On many systems, GNU make is available simply as
make. On others, it is
gmake. So, first check if
make refers to GNU make:
# If the first line includes "GNU Make", you have GNU Make. make -v
Further instructions will assume
make refers to GNU Make. If that's not
the case, you'll need to replace
Now build the Chapel compiler:
cd $CHPL_HOME make
Parallel builds such as
make -j 6 are also supported.
If everything works as intended, you ought to see:
each of the compiler source subdirectories being compiled
the compiler binary getting linked and stored as:
the runtime support libraries being compiled, archived, and stored in a configuration-specific subdirectory under:
If you get an error or failure during the make process, first double-check that you have the required prerequisites (see Chapel Prerequisites). If you do, please submit a bug report for the failure and any workaround that you come up with, through Reporting Chapel Issues
Note that each make command only builds the compiler and runtime for
the current set of
CHPL_ environment variables defined by (and
inferred for) your environment. Thus, while the directory structure
above supports the ability to have multiple versions of the compiler
and runtime built simultaneously, only one version will be created for
each make command. To support additional host/target platforms,
host/target compilers, or threading/communication layers, you will
need to reset your environment variables and re-make.
After a successful build, you should be able to run the compiler and display its help message using:
In which case, you will be ready to move on to compiling with the Chapel compiler (see Compiling Chapel Programs). The rest of this file gives more information about Chapel's Makefiles for advanced users or developers of Chapel.
Currently supported platforms include 32- and 64-bit Linux, Mac OS X, Cygwin (Windows), SunOS, a variety of current Cray platforms, and a few systems by other vendors. Most UNIX-based environments ought to support Chapel (subject to the assumptions in Chapel Prerequisites), but may not be supported "out-of-the-box" by our current Makefile structure. See the section below on platform-specific settings for more information on adding support for additional UNIX-compatible environments.
Note that a single Chapel installation can simultaneously support
Chapel for multiple platforms and compiler options because all
platform-specific binary files and executables are stored in
subdirectories named by
CHPL_ environment variables.
The Chapel sources are structured so that a GNU-compatible make utility can be used in any source directory to build the sources contained in that directory and its subdirectories. All of these Makefiles support the following targets:
Target Action (nothing) default all Build the appropriate output files e.g. objects, libraries, executables clean Remove the intermediate files for this configuration cleanall Remove the intermediate files for all configurations clobber Remove everything created by the Makefiles
Each target processes all subdirectories then the current directory.
The Chapel makefiles have a few options that enable or disable optimization, debugging support, profiling, and backend C compiler warnings. The variables are described below. Set the value to 1 to enable the feature.
Option Effect DEBUG Generate debug information (e.g. add -g to C compiler). OPTIMIZE Enable optimizations (e.g. add -O3 to C compiler). PROFILE Enable profiling support (e.g. add -pg to C compiler). WARNINGS Promote backend C compiler warnings to errors.
The structure of Chapel's Makefiles is designed to factor any
compiler-specific settings in
$CHPL_HOST_COMPILER for the compiler sources and
$CHPL_TARGET_COMPILER for the runtime sources and generated code.
Refer to Setting up Your Environment for Chapel for more information about these variables and
their default settings.
In addition, any architecture-specific settings are defined in
$CHPL_HOST_PLATFORM for the compiler sources and
$CHPL_TARGET_PLATFORM for the runtime sources and generated code.
Again, Setting up Your Environment for Chapel details these variables and their default
If you try making the compiler and runtime for an unknown platform, it
will assume that you want to use gcc/g++ to compile the code and that
you require no platform-specific settings. You can add support for a
new build environment by creating
Makefile.<platform> files and setting your environment variables to
refer to those files. If you do develop new build environment support
that you would like to contribute back to the community, we encourage
you to send your changes back to us at: firstname.lastname@example.org