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= Haskell Packaging Guidelines =
= Haskell Packaging Guidelines =
This documents the guidelines and conventions for packaging [[Haskell]] projects in Fedora.
This page documents the guidelines and conventions for packaging [[Haskell]] projects in Fedora.


[http://haskell.org/ghc GHC] (Glasgow Haskell Compiler) is the current mainstream Haskell compiler.
[http://haskell.org/ghc GHC] (Glasgow Haskell Compiler) is the current mainstream Haskell compiler.
Most Haskell packages are released on [http://hackage.haskell.org Hackage] and use the [http://www.haskell.org/cabal/ Cabal] package system.  So the current guidelines mostly focus on packaging for GHC using Cabal.


Most Haskell packages are now released on [http://hackage.haskell.org Haskage] and use the Haskell [http://www.haskell.org/cabal/ Cabal] package system.   So currently these guidelines mostly focus on packaging for GHC using Cabal.
== Spec file templates ==
Spec files in line with these templates are generated automatically by the [https://apps.fedoraproject.org/packages/cabal-rpm cabal-rpm] packaging tool
which also adds dependencies listed in the package's <code>.cabal</code> configuration file.
Most packages should then build, though for some packages
it may be necessary to specify some additional BuildRequires and/or Requires, and to check non-Haskell devel dependencies.
 
There are three types of Haskell Cabal packages: library only (Lib), binary only (Bin), and binary and library (BinLib):


== Spec file templates ==
* [http://git.fedorahosted.org/cgit/haskell-sig.git/tree/templates/ghc-Lib-pkg.spec Lib Template] ([http://git.fedorahosted.org/cgit/haskell-sig.git/plain/templates/ghc-Lib-pkg.spec plain])
There are three types of Cabal packages: binary only (Bin), library only (Lib), and binary and library (BinLib). Templates are provided for all three cases since they are slightly different:
* [http://git.fedorahosted.org/cgit/haskell-sig.git/tree/templates/Bin-pkg.spec Bin Template] ([http://git.fedorahosted.org/cgit/haskell-sig.git/plain/templates/Bin-pkg.spec plain])
* [http://git.fedorahosted.org/cgit/haskell-sig.git/tree/templates/BinLib-pkg.spec BinLib Template] ([http://git.fedorahosted.org/cgit/haskell-sig.git/plain/templates/BinLib-pkg.spec plain]).


* [http://git.fedorahosted.org/git/?p=cabal2spec.git;a=blob;f=spectemplate-ghc-bin.spec Binary Only Template]
Standardizing the packaging helps to lower the maintenance burden across Fedora's Haskell packages.
* [http://git.fedorahosted.org/git/?p=cabal2spec.git;a=blob;f=spectemplate-ghc-lib.spec Library Only Template]
* [http://git.fedorahosted.org/git/?p=cabal2spec.git;a=blob;f=spectemplate-ghc-binlib.spec Binary and Library Template].


It is strongly recommended to use <code>cabal2spec</code> to create .spec files using these templates directly from a Cabal package or .cabal file for any of the three cases.  With minor editing the .spec files should then build for most general Cabal packages: for example it may be necessary to specify BuildRequires for build dependencies and Requires for any runtime dependencies.  Please report any problems in [https://bugzilla.redhat.com/enter_bug.cgi?product=Fedora&component=cabal2spec bugzilla (in the cabal2spec component of the Fedora product)].
== Package Naming ==
Haskell Bin and BinLib packages should follow the usual Fedora Package Naming Guidelines for base package naming: ie follow the upstream name.  Examples include projects like <code>darcs</code> and <code>xmonad</code>.
However there may be cases where a Haskell BinLib package is really a Lib package with a minor or unimportant executable: in this case it is better to treat the package a Lib package, optionally with a executable subpackage if appropriate.


== Naming ==
The names of Haskell Lib packages, packaged for <code>ghc</code>, are prefixed by "ghc-".  For example the Haskell X11 library package is named <code>ghc-X11</code>, and the Haskell mmap library package is named <code>ghc-mmap</code>, etc.
Haskell Bin and BinLib packages should follow the usual Fedora Package Naming Guidelines for base package naming: ie follow the upstream name. Examples include projects like <code>darcs</code> and <code>xmonad</code>.  BinLib packages SHOULD subpackage their libraries with naming following Lib packages.


For example the <code>xmonad</code> package has library subpackages <code>ghc-xmonad</code>, <code>ghc-xmonad-devel</code>, and <code>ghc-xmonad-prof</code>.
Note that having different Haskell source packages named "ghc-xyz" and "xyz" is not allowed since they would both correspond to the same upstream package named "xyz" on Hackage.


The name of Haskell Lib packages built for <code>ghc</code> are prefixed by "ghc-".  For example the zlib library is named <code>ghc-zlib</code>.
BinLib packages should subpackage their libraries with naming following Lib packages.
For example the <code>xmonad</code> BinLib package has library subpackages
* <code>ghc-xmonad</code> for the shared library, and
* <code>ghc-xmonad-devel</code> for devel files and the static library.


== Debug Information ==
If a library is packaged for more than one Haskell compiler or interpreter, the base name should instead be prefixed with <code>haskell</code>, e.g. <code>haskell-X11</code>.  Such a package would then have subpackages for each compiler and/or interpreter it is built for (e.g. <code>ghc-X11</code>, <code>hugs98-X11</code>, etc).
Objects compiled with ghc do not include useful debug info, so debuginfo packages should be disabled:
<pre>
%global debug_package %{nil}
</pre>


== RPM Macros ==
Package naming preserves case to follow the upstream naming conventions as closely as possible.
The templates all have buildrequires for ghc-rpm-macros which provides [http://pkgs.fedoraproject.org/gitweb/?p=ghc-rpm-macros.git;a=blob;f=ghc-rpm-macros.ghc rpm macros] to assist with packaging Haskell Cabal packages.


The main commonly used macros are:
== Headers ==


* %ghc_bin_build
The macro <code>pkg_name</code> is used to carry the name of the upstream library package (i.e. without the Fedora "ghc-" prefix).
* %ghc_lib_build
It should be defined at the top of Lib and BinLib packages:
* %ghc_bin_install
* %ghc_lib_install
* %ghc_lib_package
* %ghc_binlib_package
* %ghc_pkg_recache
* %ghc_reindex_haddock


They are used in the templates and explained in more detail below.
%global pkg_name <package>


== Bin packages ==
== Cabal Flags ==
Cabal flags for build options should be set by changing the package's <code>.cabal</code> file: this can be done with the <code>cabal-tweak-flag</code> script to avoid having to carry and maintain patches for this.
<code>%cabal_configure_options</code> can be set to pass other options to Cabal.


Bin packages should set <code>%bcond_without dynamic</code> to enable dynamic linking of executables.
Modifying the <code>.cabal</code> file flags defaults allows packagers and tools like <code>cabal-rpm</code> to track actual package dependencies correctly.


* <code>%ghc_bin_build</code> is used to configure and build bin packages. It runs:
== Dependency Generation ==
** <code>%cabal_configure</code>: configure the package for building and dynamic linking.
Spec file build dependencies are generated by the <code>cabal-rpm</code> packaging tool.
** <code>%cabal build</code>: builds the package.


* <code>%ghc_bin_install</code> is used to install bin packages.  It runs:
RPM dependencies for Haskell libraries are automatically generated at build-time by the <code>ghc-deps.sh</code> script.
** <code>%cabal_install</code>: installs the package.
** <code>%ghc_strip_dynlinked</code>: strips the dynamically linked binary.


== Lib and binlib packages ==
The <code>cabal-tweak-dep-ver</code> script can be used to bump versions of dependencies in the package .cabal file.


* <code>%ghc_lib_build</code> is used to configure, build and generate documentation for lib and binlib packages.  It runs:
== Shared and static library linking ==
** <code>%cabal_configure --ghc -p</code>: configures the package for building with ghc and profilingLibraries should build profiling versions of their static libraries.
GHC uses static libraries by default, but supports shared libraries on some architectures: currently i686 and x86_64Lib and BinLib packages should provide static, shared, and profiling libraries:
** <code>%cabal build</code>: builds the package.
* the shared library lives in the base library package, and
** <code>%cabal haddock</code>: generates HTML library documentation from the source code.
* the static and profiling library and header files in the -devel subpackage.


* <code>%ghc_lib_install</code> is used to install lib and binlib packages.  It runs:
Because GHC still assumes static versions of libraries are installed they need to be in the devel subpackage and it doesn't make sense to subpackage them yet.
** <code>%cabal_install</code>: installs the package without registering it in ghc-pkg.
** <code>%cabal_pkg_conf</code>: creates ghc-pkg metadata for package installation time
** <code>%ghc_gen_filelists</code>: generates rpm filelists.
** <code>%ghc_strip_dynlinked</code>: strips dynamically linked objects.


== Packaging libraries ==
Executables in Bin and BinLib packages should be dynamically linked to shared libraries.
=== Naming ===
The names of Haskell library packages should be prefixed with the compiler or interpreter they are intended for.  Package names should follow the upstream naming and preserve case.  For example,  the <code>bzlib</code> library from [http://hackage.haskell.org/ Hackage] packaged for GHC would be named <code>ghc-bzlib</code> in Fedora, and the <code>QuickCheck</code> library would be named <code>ghc-QuickCheck</code>.


If a library is packaged for more than one Haskell compiler or interpreter, the base name should instead be prefixed with <code>haskell</code>, e.g. <code>haskell-X11</code>.  Such a package would then have subpackages for each compiler and/or interpreter it is built for (e.g. <code>ghc-X11</code>, <code>hugs98-X11</code>, etc.
Note that executables in most BinLib packages are currently staticly linked against the library in their own package (unless the .cabal file explicitly lists it as a dependency), but dynamically linked against other dependent libraries. BinLib executables that do link dynamically against their own library should use <code>%ghc_fix_dynamic_rpath</code> to fix its RPATH.


''Rationale: The Fedora Project tries to follow upstream as closely as possible.  Haskell upstream packages maintain consistent naming schemes across tarball, cabal and ghc package names, and mixed case names are tracked well.''
Some particular packages may do user compilation during runtime in which case they will need Requires as well as BuildRequires for their dependencies: examples include xmonad and yi which require their devel package to be present to allow users to relink their configuration or customization.


=== Static vs. Dynamic Linking ===
== RPM Macros ==
Current releases of GHC do not yet support generating shared libraries, so all ghc libraries are static and library packages of them should provide themselves as a -devel package also to allow migrating parts of them to -devel subpackages in the future when shared libraries become the norm:
The templates all have buildrequires for ghc-rpm-macros, which provides [http://pkgs.fedoraproject.org/cgit/ghc-rpm-macros.git/tree/ghc-rpm-macros.ghc macros.ghc] to assist with packaging Haskell Cabal packages.


<pre>
<pre>
Provides: ghc-%{pkg_name}-devel = %{version}-%{release}
BuildRequires: ghc-rpm-macros
</pre>
</pre>


Static linking means that when updating any library, all packages that depend on it will also need to be rebuilt before they see any changes, and in the event of a security advisory, all of them need to be rebuilt also.
The main commonly used macros are:


This is not true for linking to other languages using the Foreign Function Interface (FFI).  When linking to these libraries, the standard dynamic linker is used.
* %ghc_bin_build
* %ghc_lib_build
* %ghc_bin_install
* %ghc_lib_install


''Note: the situation is similar to OCaml, and the usual rules that apply there apply here as well.''
They are used in the templates and explained in more detail below.


Keep in mind though, that some special packages may still do code generation at runtime in which case they may need Requires as well as BuildRequires for their dependencies: examples include xmonad and yi which may require certain libraries to be present to work.
== Bin packages ==


=== Package directory ===
Bin package executables should be dynamically linked to shared Haskell libraries when available, but this can be overridden if necessary by defining the <code>ghc_without_dynamic</code> macro.
GHC libraries should be installed under <code>%pkg_libdir</code> as done by Cabal.


<pre>
<pre>
%global pkg_libdir %{_libdir}/ghc-%{ghc_version}/%{pkg_name}-%{version}
%build
</pre>
%ghc_bin_build


=== File lists ===
You can generate filelists for libraries and profiling library subpackages using the following macro, rather than doing it by hand:


<pre>
%install
%ghc_gen_filelists %{name}
%ghc_bin_install
</pre>
</pre>


This macro takes one parameter, which is just a name prefix to be used for the file lists. This same parameter must be used later in the files section.
<code>%ghc_bin_build</code> is used to configure and build bin packages. It runs:
* <code>%global debug_package %{nil}</code>: debuginfo is disabled since ghc's output is not in GDB format.
* <code>%cabal_configure</code>: configure the package for building and dynamic linking.
* <code>%cabal build</code>: builds the package.


The files section would then look something like this:
<code>%ghc_bin_install</code> is used to install bin packages.  It runs:
* <code>%cabal_install</code>: installs the package.
* <code>%ghc_strip_dynlinked</code>: strips the dynamically linked binary.


<pre>
== Lib and BinLib packages ==
%files -f %{name}.files
%defattr(-,root,root,-)
%doc LICENSE README
%{pkg_docdir}


%files -n %{name}-prof -f %{name}-prof.files
BinLib package executables should be dynamically linked to other shared Haskell libraries when available, but this can be overridden if necessary by defining the <code>ghc_without_dynamic</code> macro.
%defattr(-,root,root,-)
</pre>


=== Install scripts ===
Devel subpackages need to setup some Requires:
Libraries must be registered with the installed ghc package.


To generate registration scripts that can be embedded in the package first include the following in %build:
<pre>
<pre>
%ghc_gen_scripts
%package -n ghc-%{pkg_name}-devel
Summary:        Haskell %{pkg_name} library development files
Requires:      ghc-compiler = %{ghc_version}
Requires(post): ghc-compiler = %{ghc_version}
Requires(postun): ghc-compiler = %{ghc_version}
Requires:      ghc-%{pkg_name} = %{version}-%{release}
</pre>
</pre>
and then in %install install them with:
 
Lib packages need to use <code>%setup -n</code>:
 
<pre>
<pre>
%ghc_install_scripts
%prep
%setup -q -n %{pkg_name}-%{version}
</pre>
</pre>


Finally the actual registering of packages must be done at install and uninstall time with the following scriplets:
Both Lib and BinLib have:
 
<pre>
<pre>
%post -n ghc-%{pkg_name}
%build
%ghc_register_pkg
%ghc_lib_build


%preun -n ghc-%{pkg_name}
if [ "$1" -eq 0 ] ; then
  %ghc_unregister_pkg
fi
</pre>


=== Documentation ===
%install
Normal doc files for a package should live in the usual place.  Haskell supports inline API docs using the <code>haddock</code> tool (bundled in the <code>ghc</code> package as of 6.10), for which the situation is somewhat different.  The master directory for Haddock files is <code>%{_docdir}/ghc/libraries</code>, with one directory per package under there.  The <code>index.html</code> file for this directory should be regenerated every time a package is installed, upgraded, or removed.  Since <code>%{_docdir}/ghc/libraries</code> is owned by <code>ghc-doc</code> it is recommended to subpackage haddock documentation in a <code>doc</code> subpackage, which can require <code>ghc-doc</code>.
%ghc_lib_install


If a package comes with meaningful Haddock documentation, your spec file should define


<pre>%global pkg_docdir %{_docdir}/ghc/libraries/%{pkg_name}</pre>
%post devel
%ghc_pkg_recache


and the <code>%build</code> section should contain the following:


<pre>%cabal haddock</pre>
%postun devel
%ghc_pkg_recache
</pre>


This will cause the HTML version of the Haddock documentation to be generated.  If built, it will automatically be installed to the correct location by <code>%cabal_install</code> without any further intervention.
<code>%ghc_lib_build</code> is used to configure, build and generate documentation for Lib and BinLib packages.  It runs:
* <code>%global debug_package %{nil}</code>: debuginfo is disabled since ghc's output is not in DWARF format.
* <code>%cabal_configure --ghc -p</code>: configures the package for building with ghc and profiling.  Libraries should build profiling versions of their static libraries.
* <code>%cabal build</code>: builds the package.
* <code>%cabal haddock</code>: generates HTML library documentation from the source code.
** If necessary (if e.g. documentation is failing to build for some reason) this can be skipped by defining <code>without_haddock</code>.
** Additionally links to colored html sourcecode are also generated with <code>hscolour</code>, which can be disabled by defining <code>without_hscolour</code>.


To automatically update the master index of all Haddock documentation in <code>/usr/share/doc/ghc/libraries</code>, add the following to your <code>%post</code> and <code>%postun</code> scriptlets:
<code>%ghc_lib_install</code> is used to install Lib and BinLib packages.  It runs:
* <code>%cabal_install</code>: installs the package without registering it in ghc-pkg.
* <code>%cabal_pkg_conf</code>: creates ghc-pkg .conf metadata file for package installation time
* <code>%ghc_gen_filelists</code>: generates rpm filelists.
* <code>%ghc_strip_dynlinked</code>: strips dynamically linked objects.


<pre>
<code>%ghc_pkg_recache</code>: used in %post and %postun for devel subpackage - refreshes the ghc package cache database with .conf file data.
%post  
%ghc_reindex_haddock


%postun
== Directories ==
if [ "$1" -eq 0 ] ; then
GHC libraries are installed under <code>%ghcpkgdir/%{pkg_name}-%{version}</code>:
  %ghc_reindex_haddock
fi
</pre>


The ghc haddock docs index will then be updated after installation, update, or removal of the package.
Library documentation lives under <code>%ghclibdocdir/%{pkg_name}-%{version}</code>.


Finally, you'll want to add the following to your <code>%files</code> section, so that the Haddock docs will be picked up correctly.
== File lists ==
Filelists for shared and devel library subpackages are generated through <code>%ghc_lib_install</code> using the macro <code>%ghc_gen_filelists</code>.


<pre>%{pkg_docdir}</pre>
It generates the filelists <code>ghc-%{pkg_name}.files</code> and <code>ghc-%{pkg_name}-devel.files</code>.


== Packaging programs ==
== Compiling non-Cabal packages ==
Packages compiling Haskell code without Cabal, ie directly with <code>ghc</code> or <code>ghc --make</code>, should use <code>-O1</code> optimization, like Cabal does by default.


== References ==
== References ==
* http://fedorahosted.org/cabal2spec
* http://fedorahosted.org/cabal2spec
* http://pkgs.fedoraproject.org/gitweb/?p=ghc-rpm-macros.git
* http://pkg-haskell.alioth.debian.org/haskell-policy/ - Debian Haskell packaging policy
* http://pkg-haskell.alioth.debian.org/haskell-policy/ - Debian Haskell packaging policy
* [[Packaging/OCaml|Fedora OCaml Packaging Guidelines]]
* [[Packaging/OCaml|Fedora OCaml Packaging Guidelines]]

Latest revision as of 07:44, 17 May 2013

Haskell Packaging Guidelines

This page documents the guidelines and conventions for packaging Haskell projects in Fedora.

GHC (Glasgow Haskell Compiler) is the current mainstream Haskell compiler. Most Haskell packages are released on Hackage and use the Cabal package system. So the current guidelines mostly focus on packaging for GHC using Cabal.

Spec file templates

Spec files in line with these templates are generated automatically by the cabal-rpm packaging tool which also adds dependencies listed in the package's .cabal configuration file. Most packages should then build, though for some packages it may be necessary to specify some additional BuildRequires and/or Requires, and to check non-Haskell devel dependencies.

There are three types of Haskell Cabal packages: library only (Lib), binary only (Bin), and binary and library (BinLib):

Standardizing the packaging helps to lower the maintenance burden across Fedora's Haskell packages.

Package Naming

Haskell Bin and BinLib packages should follow the usual Fedora Package Naming Guidelines for base package naming: ie follow the upstream name. Examples include projects like darcs and xmonad. However there may be cases where a Haskell BinLib package is really a Lib package with a minor or unimportant executable: in this case it is better to treat the package a Lib package, optionally with a executable subpackage if appropriate.

The names of Haskell Lib packages, packaged for ghc, are prefixed by "ghc-". For example the Haskell X11 library package is named ghc-X11, and the Haskell mmap library package is named ghc-mmap, etc.

Note that having different Haskell source packages named "ghc-xyz" and "xyz" is not allowed since they would both correspond to the same upstream package named "xyz" on Hackage.

BinLib packages should subpackage their libraries with naming following Lib packages. For example the xmonad BinLib package has library subpackages

  • ghc-xmonad for the shared library, and
  • ghc-xmonad-devel for devel files and the static library.

If a library is packaged for more than one Haskell compiler or interpreter, the base name should instead be prefixed with haskell, e.g. haskell-X11. Such a package would then have subpackages for each compiler and/or interpreter it is built for (e.g. ghc-X11, hugs98-X11, etc).

Package naming preserves case to follow the upstream naming conventions as closely as possible.

Headers

The macro pkg_name is used to carry the name of the upstream library package (i.e. without the Fedora "ghc-" prefix). It should be defined at the top of Lib and BinLib packages: 

%global pkg_name <package>

Cabal Flags

Cabal flags for build options should be set by changing the package's .cabal file: this can be done with the cabal-tweak-flag script to avoid having to carry and maintain patches for this. %cabal_configure_options can be set to pass other options to Cabal.

Modifying the .cabal file flags defaults allows packagers and tools like cabal-rpm to track actual package dependencies correctly.

Dependency Generation

Spec file build dependencies are generated by the cabal-rpm packaging tool.

RPM dependencies for Haskell libraries are automatically generated at build-time by the ghc-deps.sh script.

The cabal-tweak-dep-ver script can be used to bump versions of dependencies in the package .cabal file.

Shared and static library linking

GHC uses static libraries by default, but supports shared libraries on some architectures: currently i686 and x86_64. Lib and BinLib packages should provide static, shared, and profiling libraries:

  • the shared library lives in the base library package, and
  • the static and profiling library and header files in the -devel subpackage.

Because GHC still assumes static versions of libraries are installed they need to be in the devel subpackage and it doesn't make sense to subpackage them yet.

Executables in Bin and BinLib packages should be dynamically linked to shared libraries.

Note that executables in most BinLib packages are currently staticly linked against the library in their own package (unless the .cabal file explicitly lists it as a dependency), but dynamically linked against other dependent libraries. BinLib executables that do link dynamically against their own library should use %ghc_fix_dynamic_rpath to fix its RPATH.

Some particular packages may do user compilation during runtime in which case they will need Requires as well as BuildRequires for their dependencies: examples include xmonad and yi which require their devel package to be present to allow users to relink their configuration or customization.

RPM Macros

The templates all have buildrequires for ghc-rpm-macros, which provides macros.ghc to assist with packaging Haskell Cabal packages. 

BuildRequires:  ghc-rpm-macros

The main commonly used macros are:

  • %ghc_bin_build
  • %ghc_lib_build
  • %ghc_bin_install
  • %ghc_lib_install

They are used in the templates and explained in more detail below.

Bin packages

Bin package executables should be dynamically linked to shared Haskell libraries when available, but this can be overridden if necessary by defining the ghc_without_dynamic macro. 

%build
%ghc_bin_build


%install
%ghc_bin_install

%ghc_bin_build is used to configure and build bin packages. It runs:

  • %global debug_package %{nil}: debuginfo is disabled since ghc's output is not in GDB format.
  • %cabal_configure: configure the package for building and dynamic linking.
  • %cabal build: builds the package.

%ghc_bin_install is used to install bin packages. It runs:

  • %cabal_install: installs the package.
  • %ghc_strip_dynlinked: strips the dynamically linked binary.

Lib and BinLib packages

BinLib package executables should be dynamically linked to other shared Haskell libraries when available, but this can be overridden if necessary by defining the ghc_without_dynamic macro.

Devel subpackages need to setup some Requires: 

%package -n ghc-%{pkg_name}-devel
Summary:        Haskell %{pkg_name} library development files
Requires:       ghc-compiler = %{ghc_version}
Requires(post): ghc-compiler = %{ghc_version}
Requires(postun): ghc-compiler = %{ghc_version}
Requires:       ghc-%{pkg_name} = %{version}-%{release}

Lib packages need to use %setup -n: 

%prep
%setup -q -n %{pkg_name}-%{version}

Both Lib and BinLib have: 

%build
%ghc_lib_build


%install
%ghc_lib_install


%post devel
%ghc_pkg_recache


%postun devel
%ghc_pkg_recache

%ghc_lib_build is used to configure, build and generate documentation for Lib and BinLib packages. It runs:

  • %global debug_package %{nil}: debuginfo is disabled since ghc's output is not in DWARF format.
  • %cabal_configure --ghc -p: configures the package for building with ghc and profiling. Libraries should build profiling versions of their static libraries.
  • %cabal build: builds the package.
  • %cabal haddock: generates HTML library documentation from the source code.
    • If necessary (if e.g. documentation is failing to build for some reason) this can be skipped by defining without_haddock.
    • Additionally links to colored html sourcecode are also generated with hscolour, which can be disabled by defining without_hscolour.

%ghc_lib_install is used to install Lib and BinLib packages. It runs:

  • %cabal_install: installs the package without registering it in ghc-pkg.
  • %cabal_pkg_conf: creates ghc-pkg .conf metadata file for package installation time
  • %ghc_gen_filelists: generates rpm filelists.
  • %ghc_strip_dynlinked: strips dynamically linked objects.

%ghc_pkg_recache: used in %post and %postun for devel subpackage - refreshes the ghc package cache database with .conf file data.

Directories

GHC libraries are installed under %ghcpkgdir/%{pkg_name}-%{version}:

Library documentation lives under %ghclibdocdir/%{pkg_name}-%{version}.

File lists

Filelists for shared and devel library subpackages are generated through %ghc_lib_install using the macro %ghc_gen_filelists.

It generates the filelists ghc-%{pkg_name}.files and ghc-%{pkg_name}-devel.files.

Compiling non-Cabal packages

Packages compiling Haskell code without Cabal, ie directly with ghc or ghc --make, should use -O1 optimization, like Cabal does by default.

References

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