nixpkgs/pkgs/development/tools/build-managers/apache-ant/1.9.nix
2019-08-17 10:54:38 +00:00

113 lines
4.0 KiB
Nix

{ fetchurl, stdenv, coreutils, makeWrapper }:
let version = "1.9.6"; in
stdenv.mkDerivation {
pname = "ant";
inherit version;
buildInputs = [ makeWrapper ];
src = fetchurl {
url = "mirror://apache/ant/binaries/apache-ant-${version}-bin.tar.bz2";
sha256 = "1cwd5vq175gyicw0hkm8idwa33zxwhf7xlxywaqxcqqdjql0jfx4";
};
contrib = fetchurl {
url = mirror://sourceforge/ant-contrib/ant-contrib-1.0b3-bin.tar.bz2;
sha256 = "96effcca2581c1ab42a4828c770b48d54852edf9e71cefc9ed2ffd6590571ad1";
};
installPhase =
''
mkdir -p $out/bin $out/lib/ant
mv * $out/lib/ant/
# Get rid of the manual (35 MiB). Maybe we should put this in a
# separate output. Keep the antRun script since it's vanilla sh
# and needed for the <exec/> task (but since we set ANT_HOME to
# a weird value, we have to move antRun to a weird location).
# Get rid of the other Ant scripts since we provide our own.
mv $out/lib/ant/bin/antRun $out/bin/
rm -rf $out/lib/ant/{manual,bin,WHATSNEW}
mkdir $out/lib/ant/bin
mv $out/bin/antRun $out/lib/ant/bin/
# Install ant-contrib.
unpackFile $contrib
cp -p ant-contrib/ant-contrib-*.jar $out/lib/ant/lib/
cat >> $out/bin/ant <<EOF
#! ${stdenv.shell} -e
ANT_HOME=$out/lib/ant
# Find the JDK by looking for javac. As a fall-back, find the
# JRE by looking for java. The latter allows just the JRE to be
# used with (say) ECJ as the compiler. Finally, allow the GNU
# JVM.
if [ -z "\$JAVA_HOME" ]; then
for i in javac java gij; do
if p="\$(type -p \$i)"; then
export JAVA_HOME="\$(${coreutils}/bin/dirname \$(${coreutils}/bin/dirname \$(${coreutils}/bin/readlink -f \$p)))"
break
fi
done
if [ -z "\$JAVA_HOME" ]; then
echo "\$0: cannot find the JDK or JRE" >&2
exit 1
fi
fi
if [ -z \$NIX_JVM ]; then
if [ -e \$JAVA_HOME/bin/java ]; then
NIX_JVM=\$JAVA_HOME/bin/java
elif [ -e \$JAVA_HOME/bin/gij ]; then
NIX_JVM=\$JAVA_HOME/bin/gij
else
NIX_JVM=java
fi
fi
LOCALCLASSPATH="\$ANT_HOME/lib/ant-launcher.jar\''${LOCALCLASSPATH:+:}\$LOCALCLASSPATH"
exec \$NIX_JVM \$NIX_ANT_OPTS \$ANT_OPTS -classpath "\$LOCALCLASSPATH" \
-Dant.home=\$ANT_HOME -Dant.library.dir="\$ANT_LIB" \
org.apache.tools.ant.launch.Launcher \$NIX_ANT_ARGS \$ANT_ARGS \
-cp "\$CLASSPATH" "\$@"
EOF
chmod +x $out/bin/ant
''; # */
meta = {
homepage = http://ant.apache.org/;
description = "A Java-based build tool";
longDescription = ''
Apache Ant is a Java-based build tool. In theory, it is kind of like
Make, but without Make's wrinkles.
Why another build tool when there is already make, gnumake, nmake, jam,
and others? Because all those tools have limitations that Ant's
original author couldn't live with when developing software across
multiple platforms. Make-like tools are inherently shell-based -- they
evaluate a set of dependencies, then execute commands not unlike what
you would issue in a shell. This means that you can easily extend
these tools by using or writing any program for the OS that you are
working on. However, this also means that you limit yourself to the
OS, or at least the OS type such as Unix, that you are working on.
Ant is different. Instead of a model where it is extended with
shell-based commands, Ant is extended using Java classes. Instead of
writing shell commands, the configuration files are XML-based, calling
out a target tree where various tasks get executed. Each task is run
by an object that implements a particular Task interface.
'';
license = stdenv.lib.licenses.asl20;
maintainers = [ stdenv.lib.maintainers.eelco ];
platforms = stdenv.lib.platforms.all;
};
}