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In configure.ac the system type is generally used by one or more
case
statements to select system-specifics. Shell wildcards can
be used to match a group of system types.
For example, an extra assembler code object file could be chosen, giving
access to a CPU cycle counter register. $(CYCLE_OBJ)
in the
following would be used in a makefile to add the object to a
program or library.
case $host in alpha*-*-*) CYCLE_OBJ=rpcc.o ;; i?86-*-*) CYCLE_OBJ=rdtsc.o ;; *) CYCLE_OBJ= ;; esac AC_SUBST([CYCLE_OBJ])
AC_CONFIG_LINKS
(see Configuration Links) is another good way
to select variant source files, for example optimized code for some
CPUs. The configured CPU type doesn't always indicate exact CPU types,
so some runtime capability checks may be necessary too.
case $host in alpha*-*-*) AC_CONFIG_LINKS([dither.c:alpha/dither.c]) ;; powerpc*-*-*) AC_CONFIG_LINKS([dither.c:powerpc/dither.c]) ;; *-*-*) AC_CONFIG_LINKS([dither.c:generic/dither.c]) ;; esac
The host system type can also be used to find cross-compilation tools
with AC_CHECK_TOOL
(see Generic Programs).
The above examples all show `$host', since this is where the code is going to run. Only rarely is it necessary to test `$build' (which is where the build is being done).
Whenever you're tempted to use `$host' it's worth considering whether some sort of probe would be better. New system types come along periodically or previously missing features are added. Well-written probes can adapt themselves to such things, but hard-coded lists of names can't. Here are some guidelines,
`$target' is for use by a package creating a compiler or similar. For ordinary packages it's meaningless and should not be used. It indicates what the created compiler should generate code for, if it can cross-compile. `$target' generally selects various hard-coded CPU and system conventions, since usually the compiler or tools under construction themselves determine how the target works.