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