After you've unpacked a Cabal package, you can build it
by moving into the root directory of the package and using the
Setup.hs
or Setup.lhs
script there:
runhaskell Setup.hs
[command
] [option
...]
where runhaskell
might be
runhugs, runghc or
runnhc. The command
argument selects a particular step in the build/install process.
You can also get a summary of the command syntax with
runhaskell Setup.hs
--help
Example 5. Building and installing a system package
runhaskell Setup.hs configure --ghc runhaskell Setup.hs build runhaskell Setup.hs install
The first line readies the system to build the tool using GHC; for example, it checks that GHC exists on the system. The second line performs the actual building, while the last both copies the build results to some permanent place and registers the package with GHC.
Example 6. Building and installing a user package
runhaskell Setup.hs configure --ghc --user --prefix=$HOME runhaskell Setup.hs build runhaskell Setup.hs install
The package may use packages from the user's package database
as well as the global one (--user
), is installed
under the user's home directory (--prefix
),
and is registered in the user's package database
(--user
).
Example 7. Creating a binary package
When creating binary packages (e.g. for RedHat or Debian) one needs to create a tarball that can be sent to another system for unpacking in the root directory:
runhaskell Setup.hs configure --ghc --prefix=/usr runhaskell Setup.hs build runhaskell Setup.hs copy --destdir=/tmp/mypkg (cd /tmp/mypkg; tar cf - .) | gzip -9 >mypkg.tar.gz
If the package contains a library, you need two additional steps:
runhaskell Setup.hs register --gen-script runhaskell Setup.hs unregister --gen-script
This creates shell scripts register.sh
and unregister.sh
, which must also be sent
to the target system. After unpacking there, the package must be
registered by running the register.sh
script.
The unregister.sh
script would be used
in the uninstall procedure of the package. Similar steps may
be used for creating binary packages for Windows.
The following options are understood by all commands:
--help
, -h
or
-?
List the available options for the command.
--verbose
=n
or
-v
n
Set the verbosity level (0-5). The normal level is 1;
a missing n
defaults to 3.
The various commands and the additional options they support
are described below. In the simple build infrastructure, any
other options will be reported as errors, except in the case of
the configure
command.
Prepare to build the package. Typically, this step checks that the target platform is capable of building the package, and discovers platform-specific features that are needed during the build.
The user may also adjust the behaviour of later stages using the options listed in the following subsections. In the simple build infrastructure, the values supplied via these options are recorded in a private file read by later stages.
If a user-supplied configure
script is run (see Section 2.3, “System-dependent parameters”
or Section 2.4, “More complex packages”), it is passed the
--with-hc
, --with-hc-pkg
,
--prefix
, --bindir
,
--libdir
, --datadir
and
--libexecdir
options, plus any unrecognized
options.
The following options govern the programs used to process the source files of a package:
--ghc
or -g
, --nhc
or -n
, --hugs
Specify which Haskell implementation to use to build the package. At most one of these flags may be given. If none is given, the implementation under which the setup script was compiled or interpreted is used.
--with-compiler
=path
or -w
path
Specify the path to a particular compiler. If given, this must match the implementation selected above. The default is to search for the usual name of the selected implementation.
--with-hc-pkg
=path
Specify the path to the package tool, e.g. ghc-pkg.
--with-haddock
=path
Specify the path to haddock.
--with-happy
=path
Specify the path to happy.
--with-alex
=path
Specify the path to alex.
--with-hsc2hs
=path
Specify the path to hsc2hs.
--with-c2hs
=path
Specify the path to c2hs.
--with-greencard
=path
Specify the path to greencard.
--with-cpphs
=path
Specify the path to cpphs.
The following options govern the location of installed files from a package:
--prefix
=dir
The root of the installation, for example
/usr/local
on a Unix system, or
C:\Program Files
on a Windows system.
The other installation paths are usually subdirectories of
prefix
, but they don't have
to be.
--bindir
=dir
Executables that the user might invoke are installed here.
--libdir
=dir
Object-code libraries are installed here.
--libsubdir
=dir
A subdirectory of libdir
in which libraries are actually installed. For example,
in the simple build system on Unix, the default
libdir
is
/usr/local/lib
, and
libsubdir
contains the package
identifier and compiler,
e.g. mypkg-0.2/ghc-6.4
, so libraries
would be installed in
/usr/local/lib/mypkg-0.2/ghc-6.4
.
Not all build systems make use of
libsubdir
, in particular the
Distribution.Make system does not.
--datadir
=dir
Architecture-independent data files are installed here.
--datasubdir
=dir
A subdirectory of datadir
in which data files are actually installed. This option
is similar to --libsubdir
in that
not all build systems make use of it.
--libexecdir
=dir
Executables that are not expected to be invoked directly by the user are installed here.
For the simple build system, the following defaults apply:
Option | Windows Default | Unix Default |
---|---|---|
--prefix | C:\Program Files | /usr/local |
--bindir | $prefix\Haskell\bin | $prefix/bin |
--libdir | $prefix\Haskell | $prefix/lib |
--libsubdir (Hugs) | hugs\packages\$pkg | hugs/packages/$pkg |
--libsubdir (others) | $pkgid\$compiler | $pkgid/$compiler |
--datadir (executable) | $prefix\Haskell | $prefix/share |
--datadir (library) | C:\Program Files\Common Files | $prefix/share |
--datasubdir | $pkgid | $pkgid |
--libexecdir | $prefix\$pkgid | $prefix/libexec |
The following strings are substituted into directory names:
$prefix
The value of prefix
$pkgid
The full package identifier, e.g. pkg-0.1
$compiler
The compiler and version, e.g. ghc-6.4.1
$pkg
The name of the package only
$version
The version of the package
On Windows (and perhaps other OSs), it is possible
to query the pathname of the running binary. This means
that we can construct an installable executable package
that is independent of its absolute install location.
The executable can find its auxiliary files by finding its
own path and knowing the location of the other files relative
to bindir
. Prefix-independence is
particularly useful: it means the user can choose the install
location (i.e. the value of prefix
)
at install-time, rather than having to bake the path into
the binary when it is built.
In order to achieve this, we require
that for an executable on Windows, all
of bindir
,
libdir
,
datadir
and
libexecdir
begin with
$prefix
. If this is not the case
then the compiled executable will have baked in
all absolute paths.
The application need do nothing special to achieve
prefix-independence. If it finds any files using
getDataFileName
and the other functions
provided for the purpose (see Section 2.2, “Accessing data files from package code”),
the files will be accessed relative to the location of the
current executable.
A library cannot (currently) be prefix-independent, because it will be linked into an executable whose filesystem location bears no relation to the library package.
--user
Allow dependencies to be satisfied by the user package database, in addition to the global database.
This also implies a default of --user
for any subsequent install
command,
as packages registered in the global database should not
depend on packages registered in a user's database.
--global
(default) Dependencies must be satisfied by the global package database.
--enable-library-profiling
or
-p
Request that an additional version of the library with profiling features enabled be built and installed (only for implementations that support profiling).
--disable-library-profiling
(default) Do not generate an additional profiling version of the library.
--enable-executable-profiling
Any executables generated should have profiling enabled (only for implementations that support profiling). For this to work, all libraries used by these executables must also have been built with profiling support.
--disable-executable-profiling
(default) Do not enable profiling in generated executables.
In the simple build infrastructure, an additional option is recognized:
--scratchdir
=dir
or
-b
dir
Specify the directory into which the package will be
built (default: dist/build
).
Perform any preprocessing or compilation needed to make this package ready for installation.
Build the interface documentation for a library using haddock.
This command takes the following option:
Copy the files into the install locations and (for library packages) register the package with the compiler, i.e. make the modules it contains available to programs.
The install locations are determined by options to
setup configure
(see Section 3.1.2, “Installation paths”).
This command takes the following options:
--global
Register this package in the system-wide database.
(This is the default, unless the --user
option was supplied to the configure
command.)
--user
Register this package in the user's local package database.
(This is the default if the --user
option was supplied to the configure
command.)
Copy the files without registering them. This command is mainly of use to those creating binary packages.
This command takes the following option:
--destdir
=path
Specify the directory under which to place installed files. If this is not given, then the root directory is assumed.
Register this package with the compiler, i.e. make the
modules it contains available to programs. This only makes sense
for library packages. Note that the install
command incorporates this action. The main use of this
separate command is in the post-installation step for a binary
package.
This command takes the following options:
--global
Register this package in the system-wide database. (This is the default.)
--user
Register this package in the user's local package database.
--gen-script
Instead of registering the package, generate a script
containing commands to perform the registration. On Unix,
this file is called register.sh
, on
Windows, register.bat
. This script
might be included in a binary bundle, to be run after the
bundle is unpacked on the target system.
--inplace
Registers the package for use directly from the build tree, without needing to install it. This can be useful for testing: there's no need to install the package after modifying it, just recompile and test.
This flag does not create a build-tree-local package database. It still registers the package in one of the user or global databases.
However, there are some caveats. It only works with GHC (currently). It only works if your package doesn't depend on having any supplemental files installed - plain Haskell libraries should be fine.
--with-hc-pkg
=path
Specify the path to the package tool, e.g.
ghc-pkg. This overrides the
hc-pkg
tool discovered during
configure.
Deregister this package with the compiler.
This command takes the following options:
--global
Deregister this package in the system-wide database. (This is the default.)
--user
Deregister this package in the user's local package database.
--gen-script
Instead of deregistering the package, generate a script
containing commands to perform the deregistration. On Unix,
this file is called unregister.sh
, on
Windows, unregister.bat
. This script
might be included in a binary bundle, to be run on the
target system.
Remove any local files created during the
configure
, build
,
haddock
, register
or
unregister
steps, and also any files and
directories listed in the extra-tmp-files
field.
Run the test suite specified by the
runTests
field of
Distribution.Simple.UserHooks
. See Distribution.Simple
for information about creating hooks and using
defaultMainWithHooks
.
Create a system- and compiler-independent source distribution
in a file
in the package
-version
.tar.gzdist
subdirectory, for distribution
to package builders. When unpacked, the commands listed in this
section will be available.
The files placed in this distribution are the package
description file, the setup script, the sources of the modules
named in the package description file, and files named in the
license-file
, main-is
,
c-sources
, data-files
and
extra-source-files
fields.
This command takes the following option:
--snapshot
Append today's date
(in YYYYMMDD
form) to the version
number for the generated source package. The original
package is unaffected.