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|
.. _packages:
Packages
========
.. index::
single: packages
A package is a library of Haskell modules known to the compiler. GHC
comes with several packages: see the accompanying `library
documentation <../libraries/index.html>`__. More packages to install can
be obtained from
`HackageDB <http://hackage.haskell.org/packages/hackage.html>`__.
Using a package couldn't be simpler: if you're using ``--make`` or GHCi,
then most of the installed packages will be automatically available to
your program without any further options. The exceptions to this rule
are covered below in :ref:`using-packages`.
Building your own packages is also quite straightforward: we provide the
`Cabal <http://www.haskell.org/cabal/>`__ infrastructure which automates
the process of configuring, building, installing and distributing a
package. All you need to do is write a simple configuration file, put a
few files in the right places, and you have a package. See the `Cabal
documentation <http://www.haskell.org/cabal/users-guide/>`__ for
details, and also the Cabal libraries
(:cabal-ref:`Distribution.Simple.`, for example).
.. _using-packages:
Using Packages
--------------
.. index::
single: packages; using
GHC only knows about packages that are *installed*. Installed packages live in
package databases. For details on package databases and how to control which
package databases or specific set of packages are visible to GHC, see
:ref:`package-databases`.
To see which packages are currently available, use the ``ghc-pkg list`` command:
.. code-block:: none
$ ghc-pkg list
/usr/lib/ghc-6.12.1/package.conf.d:
Cabal-1.7.4
array-0.2.0.1
base-3.0.3.0
base-4.2.0.0
bin-package-db-0.0.0.0
binary-0.5.0.1
bytestring-0.9.1.4
containers-0.2.0.1
directory-1.0.0.2
(dph-base-0.4.0)
(dph-par-0.4.0)
(dph-prim-interface-0.4.0)
(dph-prim-par-0.4.0)
(dph-prim-seq-0.4.0)
(dph-seq-0.4.0)
extensible-exceptions-0.1.1.0
ffi-1.0
filepath-1.1.0.1
(ghc-6.12.1)
ghc-prim-0.1.0.0
haskeline-0.6.2
haskell98-1.0.1.0
hpc-0.5.0.2
integer-gmp-0.1.0.0
mtl-1.1.0.2
old-locale-1.0.0.1
old-time-1.0.0.1
pretty-1.0.1.0
process-1.0.1.1
random-1.0.0.1
rts-1.0.1
syb-0.1.0.0
template-haskell-2.4.0.0
terminfo-0.3.1
time-1.1.4
unix-2.3.1.0
utf8-string-0.3.4
An installed package is either *exposed* or *hidden* by default.
Packages hidden by default are listed in parentheses (e.g.
``(lang-1.0)``), or possibly in blue if your terminal supports colour,
in the output of ``ghc-pkg list``. Command-line flags, described below,
allow you to expose a hidden package or hide an exposed one. Only
modules from exposed packages may be imported by your Haskell code; if
you try to import a module from a hidden package, GHC will emit an error
message. It should be noted that a hidden package might still get linked
with your program as a dependency of an exposed package, it is only restricted
from direct imports.
If there are multiple exposed versions of a package, GHC will
prefer the latest one. Additionally, some packages may be broken: that
is, they are missing from the package database, or one of their
dependencies are broken; in this case; these packages are excluded from
the default set of packages.
.. note::
If you're using Cabal, then the exposed or hidden status of a
package is irrelevant: the available packages are instead determined by
the dependencies listed in your ``.cabal`` specification. The
exposed/hidden status of packages is only relevant when using ``ghc`` or
``ghci`` directly.
Similar to a package's hidden status is a package's trusted status. A
package can be either trusted or not trusted (distrusted). By default
packages are distrusted. This property of a package only plays a role
when compiling code using GHC's Safe Haskell feature (see
:ref:`safe-haskell`) with the ``-fpackage-trust`` flag enabled.
To see which modules are provided by a package use the ``ghc-pkg``
command (see :ref:`package-management`):
.. code-block:: none
$ ghc-pkg field network exposed-modules
exposed-modules: Network.BSD,
Network.CGI,
Network.Socket,
Network.URI,
Network
The GHC command line options that control packages are:
.. ghc-flag:: -package ⟨pkg⟩
:shortdesc: Expose package ⟨pkg⟩
:type: dynamic
:category:
This option causes the installed package ⟨pkg⟩ to be exposed. The
package ⟨pkg⟩ can be specified in full with its version number (e.g.
``network-1.0``) or the version number can be omitted in which case GHC
will automatically expose the latest non-broken version from the installed
versions of the package.
By default (when :ghc-flag:`-hide-all-packages` is not specified), GHC
exposes only one version of a package, all other versions become hidden.
If `-package` option is specified multiple times for the same package the
last one overrides the previous ones. On the other hand, if
:ghc-flag:`-hide-all-packages` is used, GHC allows you to expose multiple
versions of a package by using the `-package` option multiple times with
different versions of the same package.
`-package` supports thinning and renaming described in
:ref:`package-thinning-and-renaming`.
The ``-package ⟨pkg⟩`` option also causes package ⟨pkg⟩ to be linked into
the resulting executable or shared object. Whether a packages'
library is linked statically or dynamically is controlled by the
flag pair :ghc-flag:`-static`\/ :ghc-flag:`-dynamic`.
In :ghc-flag:`--make` mode and :ghc-flag:`--interactive` mode (see :ref:`modes`),
the compiler normally determines which packages are required by the
current Haskell modules, and links only those. In batch mode
however, the dependency information isn't available, and explicit
``-package`` options must be given when linking. The one other time
you might need to use ``-package`` to force linking a package is
when the package does not contain any Haskell modules (it might
contain a C library only, for example). In that case, GHC will never
discover a dependency on it, so it has to be mentioned explicitly.
For example, to link a program consisting of objects ``Foo.o`` and
``Main.o``, where we made use of the ``network`` package, we need to
give GHC the ``-package`` flag thus:
.. code-block:: sh
$ ghc -o myprog Foo.o Main.o -package network
The same flag is necessary even if we compiled the modules from
source, because GHC still reckons it's in batch mode:
.. code-block:: sh
$ ghc -o myprog Foo.hs Main.hs -package network
.. ghc-flag:: -package-id ⟨unit-id⟩
:shortdesc: Expose package by id ⟨unit-id⟩
:type: dynamic
:category:
Exposes a package like :ghc-flag:`-package ⟨pkg⟩`, but the package is named
by its unit ID (i.e. the value of ``id`` in its entry in the installed
package database, also previously known as an installed package ID) rather
than by name. This is a more robust way to name packages, and can be used
to select packages that would otherwise be shadowed. Cabal passes
``-package-id`` flags to GHC. ``-package-id`` supports thinning and
renaming described in :ref:`package-thinning-and-renaming`.
.. ghc-flag:: -hide-all-packages
:shortdesc: Hide all packages by default
:type: dynamic
:category:
Ignore the exposed flag on installed packages, and hide them all by
default. If you use this flag, then any packages you require
(including ``base``) need to be explicitly exposed using
:ghc-flag:`-package ⟨pkg⟩` options.
This is a good way to insulate your program from differences in the
globally exposed packages, and being explicit about package
dependencies is a Good Thing. Cabal always passes the
``-hide-all-packages`` flag to GHC, for exactly this reason.
.. ghc-flag:: -hide-package ⟨pkg⟩
:shortdesc: Hide package ⟨pkg⟩
:type: dynamic
:category:
This option does the opposite of :ghc-flag:`-package ⟨pkg⟩`: it causes the
specified package to be hidden, which means that none of its modules
will be available for import by Haskell ``import`` directives.
Note that the package might still end up being linked into the final
program, if it is a dependency (direct or indirect) of another
exposed package.
.. ghc-flag:: -ignore-package ⟨pkg⟩
:shortdesc: Ignore package ⟨pkg⟩
:type: dynamic
:category:
Causes the compiler to behave as if package ⟨pkg⟩, and any packages
that depend on ⟨pkg⟩, are not installed at all.
Saying ``-ignore-package ⟨pkg⟩`` is the same as giving
:ghc-flag:`-hide-package ⟨pkg⟩` flags for ⟨pkg⟩ and all the packages that
depend on ⟨pkg⟩. Sometimes we don't know ahead of time which packages will
be installed that depend on ⟨pkg⟩, which is when the
:ghc-flag:`-ignore-package ⟨pkg⟩` flag can be useful.
.. ghc-flag:: -no-auto-link-packages
:shortdesc: Don't automatically link in the base and rts packages.
:type: dynamic
:category:
By default, GHC will automatically link in the ``base`` and ``rts``
packages. This flag disables that behaviour.
.. ghc-flag:: -this-unit-id ⟨unit-id⟩
:shortdesc: Compile to be part of unit (i.e. package)
⟨unit-id⟩
:type: dynamic
:category:
Tells GHC that the module being compiled forms part of unit ID
⟨unit-id⟩; internally, these keys are used to determine type equality
and linker symbols. As of GHC 8.0, unit IDs must consist solely
of alphanumeric characters, dashes, underscores and periods. GHC
reserves the right to interpret other characters in a special
way in later releases.
.. ghc-flag:: -trust ⟨pkg⟩
:shortdesc: Expose package ⟨pkg⟩ and set it to be trusted
:type: dynamic
:category:
:noindex:
This option causes the install package ⟨pkg⟩ to be both exposed and
trusted by GHC. This command functions in a very similar way
to the :ghc-flag:`-package ⟨pkg⟩` command but in addition sets the selected
packages to be trusted by GHC, regardless of the contents of the
package database. (see :ref:`safe-haskell`).
.. ghc-flag:: -distrust ⟨pkg⟩
:shortdesc: Expose package ⟨pkg⟩ and set it to be distrusted
:type: dynamic
:category:
:noindex:
This option causes the install package ⟨pkg⟩ to be both exposed and
distrusted by GHC. This command functions in a very similar way to the
:ghc-flag:`-package ⟨pkg⟩` command but in addition sets the selected
packages to be distrusted by GHC, regardless of the contents of the package
database. (see :ref:`safe-haskell`).
.. ghc-flag:: -distrust-all-packages
:shortdesc: Distrust all packages by default
:type: dynamic
:category:
:noindex:
Ignore the trusted flag on installed packages, and distrust them by
default. If you use this flag and Safe Haskell then any packages you
require to be trusted (including ``base``) need to be explicitly trusted
using :ghc-flag:`-trust ⟨pkg⟩` options. This option does not change the
exposed/hidden status of a package, so it isn't equivalent to applying
:ghc-flag:`-distrust ⟨pkg⟩` to all packages on the system. (see
:ref:`safe-haskell`).
.. _package-main:
The ``main`` package
--------------------
Every complete Haskell program must define ``main`` in module ``Main`` in
package ``main``. Omitting the :ghc-flag:`-this-unit-id ⟨unit-id⟩` flag
compiles code for package ``main``. Failure to do so leads to a somewhat
obscure link-time error of the form:
.. code-block:: none
/usr/bin/ld: Undefined symbols:
_ZCMain_main_closure
.. _package-overlaps:
Consequences of packages for the Haskell language
-------------------------------------------------
It is possible that by using packages you might end up with a program
that contains two modules with the same name: perhaps you used a package
``P`` that has a *hidden* module ``M``, and there is also a module ``M`` in your
program. Or perhaps the dependencies of packages that you used contain
some overlapping modules. Perhaps the program even contains multiple
versions of a certain package, due to dependencies from other packages.
None of these scenarios gives rise to an error on its own [1]_, but they
may have some interesting consequences. For instance, if you have a type
``M.T`` from version 1 of package ``P``, then this is *not* the same as
the type ``M.T`` from version 2 of package ``P``, and GHC will report an
error if you try to use one where the other is expected.
Formally speaking, in Haskell 98, an entity (function, type or class) in
a program is uniquely identified by the pair of the module name in which
it is defined and its name. In GHC, an entity is uniquely defined by a
triple: package, module, and name.
.. _package-thinning-and-renaming:
Thinning and renaming modules
-----------------------------
When incorporating packages from multiple sources, you may end up in a
situation where multiple packages publish modules with the same name.
Previously, the only way to distinguish between these modules was to use
:ref:`package-qualified-imports`. However, since GHC 7.10, the
:ghc-flag:`-package ⟨pkg⟩` flags (and their variants) have been extended to
allow a user to explicitly control what modules a package brings into scope, by
analogy to the import lists that users can attach to module imports.
The basic syntax is that instead of specifying a package name P to the
package flag ``-package``, instead we specify both a package name and a
parenthesized, comma-separated list of module names to import. For
example, ``-package "base (Data.List, Data.Bool)"`` makes only
``Data.List`` and ``Data.Bool`` visible from package ``base``. We also
support renaming of modules, in case you need to refer to both modules
simultaneously; this is supporting by writing
``OldModName as NewModName``, e.g.
``-package "base (Data.Bool as Bool)``. You can also write
``-package "base with (Data.Bool as Bool)`` to include all of the
original bindings (e.g. the renaming is strictly additive). It's
important to specify quotes so that your shell passes the package name
and thinning/renaming list as a single argument to GHC.
Package imports with thinning/renaming do not hide other versions of the
package: e.g. if containers-0.9 is already exposed,
``-package "containers-0.8 (Data.List as ListV8)"`` will only add an
additional binding to the environment. Similarly,
``-package "base (Data.Bool as Bool)" -package "base (Data.List as List)"``
is equivalent to
``-package "base (Data.Bool as Bool, Data.List as List)"``. Literal
names must refer to modules defined by the original package, so for
example ``-package "base (Data.Bool as Bool, Bool as Baz)"`` is invalid
unless there was a ``Bool`` module defined in the original package.
Hiding a package also clears all of its renamings.
You can use renaming to provide an alternate prelude, e.g.
``-hide-all-packages -package "basic-prelude (BasicPrelude as Prelude)"``,
in lieu of the :ref:`rebindable-syntax` extension.
.. _package-databases:
Package Databases
-----------------
A package database is where the details about installed packages are
stored. It is a directory, usually called ``package.conf.d``, that
contains a file for each package, together with a binary cache of the
package data in the file :file:`package.cache`. Normally you won't need to
look at or modify the contents of a package database directly; all
management of package databases can be done through the :command:`ghc-pkg` tool
(see :ref:`package-management`).
GHC knows about two package databases in particular:
- The *global package database*, which comes with your GHC installation,
e.g. ``/usr/lib/ghc-6.12.1/package.conf.d``.
- The *user package database* private to each user. On Unix systems this will
be ``$XDG_DATA_HOME/ghc/arch-os-version/package.conf.d``, and on Windows it will
be something like
``C:\Documents And Settings\user\ghc\package.conf.d``. The
``ghc-pkg`` tool knows where this file should be located, and will
create it if it doesn't exist (see :ref:`package-management`).
*Package database stack:* Package databases are arranged in a stack structure.
When GHC starts up it adds the global and the user package databases to the
stack, in that order, unless :envvar:`GHC_PACKAGE_PATH` is specified. When
`GHC_PACKAGE_PATH` is specified then it will determine the initial database
stack. Several command line options described below can further manipulate this
initial stack. You can see GHC's effective package database stack by running
GHC with the :ghc-flag:`-v` flag.
This stack structure means that the order of :ghc-flag:`-package-db ⟨file⟩`
flags or :envvar:`GHC_PACKAGE_PATH` is important. Each substack of the stack
must be well formed (packages in databases on top of the stack can refer to
packages below, but not vice versa).
*Package shadowing:* When multiple package databases are in use it
is possible, though rarely, that the same installed package id is present in
more than one database. In that case, packages closer to the top of the stack
will override (*shadow*) those below them. If the conflicting packages are
found to be equivalent (by ABI hash comparison) then one of them replaces all
references to the other, otherwise the overridden package and all those
depending on it will be removed.
*Package version selection:* When selecting a package, GHC will search for
packages in all available databases. If multiple versions of the same package
are available the latest non-broken version will be chosen.
*Version conflict resolution:* If multiple instances of a package version
chosen by GHC are available then GHC will choose an unspecified instance.
You can control GHC's package database stack using the following
options:
.. ghc-flag:: -package-db ⟨file⟩
:shortdesc: Add ⟨file⟩ to the package db stack.
:type: dynamic
:category:
Add the package database ⟨file⟩ on top of the current stack.
.. ghc-flag:: -no-global-package-db
:shortdesc: Remove the global package db from the stack.
:type: dynamic
:category:
Remove the global package database from the package database stack.
.. ghc-flag:: -no-user-package-db
:shortdesc: Remove the user's package db from the stack.
:type: dynamic
:category:
Prevent loading of the user's local package database in the initial
stack.
.. ghc-flag:: -clear-package-db
:shortdesc: Clear the package db stack.
:type: dynamic
:category:
Reset the current package database stack. This option removes every
previously specified package database (including those read from the
:envvar:`GHC_PACKAGE_PATH` environment variable) from the package database
stack.
.. ghc-flag:: -global-package-db
:shortdesc: Add the global package db to the stack.
:type: dynamic
:category:
Add the global package database on top of the current stack. This
option can be used after :ghc-flag:`-no-global-package-db` to specify the
position in the stack where the global package database should be
loaded.
.. ghc-flag:: -user-package-db
:shortdesc: Add the user's package db to the stack.
:type: dynamic
:category:
Add the user's package database on top of the current stack. This
option can be used after :ghc-flag:`-no-user-package-db` to specify the
position in the stack where the user's package database should be
loaded.
.. _ghc-package-path:
The ``GHC_PACKAGE_PATH`` environment variable
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
.. envvar:: GHC_PACKAGE_PATH
The `GHC_PACKAGE_PATH` environment variable may be set to a
``:``\-separated (``;``\-separated on Windows) list of files containing
package databases. This list of package databases, used by GHC and ghc-pkg,
specifies a stack of package databases from top to bottom. This order was
chosen to match the behaviour of the :envvar:`PATH` environment variable
where entries earlier in the PATH override ones that come later. See
:ref:`package-databases` for details on how the package database stack is
used.
Normally `GHC_PACKAGE_PATH` replaces the default package stack. For
example, all of the following commands are equivalent, creating a stack with
db1 at the top followed by db2 (use ``;`` instead of ``:`` on Windows):
.. code-block:: none
$ ghc -clear-package-db -package-db db2.conf -package-db db1.conf
$ env GHC_PACKAGE_PATH=db1.conf:db2.conf ghc
$ env GHC_PACKAGE_PATH=db2.conf ghc -package-db db1.conf
However, if `GHC_PACKAGE_PATH` ends in a separator, the default databases
(i.e. the user and global package databases, in that order) are appended
to the path. For example, to augment the usual set of packages with a
database of your own, you could say (on Unix):
.. code-block:: none
$ export GHC_PACKAGE_PATH=$XDG_DATA_HOME/.my-ghc-packages.conf:
To check whether your `GHC_PACKAGE_PATH` setting is doing the right
thing, ``ghc-pkg list`` will list all the databases in use, in the
reverse order they are searched.
.. _package-environments:
Package environments
~~~~~~~~~~~~~~~~~~~~
.. index::
single: package environments
single: environment file
A *package environment file* is a file that tells ``ghc`` precisely which
packages should be visible. It can be used to create environments for ``ghc``
or ``ghci`` that are local to a shell session or to some file system location.
They are intended to be managed by build/package tools, to enable ``ghc`` and
``ghci`` to automatically use an environment created by the tool.
In the case of ``ghci``, the environment file will be read once, during
initialisation. If the file changes then you have to restart GHCi to reflect
the updated file.
The file contains package IDs and optionally package databases, one directive
per line:
.. code-block:: none
clear-package-db
global-package-db
user-package-db
package-db db.d/
package-id id_1
package-id id_2
...
package-id id_n
If such a package environment is found, it is equivalent to passing these
command line arguments to ``ghc``:
.. code-block:: none
-hide-all-packages
-clear-package-db
-global-package-db
-user-package-db
-package-db db.d/
-package-id id_1
-package-id id_2
...
-package-id id_n
Note the implicit :ghc-flag:`-hide-all-packages` and the fact that it is
:ghc-flag:`-package-id ⟨unit-id⟩`, not :ghc-flag:`-package ⟨pkg⟩`. This is
because the environment specifies precisely which packages should be visible.
Note that for the ``package-db`` directive, if a relative path is given it
must be relative to the location of the package environment file.
.. ghc-flag:: -package-env ⟨file⟩|⟨name⟩
:shortdesc: Use the specified package environment.
:type: dynamic
:category:
Use the package environment in ⟨file⟩, or in
``$XDG_DATA_HOME/ghc/arch-os-version/environments/⟨name⟩``
If set to ``-`` no package environment is read.
.. envvar:: GHC_ENVIRONMENT
Specifies the path to the package environment file to be used by GHC.
Overridden by the :ghc-flag:`-package-env ⟨file⟩|⟨name⟩` flag if set.
In order, ``ghc`` will look for the package environment in the following
locations:
- File ⟨file⟩ if you pass the option :ghc-flag:`-package-env ⟨file⟩|⟨name⟩`.
- File ``$XDG_DATA_HOME/ghc/arch-os-version/environments/name`` if you pass the
option ``-package-env ⟨name⟩``.
- File ⟨file⟩ if the environment variable :envvar:`GHC_ENVIRONMENT` is set to
⟨file⟩.
- File ``$XDG_DATA_HOME/ghc/arch-os-version/environments/name`` if the
environment variable :envvar:`GHC_ENVIRONMENT` is set to ⟨name⟩.
Additionally, unless ``-hide-all-packages`` is specified ``ghc`` will also
look for the package environment in the following locations:
- File ``.ghc.environment.arch-os-version`` if it exists in the current
directory or any parent directory (but not the user's home directory).
- File ``$XDG_DATA_HOME/ghc/arch-os-version/environments/default`` if it
exists.
Package environments can be modified by further command line arguments;
for example, if you specify ``-package foo`` on the command line, then
package ⟨foo⟩ will be visible even if it's not listed in the currently
active package environment.
.. _package-ids:
Installed package IDs, dependencies, and broken packages
--------------------------------------------------------
Each installed package has a unique identifier (the "installed package
ID"), which distinguishes it from all other installed packages on the
system. To see the installed package IDs associated with each installed
package, use ``ghc-pkg list -v``:
.. code-block:: none
$ ghc-pkg list -v
using cache: /usr/lib/ghc-6.12.1/package.conf.d/package.cache
/usr/lib/ghc-6.12.1/package.conf.d
Cabal-1.7.4 (Cabal-1.7.4-48f5247e06853af93593883240e11238)
array-0.2.0.1 (array-0.2.0.1-9cbf76a576b6ee9c1f880cf171a0928d)
base-3.0.3.0 (base-3.0.3.0-6cbb157b9ae852096266e113b8fac4a2)
base-4.2.0.0 (base-4.2.0.0-247bb20cde37c3ef4093ee124e04bc1c)
...
The string in parentheses after the package name is the installed
package ID: it normally begins with the package name and version, and
ends in a hash string derived from the compiled package. Dependencies
between packages are expressed in terms of installed package IDs, rather
than just packages and versions. For example, take a look at the
dependencies of the ``haskell98`` package:
.. code-block:: none
$ ghc-pkg field haskell98 depends
depends: array-0.2.0.1-9cbf76a576b6ee9c1f880cf171a0928d
base-4.2.0.0-247bb20cde37c3ef4093ee124e04bc1c
directory-1.0.0.2-f51711bc872c35ce4a453aa19c799008
old-locale-1.0.0.1-d17c9777c8ee53a0d459734e27f2b8e9
old-time-1.0.0.1-1c0d8ea38056e5087ef1e75cb0d139d1
process-1.0.1.1-d8fc6d3baf44678a29b9d59ca0ad5780
random-1.0.0.1-423d08c90f004795fd10e60384ce6561
The purpose of the installed package ID is to detect problems caused by
re-installing a package without also recompiling the packages that
depend on it. Recompiling dependencies is necessary, because the newly
compiled package may have a different ABI (Application Binary Interface)
than the previous version, even if both packages were built from the
same source code using the same compiler. With installed package IDs, a
recompiled package will have a different installed package ID from the
previous version, so packages that depended on the previous version are
now orphaned - one of their dependencies is not satisfied. Packages that
are broken in this way are shown in the ``ghc-pkg list`` output either
in red (if possible) or otherwise surrounded by braces. In the following
example, we have recompiled and reinstalled the ``filepath`` package,
and this has caused various dependencies including ``Cabal`` to break:
.. code-block:: none
$ ghc-pkg list
WARNING: there are broken packages. Run 'ghc-pkg check' for more details.
/usr/lib/ghc-6.12.1/package.conf.d:
{Cabal-1.7.4}
array-0.2.0.1
base-3.0.3.0
... etc ...
Additionally, ``ghc-pkg list`` reminds you that there are broken
packages and suggests ``ghc-pkg check``, which displays more information
about the nature of the failure:
.. code-block:: none
$ ghc-pkg check
There are problems in package ghc-6.12.1:
dependency "filepath-1.1.0.1-87511764eb0af2bce4db05e702750e63" doesn't exist
There are problems in package haskeline-0.6.2:
dependency "filepath-1.1.0.1-87511764eb0af2bce4db05e702750e63" doesn't exist
There are problems in package Cabal-1.7.4:
dependency "filepath-1.1.0.1-87511764eb0af2bce4db05e702750e63" doesn't exist
There are problems in package process-1.0.1.1:
dependency "filepath-1.1.0.1-87511764eb0af2bce4db05e702750e63" doesn't exist
There are problems in package directory-1.0.0.2:
dependency "filepath-1.1.0.1-87511764eb0af2bce4db05e702750e63" doesn't exist
The following packages are broken, either because they have a problem
listed above, or because they depend on a broken package.
ghc-6.12.1
haskeline-0.6.2
Cabal-1.7.4
process-1.0.1.1
directory-1.0.0.2
bin-package-db-0.0.0.0
hpc-0.5.0.2
haskell98-1.0.1.0
To fix the problem, you need to recompile the broken packages against
the new dependencies. The easiest way to do this is to use
``cabal-install``, or download the packages from
`HackageDB <http://hackage.haskell.org/packages/hackage.html>`__ and
build and install them as normal.
Be careful not to recompile any packages that GHC itself depends on, as
this may render the ``ghc`` package itself broken, and ``ghc`` cannot be
simply recompiled. The only way to recover from this would be to
re-install GHC.
.. _package-management:
Package management (the ``ghc-pkg`` command)
--------------------------------------------
.. index::
single: packages; management
The :command:`ghc-pkg` tool is for querying and modifying package databases. To
see what package databases are in use, use ``ghc-pkg list``. The stack of
databases that :command:`ghc-pkg` knows about can be modified using the
:envvar:`GHC_PACKAGE_PATH` environment variable (see :ref:`ghc-package-path`,
and using :ghc-flag:`-package-db ⟨file⟩` options on the :command:`ghc-pkg`
command line.
When asked to modify a database, ``ghc-pkg`` modifies the global
database by default. Specifying ``--user`` causes it to act on the user
database, or ``--package-db`` can be used to act on another database
entirely. When multiple of these options are given, the rightmost one is
used as the database to act upon.
Commands that query the package database (list, latest, describe, field,
dot) operate on the list of databases specified by the flags ``--user``,
``--global``, and ``--package-db``. If none of these flags are given,
the default is ``--global --user``.
If the environment variable :envvar:`GHC_PACKAGE_PATH` is set, and its value
does not end in a separator (``:`` on Unix, ``;`` on Windows), then the
last database is considered to be the global database, and will be
modified by default by ``ghc-pkg``. The intention here is that
``GHC_PACKAGE_PATH`` can be used to create a virtual package environment
into which Cabal packages can be installed without setting anything
other than ``GHC_PACKAGE_PATH``.
The ``ghc-pkg`` program may be run in the ways listed below. Where a
package name is required, the package can be named in full including the
version number (e.g. ``network-1.0``), or without the version number.
Naming a package without the version number matches all versions of the
package; the specified action will be applied to all the matching
packages. A package specifier that matches all version of the package
can also be written ``⟨pkg⟩ -*``, to make it clearer that multiple
packages are being matched. To match against the installed package ID
instead of just package name and version, pass the ``--ipid`` flag.
``ghc-pkg init path``
Creates a new, empty, package database at ⟨path⟩, which must not
already exist.
``ghc-pkg register ⟨file⟩``
Reads a package specification from ⟨file⟩ (which may be "``-``"
to indicate standard input), and adds it to the database of
installed packages. The syntax of ⟨file⟩ is given in
:ref:`installed-pkg-info`.
The package specification must be a package that isn't already
installed.
``ghc-pkg update ⟨file⟩``
The same as ``register``, except that if a package of the same name
is already installed, it is replaced by the new one.
``ghc-pkg unregister ⟨P⟩``
Remove the specified package from the database.
``ghc-pkg check``
Check consistency of dependencies in the package database, and
report packages that have missing dependencies.
``ghc-pkg expose ⟨P⟩``
Sets the ``exposed`` flag for package ⟨P⟩ to ``True``.
``ghc-pkg hide ⟨P⟩``
Sets the ``exposed`` flag for package ⟨P⟩ to ``False``.
``ghc-pkg trust ⟨P⟩``
Sets the ``trusted`` flag for package ⟨P⟩ to ``True``.
``ghc-pkg distrust ⟨P⟩``
Sets the ``trusted`` flag for package ⟨P⟩ to ``False``.
``ghc-pkg list [⟨P⟩] [--simple-output]``
This option displays the currently installed packages, for each of
the databases known to ``ghc-pkg``. That includes the global
database, the user's local database, and any further files specified
using the ``-f`` option on the command line.
Hidden packages (those for which the ``exposed`` flag is ``False``)
are shown in parentheses in the list of packages.
If an optional package identifier ⟨P⟩ is given, then only packages
matching that identifier are shown.
If the option ``--simple-output`` is given, then the packages are
listed on a single line separated by spaces, and the database names
are not included. This is intended to make it easier to parse the
output of ``ghc-pkg list`` using a script.
``ghc-pkg find-module ⟨M⟩ [--simple-output]``
This option lists registered packages exposing module ⟨M⟩. Examples:
::
$ ghc-pkg find-module Var
c:/fptools/validate/ghc/driver/package.conf.inplace:
(ghc-6.9.20080428)
$ ghc-pkg find-module Data.Sequence
c:/fptools/validate/ghc/driver/package.conf.inplace:
containers-0.1
Otherwise, it behaves like ``ghc-pkg list``, including options.
``ghc-pkg latest ⟨P⟩``
Prints the latest available version of package ⟨P⟩.
``ghc-pkg describe ⟨P⟩``
Emit the full description of the specified package. The description
is in the form of an ``InstalledPackageInfo``, the same as the input
file format for ``ghc-pkg register``. See :ref:`installed-pkg-info`
for details.
If the pattern matches multiple packages, the description for each
package is emitted, separated by the string ``---`` on a line by
itself.
``ghc-pkg field ⟨P⟩ ⟨field⟩[,⟨field⟩]*``
Show just a single field of the installed package description for
``P``. Multiple fields can be selected by separating them with
commas
``ghc-pkg dot``
Generate a graph of the package dependencies in a form suitable for
input for the `graphviz <http://www.graphviz.org/>`__ tools. For
example, to generate a PDF of the dependency graph:
::
ghc-pkg dot | tred | dot -Tpdf >pkgs.pdf
``ghc-pkg dump``
Emit the full description of every package, in the form of an
``InstalledPackageInfo``. Multiple package descriptions are
separated by the string ``---`` on a line by itself.
This is almost the same as ``ghc-pkg describe '*'``, except that
``ghc-pkg dump`` is intended for use by tools that parse the
results, so for example where ``ghc-pkg describe '*'`` will emit an
error if it can't find any packages that match the pattern,
``ghc-pkg dump`` will simply emit nothing.
``ghc-pkg recache``
Re-creates the binary cache file ``package.cache`` for the selected
database. This may be necessary if the cache has somehow become
out-of-sync with the contents of the database (``ghc-pkg`` will warn
you if this might be the case).
The other time when ``ghc-pkg recache`` is useful is for registering
packages manually: it is possible to register a package by simply
putting the appropriate file in the package database directory and
invoking ``ghc-pkg recache`` to update the cache. This method of
registering packages may be more convenient for automated packaging
systems.
Substring matching is supported for ⟨M⟩ in ``find-module`` and for ⟨P⟩
in ``list``, ``describe``, and ``field``, where a ``'*'`` indicates open
substring ends (``prefix*``, ``*suffix``, ``*infix*``). Examples (output
omitted):
.. code-block:: none
-- list all regex-related packages
ghc-pkg list '*regex*' --ignore-case
-- list all string-related packages
ghc-pkg list '*string*' --ignore-case
-- list OpenGL-related packages
ghc-pkg list '*gl*' --ignore-case
-- list packages exporting modules in the Data hierarchy
ghc-pkg find-module 'Data.*'
-- list packages exporting Monad modules
ghc-pkg find-module '*Monad*'
-- list names and maintainers for all packages
ghc-pkg field '*' name,maintainer
-- list location of haddock htmls for all packages
ghc-pkg field '*' haddock-html
-- dump the whole database
ghc-pkg describe '*'
Additionally, the following flags are accepted by ``ghc-pkg``:
``-f ⟨file⟩``, ``-package-db ⟨file⟩``
.. index::
single: -f; ghc-pkg option
single: -package-db; ghc-pkg option
Adds ⟨file⟩ to the stack of package databases. Additionally, ⟨file⟩
will also be the database modified by a ``register``,
``unregister``, ``expose`` or ``hide`` command, unless it is
overridden by a later ``--package-db``, ``--user`` or ``--global``
option.
``--force``
.. index::
single: --force; ghc-pkg option
Causes ``ghc-pkg`` to ignore missing dependencies, directories and
libraries when registering a package, and just go ahead and add it
anyway. This might be useful if your package installation system
needs to add the package to GHC before building and installing the
files.
``--global``
.. index::
single: --global; ghc-pkg option
Operate on the global package database (this is the default). This
flag affects the ``register``, ``update``, ``unregister``,
``expose``, and ``hide`` commands.
``--help``, ``-?``
.. index::
single: --help; ghc-pkg option
single: -?; ghc-pkg option
Outputs the command-line syntax.
``--user``
.. index::
single: --user; ghc-pkg option
Operate on the current user's local package database. This flag
affects the ``register``, ``update``, ``unregister``, ``expose``,
and ``hide`` commands.
``-v [⟨n⟩]``, ``--verbose [=⟨n⟩]``
.. index::
single: -v; ghc-pkg option
single: --verbose; ghc-pkg option
Control verbosity. Verbosity levels range from 0-2, where the
default is 1, and ``-v`` alone selects level 2.
``-V``; \ ``--version``
.. index::
single: -V; ghc-pkg option
single: --version; ghc-pkg option
Output the ``ghc-pkg`` version number.
``--ipid``, ``--unit-id``
.. index::
single: --ipid; ghc-pkg option
single: --unit-id; ghc-pkg option
Causes ``ghc-pkg`` to interpret arguments as installed unit IDs
(e.g., an identifier like
``unix-2.3.1.0-de7803f1a8cd88d2161b29b083c94240``). This is useful
if providing just the package name and version are ambiguous (in old
versions of GHC, this was guaranteed to be unique, but this
invariant no longer necessarily holds).
.. _building-packages:
Building a package from Haskell source
--------------------------------------
.. index::
single: packages; building
We don't recommend building packages the hard way. Instead, use the
`Cabal <http://www.haskell.org/cabal/users-guide/>`__ infrastructure if
possible. If your package is particularly complicated or requires a lot
of configuration, then you might have to fall back to the low-level
mechanisms, so a few hints for those brave souls follow.
You need to build an "installed package info" file for passing to
``ghc-pkg`` when installing your package. The contents of this file are
described in :ref:`installed-pkg-info`.
The Haskell code in a package may be built into one or more archive
libraries (e.g. ``libHSfoo.a``), or a single shared object (e.g.
``libHSfoo.dll/.so/.dylib``). The restriction to a single shared object
is because the package system is used to tell the compiler when it
should make an inter-shared-object call rather than an
intra-shared-object-call call (inter-shared-object calls require an
extra indirection).
- Building a static library is done by using the :command:`ar` tool, like so:
.. code-block:: sh
ar cqs libHSfoo-1.0.a A.o B.o C.o ...
where ``A.o``, ``B.o`` and so on are the compiled Haskell modules,
and ``libHSfoo.a`` is the library you wish to create. The syntax may
differ slightly on your system, so check the documentation if you run
into difficulties.
- To load a package ``foo``, GHCi can load its ``libHSfoo.a`` library
directly, but it can also load a package in the form of a single
``HSfoo.o`` file that has been pre-linked. Loading the ``.o`` file is
slightly quicker, but at the expense of having another copy of the
compiled package. The rule of thumb is that if the modules of the
package were compiled with :ghc-flag:`-split-sections` then building the
``HSfoo.o`` is worthwhile because it saves time when loading the
package into GHCi. Without :ghc-flag:`-split-sections`, there is not much
difference in load time between the ``.o`` and ``.a`` libraries, so
it is better to save the disk space and only keep the ``.a`` around.
In a GHC distribution we provide ``.o`` files for most packages
except the GHC package itself.
The ``HSfoo.o`` file is built by Cabal automatically; use
``--disable-library-for-ghci`` to disable it. To build one manually,
the following GNU ``ld`` command can be used:
.. code-block:: sh
ld -r --whole-archive -o HSfoo.o libHSfoo.a
(replace ``--whole-archive`` with ``-all_load`` on MacOS X)
- When building the package as shared library, GHC can be used to
perform the link step. This hides some of the details out the
underlying linker and provides a common interface to all shared
object variants that are supported by GHC (DLLs, ELF DSOs, and Mac OS
dylibs). The shared object must be named in specific way for two
reasons: (1) the name must contain the GHC compiler version, so that
two library variants don't collide that are compiled by different
versions of GHC and that therefore are most likely incompatible with
respect to calling conventions, (2) it must be different from the
static name otherwise we would not be able to control the linker as
precisely as necessary to make the :ghc-flag:`-static`\/:ghc-flag:`-dynamic`
flags work, see :ref:`options-linker`.
.. code-block:: sh
ghc -shared -dynamic -o libHSfoo-1.0-ghcGHCVersion.so A.o B.o C.o
Using GHC's version number in the shared object name allows different
library versions compiled by different GHC versions to be installed
in standard system locations, e.g. under \*nix ``/usr/lib``. To obtain
the version number of GHC invoke ``ghc --numeric-version`` and use
its output in place of ⟨GHCVersion⟩. See also :ref:`options-codegen`
on how object files must be prepared for shared object linking.
- When building a shared library, care must be taken to ensure that the
resulting object is named appropriately. In particular, GHC expects the
name of a shared object to have the form ``libHS<unit id>-ghc<ghc
version>.<ext>`` where *unit id* is the unit ID given during compilation via
the :ghc-flag:`-this-unit-id ⟨unit-id⟩` flag, *ghc version* is the version of
GHC that produced/consumes the object and *ext* is the host system's usual
file extension for shared objects.
To compile a module which is to be part of a new package, use the
``-package-name`` (to identify the name of the package) and
``-library-name`` (to identify the version and the version hashes of its
identities.) options (:ref:`using-packages`). Failure to use these
options when compiling a package will probably result in disaster, but
you will only discover later when you attempt to import modules from the
package. At this point GHC will complain that the package name it was
expecting the module to come from is not the same as the package name
stored in the ``.hi`` file.
It is worth noting with shared objects, when each package is built as a
single shared object file, since a reference to a shared object costs an
extra indirection, intra-package references are cheaper than
inter-package references. Of course, this applies to the ``main``
package as well.
.. _installed-pkg-info:
``InstalledPackageInfo``: a package specification
-------------------------------------------------
A package specification is a Haskell record; in particular, it is the
record :cabal-ref:`Distribution.InstalledPackageInfo.InstalledPackageInfo`
in the module Distribution.InstalledPackageInfo, which is part of the
Cabal package distributed with GHC.
An ``InstalledPackageInfo`` has a human readable/writable syntax. The
functions ``parseInstalledPackageInfo`` and ``showInstalledPackageInfo``
read and write this syntax respectively. Here's an example of the
``InstalledPackageInfo`` for the ``unix`` package:
.. code-block:: none
$ ghc-pkg describe unix
name: unix
version: 2.3.1.0
id: unix-2.3.1.0-de7803f1a8cd88d2161b29b083c94240
license: BSD3
copyright:
maintainer: libraries@haskell.org
stability:
homepage:
package-url:
description: This package gives you access to the set of operating system
services standardised by POSIX 1003.1b (or the IEEE Portable
Operating System Interface for Computing Environments -
IEEE Std. 1003.1).
.
The package is not supported under Windows (except under Cygwin).
category: System
author:
exposed: True
exposed-modules: System.Posix System.Posix.DynamicLinker.Module
System.Posix.DynamicLinker.Prim System.Posix.Directory
System.Posix.DynamicLinker System.Posix.Env System.Posix.Error
System.Posix.Files System.Posix.IO System.Posix.Process
System.Posix.Process.Internals System.Posix.Resource
System.Posix.Temp System.Posix.Terminal System.Posix.Time
System.Posix.Unistd System.Posix.User System.Posix.Signals
System.Posix.Signals.Exts System.Posix.Semaphore
System.Posix.SharedMem
hidden-modules:
trusted: False
import-dirs: /usr/lib/ghc-6.12.1/unix-2.3.1.0
library-dirs: /usr/lib/ghc-6.12.1/unix-2.3.1.0
hs-libraries: HSunix-2.3.1.0
extra-libraries: rt util dl
extra-ghci-libraries:
include-dirs: /usr/lib/ghc-6.12.1/unix-2.3.1.0/include
includes: HsUnix.h execvpe.h
depends: base-4.2.0.0-247bb20cde37c3ef4093ee124e04bc1c
hugs-options:
cc-options:
ld-options:
framework-dirs:
frameworks:
haddock-interfaces: /usr/share/doc/ghc/html/libraries/unix/unix.haddock
haddock-html: /usr/share/doc/ghc/html/libraries/unix
Here is a brief description of the syntax of this file:
A package description consists of a number of field/value pairs. A field
starts with the field name in the left-hand column followed by a
"``:``", and the value continues until the next line that begins in
the left-hand column, or the end of file.
The syntax of the value depends on the field. The various field types
are:
freeform
Any arbitrary string, no interpretation or parsing is done.
string
A sequence of non-space characters, or a sequence of arbitrary
characters surrounded by quotes ``"...."``.
string list
A sequence of strings, separated by commas. The sequence may be
empty.
In addition, there are some fields with special syntax (e.g. package
names, version, dependencies).
The allowed fields, with their types, are:
``name``
.. index::
single: name; package specification
(string) The package's name (without the version).
``id``
.. index::
single: id; package specification
(string) The installed package ID. It is up to you to choose a suitable one.
``version``
.. index::
single: version; package specification
(string) The package's version, usually in the form ``A.B`` (any number of
components are allowed).
``license``
.. index::
single: auto; package specification
(string) The type of license under which this package is
distributed. This field is a value of the
:cabal-ref:`Distribution.License.License` type.
``license-file``
.. index::
single: license-file; package specification
(optional string) The name of a file giving detailed license
information for this package.
``copyright``
.. index::
single: copyright; package specification
(optional freeform) The copyright string.
``maintainer``
.. index::
single: maintainer; package specification
(optional freeform) The email address of the package's maintainer.
``stability``
.. index::
single: stability; package specification
(optional freeform) A string describing the stability of the package
(e.g. stable, provisional or experimental).
``homepage``
.. index::
single: homepage; package specification
(optional freeform) URL of the package's home page.
``package-url``
.. index::
single: package-url; package specification
(optional freeform) URL of a downloadable distribution for this
package. The distribution should be a Cabal package.
``description``
.. index::
single: description; package specification
(optional freeform) Description of the package.
``category``
.. index::
single: category; package specification
(optional freeform) Which category the package belongs to. This
field is for use in conjunction with a future centralised package
distribution framework, tentatively titled Hackage.
``author``
.. index::
single: author; package specification
(optional freeform) Author of the package.
``exposed``
.. index::
single: exposed; package specification
(bool) Whether the package is exposed or not.
``exposed-modules``
.. index::
single: exposed-modules; package specification
(string list) modules exposed by this package.
``hidden-modules``
.. index::
single: hidden-modules; package specification
(string list) modules provided by this package, but not exposed to
the programmer. These modules cannot be imported, but they are still
subject to the overlapping constraint: no other package in the same
program may provide a module of the same name.
``reexported-modules``
.. index::
single: reexported-modules; reexport specification
Modules reexported by this package. This list takes the form of
``pkg:OldName as NewName (A@orig-pkg-0.1-HASH)``: the first portion
of the string is the user-written reexport specification (possibly
omitting the package qualifier and the renaming), while the
parenthetical is the original package which exposed the module under
are particular name. Reexported modules have a relaxed overlap
constraint: it's permissible for two packages to reexport the same
module as the same name if the reexported moduleis identical.
``trusted``
.. index::
single: trusted; package specification
(bool) Whether the package is trusted or not.
``import-dirs``
.. index::
single: import-dirs; package specification
(string list) A list of directories containing interface files
(``.hi`` files) for this package.
If the package contains profiling libraries, then the interface
files for those library modules should have the suffix ``.p_hi``. So
the package can contain both normal and profiling versions of the
same library without conflict (see also ``library_dirs`` below).
``library-dirs``
.. index::
single: library-dirs; package specification
(string list) A list of directories containing libraries for this
package.
``hs-libraries``
.. index::
single: hs-libraries; package specification
(string list) A list of libraries containing Haskell code for this
package, with the ``.a`` or ``.dll`` suffix omitted. When packages
are built as libraries, the ``lib`` prefix is also omitted.
For use with GHCi, each library should have an object file too. The
name of the object file does *not* have a ``lib`` prefix, and has
the normal object suffix for your platform.
For example, if we specify a Haskell library as ``HSfoo`` in the
package spec, then the various flavours of library that GHC actually
uses will be called:
``libHSfoo.a``
The name of the library on Unix and Windows (mingw) systems.
``HSfoo.dll``
The name of the dynamic library on Windows systems (optional).
``HSfoo.o``; \ ``HSfoo.obj``
The object version of the library used by GHCi.
``extra-libraries``
.. index::
single: extra-libraries; package specification
(string list) A list of extra libraries for this package. The
difference between ``hs-libraries`` and ``extra-libraries`` is that
``hs-libraries`` normally have several versions, to support
profiling, parallel and other build options. The various versions
are given different suffixes to distinguish them, for example the
profiling version of the standard prelude library is named
``libHSbase_p.a``, with the ``_p`` indicating that this is a
profiling version. The suffix is added automatically by GHC for
``hs-libraries`` only, no suffix is added for libraries in
``extra-libraries``.
The libraries listed in ``extra-libraries`` may be any libraries
supported by your system's linker, including dynamic libraries
(``.so`` on Unix, ``.DLL`` on Windows).
Also, ``extra-libraries`` are placed on the linker command line
after the ``hs-libraries`` for the same package. If your package has
dependencies in the other direction (i.e. ``extra-libraries``
depends on ``hs-libraries``), and the libraries are static, you
might need to make two separate packages.
``include-dirs``
.. index::
single: include-dirs; package specification
(string list) A list of directories containing C includes for this
package.
``includes``
.. index::
single: includes; package specification
(string list) A list of files to include for via-C compilations
using this package. Typically the include file(s) will contain
function prototypes for any C functions used in the package, in case
they end up being called as a result of Haskell functions from the
package being inlined.
``depends``
.. index::
single: depends; package specification
(package id list) Packages on which this package depends.
``hugs-options``
.. index::
single: hugs-options; package specification
(string list) Options to pass to Hugs for this package.
``cc-options``
.. index::
single: cc-options; package specification
(string list) Extra arguments to be added to the gcc command line
when this package is being used (only for via-C compilations).
``ld-options``
.. index::
single: ld-options; package specification
(string list) Extra arguments to be added to the ``gcc`` command
line (for linking) when this package is being used.
``framework-dirs``
.. index::
single: framework-dirs; package specification
(string list) On Darwin/MacOS X, a list of directories containing
frameworks for this package. This corresponds to the
``-framework-path`` option. It is ignored on all other platforms.
``frameworks``
.. index::
single: frameworks; package specification
(string list) On Darwin/MacOS X, a list of frameworks to link to.
This corresponds to the ``-framework`` option. Take a look at
Apple's developer documentation to find out what frameworks actually
are. This entry is ignored on all other platforms.
``haddock-interfaces``
.. index::
single: haddock-interfaces; package specification
(string list) A list of filenames containing
`Haddock <http://www.haskell.org/haddock/>`__ interface files
(``.haddock`` files) for this package.
``haddock-html``
.. index::
single: haddock-html; package specification
(optional string) The directory containing the Haddock-generated
HTML for this package.
.. [1] it used to in GHC 6.4, but not since 6.6
|