The Makefile
is the key to the build process. In its simplest form, a Makefile is a script for compiling or building the "binaries", the executable portions of a package. The Makefile can also provide a means of updating a software package without having to recompile every single source file in it, but that is a different story (or a different article).
At some point, the Makefile launches cc
or gcc
. This is actually a preprocessor, a C (or C++) compiler, and a linker, invoked in that order. This process converts the source into the binaries, the actual executables.
Invoking make usually involves just typing make. This generally builds all the necessary executable files for the package in question. However, make can also do other tasks, such as installing the files in their proper directories (make install) and removing stale object files (make clean). Running make -n permits previewing the build process, as it prints out all the commands that would be triggered by a make, without actually executing them.
Only the simplest software uses a generic Makefile. More complex installations require tailoring the Makefile according to the location of libraries, include files, and resources on your particular machine. This is especially the case when the build needs the X11
libraries to install. Imake and xmkmf accomplish this task.
An Imakefile
is, to quote the man page, a "template" Makefile. The imake utility constructs a Makefile appropriate for your system from the Imakefile. In almost all cases, however, you would run xmkmf, a shell script that invokes imake, a front end for it. Check the README or INSTALL file included in the software archive for specific instructions. (If, after dearchiving the source files, there is an Imake
file present in the base directory, this is a dead giveaway that xmkmf should be run.) Read the Imake
and xmkmf
man pages for a more detailed analysis of the procedure.
Be aware that xmkmf
and make
may need to be invoked as root, especially when doing a make install to move the binaries over to the /usr/bin
or /usr/local/bin
directories. Using make as an ordinary user without root privileges will likely result in write access denied error messages because you lack write permission to system directories. Check also that the binaries created have the proper execute permissions for you and any other appropriate users.
Invoking xmkmf uses the Imake
file to build a new Makefile appropriate for your system. You would normally invoke xmkmf with the -a argument, to automatically do a make Makefiles, make includes, and make depend. This sets the variables and defines the library locations for the compiler and linker. Sometimes, there will be no Imake
file, instead there will be an INSTALL
or configure
script that will accomplish this purpose. Note that if you run configure
, it should be invoked as ./configure to ensure that the correct configure
script in the current directory is called. In most cases, the README
file included with the distribution will explain the install procedure.
It is usually a good idea to visually inspect the Makefile
that xmkmf
or one of the install scripts builds. The Makefile will normally be correct for your system, but you may occasionally be required to "tweak" it or correct errors manually.
Installing the freshly built binaries into the appropriate system directories is usually a matter of running make install as root. The usual directories for system-wide binaries on modern Linux distributions are /usr/bin
, /usr/X11R6/bin
, and /usr/local/bin
. The preferred directory for new packages is /usr/local/bin
, as this will keep separate binaries not part of the original Linux installation.
Packages originally targeted for commercial versions of UNIX may attempt to install in the /opt
or other unfamiliar directory. This will, of course, result in an installation error if the intended installation directory does not exist. The simplest way to deal with this is to create, as root, an /opt
directory, let the package install there, then add that directory to the PATH
environmental variable. Alternatively, you may create symbolic links to the /usr/local/bin
directory.
Your general installation procedure will therefore be:
README
file and other applicable docs.INSTALL
or configure
script.Makefile
.Notes:
gcc
in the standard Makefile
included or created in the package you are installing. Some of these common options are -O2, -fomit-frame-pointer, -funroll-loops, and -mpentium (if you are running a Pentium cpu). Use caution and good sense when modifying a Makefile
!/coll
and /pack
directories. You may find it necessary to download the Pack-Collection from the above site should you ever run across one of these distributions.