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<chapter xmlns= "http://docbook.org/ns/docbook"
xmlns:xlink="http://www.w3.org/1999/xlink"
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xml:id="chap-language-support">
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<title > Support for specific programming languages</title>
<para > The <link linkend= "chap-stdenv" > standard build
environment</link> makes it easy to build typical Autotools-based
packages with very little code. Any other kind of package can be
accomodated by overriding the appropriate phases of
<literal > stdenv</literal> . However, there are specialised functions
in Nixpkgs to easily build packages for other programming languages,
such as Perl or Haskell. These are described in this chapter.</para>
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<section xml:id= "ssec-language-perl" > <title > Perl</title>
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<para > Nixpkgs provides a function <varname > buildPerlPackage</varname> ,
a generic package builder function for any Perl package that has a
standard <varname > Makefile.PL</varname> . It’ s implemented in <link
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xlink:href="https://github.com/NixOS/nixpkgs/blob/master/pkgs/development/perl-modules/generic"><filename > pkgs/development/perl-modules/generic</filename> </link> .</para>
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<para > Perl packages from CPAN are defined in <link
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xlink:href="https://github.com/NixOS/nixpkgs/blob/master/pkgs/top-level/perl-packages.nix"><filename > pkgs/top-level/perl-packages.nix</filename> </link> ,
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rather than <filename > pkgs/all-packages.nix</filename> . Most Perl
packages are so straight-forward to build that they are defined here
directly, rather than having a separate function for each package
called from <filename > perl-packages.nix</filename> . However, more
complicated packages should be put in a separate file, typically in
<filename > pkgs/development/perl-modules</filename> . Here is an
example of the former:
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<programlisting >
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ClassC3 = buildPerlPackage rec {
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name = "Class-C3-0.21";
src = fetchurl {
url = "mirror://cpan/authors/id/F/FL/FLORA/${name}.tar.gz";
sha256 = "1bl8z095y4js66pwxnm7s853pi9czala4sqc743fdlnk27kq94gz";
};
};
</programlisting>
Note the use of <literal > mirror://cpan/</literal> , and the
<literal > ${name}</literal> in the URL definition to ensure that the
name attribute is consistent with the source that we’ re actually
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downloading. Perl packages are made available in
<filename > all-packages.nix</filename> through the variable
<varname > perlPackages</varname> . For instance, if you have a package
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that needs <varname > ClassC3</varname> , you would typically write
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<programlisting >
foo = import ../path/to/foo.nix {
inherit stdenv fetchurl ...;
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inherit (perlPackages) ClassC3;
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};
</programlisting>
in <filename > all-packages.nix</filename> . You can test building a
Perl package as follows:
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<screen >
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$ nix-build -A perlPackages.ClassC3
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</screen>
<varname > buildPerlPackage</varname> adds <literal > perl-</literal> to
the start of the name attribute, so the package above is actually
called <literal > perl-Class-C3-0.21</literal> . So to install it, you
can say:
<screen >
$ nix-env -i perl-Class-C3
</screen>
(Of course you can also install using the attribute name:
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<literal > nix-env -i -A perlPackages.ClassC3</literal> .)</para>
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<para > So what does <varname > buildPerlPackage</varname> do? It does
the following:
<orderedlist >
<listitem > <para > In the configure phase, it calls <literal > perl
Makefile.PL</literal> to generate a Makefile. You can set the
variable <varname > makeMakerFlags</varname> to pass flags to
<filename > Makefile.PL</filename> </para> </listitem>
<listitem > <para > It adds the contents of the <envar > PERL5LIB</envar>
environment variable to <literal > #! .../bin/perl</literal> line of
Perl scripts as <literal > -I<replaceable > dir</replaceable> </literal>
flags. This ensures that a script can find its
dependencies.</para> </listitem>
<listitem > <para > In the fixup phase, it writes the propagated build
inputs (<varname > propagatedBuildInputs</varname> ) to the file
<filename > $out/nix-support/propagated-user-env-packages</filename> .
<command > nix-env</command> recursively installs all packages listed
in this file when you install a package that has it. This ensures
that a Perl package can find its dependencies.</para> </listitem>
</orderedlist>
</para>
<para > <varname > buildPerlPackage</varname> is built on top of
<varname > stdenv</varname> , so everything can be customised in the
usual way. For instance, the <literal > BerkeleyDB</literal> module has
a <varname > preConfigure</varname> hook to generate a configuration
file used by <filename > Makefile.PL</filename> :
<programlisting >
{buildPerlPackage, fetchurl, db4}:
buildPerlPackage rec {
name = "BerkeleyDB-0.36";
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src = fetchurl {
url = "mirror://cpan/authors/id/P/PM/PMQS/${name}.tar.gz";
sha256 = "07xf50riarb60l1h6m2dqmql8q5dij619712fsgw7ach04d8g3z1";
};
preConfigure = ''
echo "LIB = ${db4}/lib" > config.in
echo "INCLUDE = ${db4}/include" >> config.in
'';
}
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</programlisting>
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</para>
<para > Dependencies on other Perl packages can be specified in the
<varname > buildInputs</varname> and
<varname > propagatedBuildInputs</varname> attributes. If something is
exclusively a build-time dependency, use
<varname > buildInputs</varname> ; if it’ s (also) a runtime dependency,
use <varname > propagatedBuildInputs</varname> . For instance, this
builds a Perl module that has runtime dependencies on a bunch of other
modules:
<programlisting >
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ClassC3Componentised = buildPerlPackage rec {
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name = "Class-C3-Componentised-1.0004";
src = fetchurl {
url = "mirror://cpan/authors/id/A/AS/ASH/${name}.tar.gz";
sha256 = "0xql73jkcdbq4q9m0b0rnca6nrlvf5hyzy8is0crdk65bynvs8q1";
};
propagatedBuildInputs = [
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ClassC3 ClassInspector TestException MROCompat
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];
};
</programlisting>
</para>
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<section > <title > Generation from CPAN</title>
<para > Nix expressions for Perl packages can be generated (almost)
automatically from CPAN. This is done by the program
<command > nix-generate-from-cpan</command> , which can be installed
as follows:</para>
<screen >
$ nix-env -i nix-generate-from-cpan
</screen>
<para > This program takes a Perl module name, looks it up on CPAN,
fetches and unpacks the corresponding package, and prints a Nix
expression on standard output. For example:
<screen >
$ nix-generate-from-cpan XML::Simple
XMLSimple = buildPerlPackage {
name = "XML-Simple-2.20";
src = fetchurl {
url = mirror://cpan/authors/id/G/GR/GRANTM/XML-Simple-2.20.tar.gz;
sha256 = "5cff13d0802792da1eb45895ce1be461903d98ec97c9c953bc8406af7294434a";
};
propagatedBuildInputs = [ XMLNamespaceSupport XMLSAX XMLSAXExpat ];
meta = {
description = "Easily read/write XML (esp config files)";
license = "perl";
};
};
</screen>
The output can be pasted into
<filename > pkgs/top-level/perl-packages.nix</filename> or wherever else
you need it.</para>
</section>
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</section>
<section > <title > Python</title>
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<para >
Python packages that
use <link xlink:href= "http://pypi.python.org/pypi/setuptools/" > <literal > setuptools</literal> </link> ,
which many Python packages do nowadays, can be built very simply using
the <varname > buildPythonPackage</varname> function. This function is
implemented
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in <link xlink:href= "https://github.com/NixOS/nixpkgs/blob/master/pkgs/development/python-modules/generic/default.nix" > <filename > pkgs/development/python-modules/generic/default.nix</filename> </link>
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and works similarly to <varname > buildPerlPackage</varname> . (See
<xref linkend= "ssec-language-perl" /> for details.)
</para>
<para >
Python packages that use <varname > buildPythonPackage</varname> are
defined
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in <link xlink:href= "https://github.com/NixOS/nixpkgs/blob/master/pkgs/top-level/python-packages.nix" > <filename > pkgs/top-level/python-packages.nix</filename> </link> .
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Most of them are simple. For example:
<programlisting >
twisted = buildPythonPackage {
name = "twisted-8.1.0";
src = fetchurl {
url = http://tmrc.mit.edu/mirror/twisted/Twisted/8.1/Twisted-8.1.0.tar.bz2;
sha256 = "0q25zbr4xzknaghha72mq57kh53qw1bf8csgp63pm9sfi72qhirl";
};
propagatedBuildInputs = [ pkgs.ZopeInterface ];
meta = {
homepage = http://twistedmatrix.com/;
description = "Twisted, an event-driven networking engine written in Python";
license = "MIT";
};
};
</programlisting>
</para>
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</section>
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<section xml:id= "ssec-language-java" > <title > Java</title>
<para > Ant-based Java packages are typically built from source as follows:
<programlisting >
stdenv.mkDerivation {
name = "...";
src = fetchurl { ... };
buildInputs = [ jdk ant ];
buildPhase = "ant";
}
</programlisting>
Note that <varname > jdk</varname> is an alias for the OpenJDK.</para>
<para > JAR files that are intended to be used by other packages should
be installed in <filename > $out/share/java</filename> . The OpenJDK has
a stdenv setup hook that adds any JARs in the
<filename > share/java</filename> directories of the build inputs to the
<envar > CLASSPATH</envar> environment variable. For instance, if the
package <literal > libfoo</literal> installs a JAR named
<filename > foo.jar</filename> in its <filename > share/java</filename>
directory, and another package declares the attribute
<programlisting >
buildInputs = [ jdk libfoo ];
</programlisting>
then <envar > CLASSPATH</envar> will be set to
<filename > /nix/store/...-libfoo/share/java/foo.jar</filename> .</para>
<para > Private JARs
should be installed in a location like
<filename > $out/share/<replaceable > package-name</replaceable> </filename> .</para>
<para > If your Java package provides a program, you need to generate a
wrapper script to run it using the OpenJRE. You can use
<literal > makeWrapper</literal> for this:
<programlisting >
buildInputs = [ makeWrapper ];
installPhase =
''
mkdir -p $out/bin
makeWrapper ${jre}/bin/java $out/bin/foo \
--add-flags "-cp $out/share/java/foo.jar org.foo.Main"
'';
</programlisting>
Note the use of <literal > jre</literal> , which is the part of the
OpenJDK package that contains the Java Runtime Environment. By using
<literal > ${jre}/bin/java</literal> instead of
<literal > ${jdk}/bin/java</literal> , you prevent your package from
depending on the JDK at runtime.</para>
<para > It is possible to use a different Java compiler than
<command > javac</command> from the OpenJDK. For instance, to use the
Eclipse Java Compiler:
<programlisting >
buildInputs = [ jre ant ecj ];
</programlisting>
(Note that here you don’ t need the full JDK as an input, but just the
JRE.) The ECJ has a stdenv setup hook that sets some environment
variables to cause Ant to use ECJ, but this doesn’ t work with all Ant
files. Similarly, you can use the GNU Java Compiler:
<programlisting >
buildInputs = [ gcj ant ];
</programlisting>
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Here, Ant will automatically use <command > gij</command> (the GNU Java
Runtime) instead of the OpenJRE.</para>
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</section>
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<!--
<section > <title > Haskell</title>
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<para > TODO</para>
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</section>
<section > <title > TeX / LaTeX</title>
<para > * Special support for building TeX documents</para>
</section>
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-->
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</chapter>