feel confident about the program, we can type make install. This will cause the program and any supporting files it needs to be copied into the correct location; an entry is also made into a package database, so that the port can easily be uninstalled later if we change our mind about it.

Now I think you will agree that is rather impressive for a four line script!

The secret lies in the last line, which tells make to look in the system makefile called bsd.port.mk. It is easy to overlook this line, but this is where all the clever stuff comes from--someone has written a makefile that tells make to do all the things above (plus a couple of other things I did not mention, including handling any errors that may occur) and anyone can get access to that just by putting a single line in their own make file!

If you want to have a look at these system makefiles, they are in /usr/share/mk, but it is probably best to wait until you have had a bit of practice with makefiles, as they are very complicated (and if you do look at them, make sure you have a flask of strong coffee handy!)

2.5.5 More advanced uses of make

Make is a very powerful tool, and can do much more than the simple example above shows. Unfortunately, there are several different versions of make, and they all differ considerably. The best way to learn what they can do is probably to read the documentation--hopefully this introduction will have given you a base from which you can do this.

The version of make that comes with FreeBSD is the Berkeley make; there is a tutorial for it in /usr/share/doc/psd/12.make. To view it, do

    % zmore paper.ascii.gz

in that directory.

Many applications in the ports use GNU make, which has a very good set of ``info'' pages. If you have installed any of these ports, GNU make will automatically have been installed as gmake. It is also available as a port and package in its own right.

To view the info pages for GNU make, you will have to edit the dir file in the /usr/local/info directory to add an entry for it. This involves adding a line like

     * Make: (make).                 The GNU Make utility.

to the file. Once you have done this, you can type info and then select make from the menu (or in Emacs, do C-h i).

Notes

[1]

They do not use the MAKEFILE form as block capitals are often used for documentation files like README.

This, and other documents, can be downloaded from ftp://ftp.FreeBSD.org/pub/FreeBSD/doc/.

For questions about FreeBSD, read the documentation before contacting <questions@FreeBSD.org>.
For questions about this documentation, e-mail <doc@FreeBSD.org>.




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