Properties are key-value-pairs where Apache Ant tries to
expand ${key}
to value
at runtime.
There are many tasks that can set properties, the most common one is the property task. In addition properties can be defined via command line arguments or similar mechanisms from outside of Ant.
Normally property values can not be changed, once a property is set, most tasks will not allow its value to be modified. In general properties are of global scope, i.e. once they have been defined they are available for any task or target invoked subsequently - it is not possible to set a property in a child build process created via the ant, antcall or subant tasks and make it available to the calling build process, though.
Starting with Ant 1.8.0 the local task can be used to create properties that are locally scoped to a target or a sequential element like the one of the macrodef task.
Ant provides access to all system properties as if they had been
defined using a <property>
task. For
example, ${os.name}
expands to the name of the
operating system.
For a list of system properties see the Javadoc of System.getProperties.
In addition, Ant has some built-in properties:
basedir the absolute path of the project's basedir (as set
with the basedir attribute of <project>).
ant.file the absolute path of the buildfile.
ant.version the version of Ant
ant.project.name the name of the project that is currently executing;
it is set in the name attribute of <project>.
ant.project.default-target
the name of the currently executing project's
default target; it is set via the default
attribute of <project>.
ant.project.invoked-targets
a comma separated list of the targets that have
been specified on the command line (the IDE,
an <ant> task ...) when invoking the current
project.
This property is set properly when the first target is executed.
If you use it in the implicit target (directly
under the <project> tag) the list will be
empty if no target has been specified while it
will contain the project's default target in this
case for tasks nested into targets..
ant.java.version the JVM version Ant detected; currently it can hold
the values "9", "1.8",
"1.7", "1.6", "1.5",
"1.4", "1.3" and
"1.2".
ant.core.lib the absolute path of the ant.jar
file.
There is also another property, but this is set by the launcher script and therefore maybe not set inside IDEs:
ant.home home directory of Ant
The following property is only set if Ant is started via the Launcher class (which means it may not be set inside IDEs either):
ant.library.dir the directory that has been used to load Ant's jars from. In most cases this is ANT_HOME/lib.
Ant's property handling is accomplished by an instance of
org.apache.tools.ant.PropertyHelper
associated with
the current Project. You can learn more about this class by
examining Ant's Java API. In Ant 1.8 the PropertyHelper class was
much reworked and now itself employs a number of helper classes
(actually instances of
the org.apache.tools.ant.PropertyHelper$Delegate
marker interface) to take care of discrete tasks such as property
setting, retrieval, parsing, etc. This makes Ant's property
handling highly extensible; also of interest is the
new propertyhelper
task used to manipulate the PropertyHelper and its delegates from
the context of the Ant buildfile.
There are three sub-interfaces of Delegate
that may be
useful to implement.
org.apache.tools.ant.property.PropertyExpander
is
responsible for finding the property name inside a string in the
first place (the default extracts foo
from ${foo}
).
This is the interface you'd implement if you wanted to invent
your own property syntax - or allow nested property expansions
since the default implementation doesn't balance braces
(see NestedPropertyExpander
in the "props" Antlib for an example).
org.apache.tools.ant.PropertyHelper$PropertyEvaluator
is used to expand ${some-string}
into
an Object
.
This is the interface you'd implement if you want to provide
your own storage independent of Ant's project instance - the
interface represents the reading end. An example for this
would
be org.apache.tools.ant.property.LocalProperties
which implements storage
for local properties.
Another reason to implement this interface is if you wanted
to provide your own "property protocol" like
expanding toString:foo
by looking up the project
reference foo and invoking toString()
on it
(which is already implemented in Ant, see below).
org.apache.tools.ant.PropertyHelper$PropertySetter
is responsible for setting properties.
This is the interface you'd implement if you want to provide
your own storage independent of Ant's project instance - the
interface represents the reading end. An example for this
would
be org.apache.tools.ant.property.LocalProperties
which implements storage
for local properties.
The default PropertyExpander
looks similar to:
public class DefaultExpander implements PropertyExpander { public String parsePropertyName(String s, ParsePosition pos, ParseNextProperty notUsed) { int index = pos.getIndex(); if (s.indexOf("${", index) == index) { int end = s.indexOf('}', index); if (end < 0) { throw new BuildException("Syntax error in property: " + s); } int start = index + 2; pos.setIndex(end + 1); return s.substring(start, end); } return null; } }
The logic that replaces ${toString:some-id}
with the
stringified representation of the object with
id some-id
inside the current build is contained in a
PropertyEvaluator similar to the following code:
public class ToStringEvaluator implements PropertyHelper.PropertyEvaluator { private static final String prefix = "toString:"; public Object evaluate(String property, PropertyHelper propertyHelper) { Object o = null; if (property.startsWith(prefix) && propertyHelper.getProject() != null) { o = propertyHelper.getProject().getReference( property.substring(prefix.length())); } return o == null ? null : o.toString(); } }
When Ant encounters a construct ${some-text}
the
exact parsing semantics are subject to the configured property
helper delegates.
$$
ExpansionIn its default configuration Ant will expand the
text $$
to a single $
and suppress the
normal property expansion mechanism for the text immediately
following it, i.e. $${key}
expands
to ${key}
and not value
even though a
property named key
was defined and had the
value value
. This can be used to escape
literal $
characters and is useful in constructs that
only look like property expansions or when you want to provide
diagnostic output like in
<echo>$${builddir}=${builddir}</echo>
which will echo this message:
${builddir}=build/classes
if the property builddir
has the
value build/classes
.
In order to maintain backward compatibility with older Ant releases, a single '$' character encountered apart from a property-like construct (including a matched pair of french braces) will be interpreted literally; that is, as '$'. The "correct" way to specify this literal character, however, is by using the escaping mechanism unconditionally, so that "$$" is obtained by specifying "$$$$". Mixing the two approaches yields unpredictable results, as "$$$" results in "$$".
In its default configuration Ant will not try to balance braces
in property expansions, it will only consume the text up to the
first closing brace when creating a property name. I.e. when
expanding something like ${a${b}}
it will be
translated into two parts:
a${b
- likely nothing
useful.}
resulting from the second
closing braceThis means you can't use easily expand properties whose names are
given by properties, but there
are some
workarounds for older versions of Ant. With Ant 1.8.0 and the
the props Antlib
you can configure Ant to use
the NestedPropertyExpander
defined there if you need
such a feature.
In its most simple form ${key}
is supposed to look
up a property named key
and expand to the value of
the property. Additional PropertyEvaluator
s may
result in a different interpretation of key
,
though.
The props Antlib provides a few interesting evaluators but there are also a few built-in ones.
Any Ant type which has been declared with a reference can also
its string value extracted by using the ${toString:}
operation, with the name of the reference listed after
the toString:
text. The toString()
method of the Java class instance that is referenced is invoked
-all built in types strive to produce useful and relevant output
in such an instance.
For example, here is how to get a listing of the files in a fileset,
<fileset id="sourcefiles" dir="src" includes="**/*.java" /> <echo> sourcefiles = ${toString:sourcefiles} </echo>
There is no guarantee that external types provide meaningful information in such a situation
Any Ant type which has been declared with a reference can also be
used as a property by using the ${ant.refid:}
operation, with the name of the reference listed after
the ant.refid:
text. The difference between this
operation and ${toString:}
is
that ${ant.refid:}
will expand to the referenced
object itself. In most circumstances the toString method will be
invoked anyway, for example if the ${ant.refid:}
is
surrounded by other text.
This syntax is most useful when using a task with attribute setters that accept objects other than String. For example if the setter accepts a Resource object as in
public void setAttr(Resource r) { ... }
then the syntax can be used to pass in resource subclasses previously defined as references like
<url url="http://ant.apache.org/" id="anturl"/> <my:task attr="${ant.refid:anturl}"/>
The <target>
element and various tasks (such as
<fail>
) and task elements (such as <test>
in <junit>
) support if
and unless
attributes which can be used to control whether the item is run or otherwise
takes effect.
In Ant 1.7.1 and earlier, these attributes could only be property names. The item was enabled if a property with that name was defined - even to be the empty string or false - and disabled if the property was not defined. For example, the following works but there is no way to override the file existence check negatively (only positively):
<target name="-check-use-file"> <available property="file.exists" file="some-file"/> </target> <target name="use-file" depends="-check-use-file" if="file.exists"> <!-- do something requiring that file... --> </target> <target name="lots-of-stuff" depends="use-file,other-unconditional-stuff"/>
As of Ant 1.8.0, you may instead use property expansion; a value of true (or on or yes) will enable the item, while false (or off or no) will disable it. Other values are still assumed to be property names and so the item is enabled only if the named property is defined.
Compared to the older style, this gives you additional flexibility, because you can override the condition from the command line or parent scripts:
<target name="-check-use-file" unless="file.exists"> <available property="file.exists" file="some-file"/> </target> <target name="use-file" depends="-check-use-file" if="${file.exists}"> <!-- do something requiring that file... --> </target> <target name="lots-of-stuff" depends="use-file,other-unconditional-stuff"/>
Now ant -Dfile.exists=false lots-of-stuff
will run
other-unconditional-stuff
but not use-file
,
as you might expect, and you can disable the condition from another script
too:
<antcall target="lots-of-stuff"> <param name="file.exists" value="false"/> </antcall>
Similarly, an unless
attribute disables the item if it is
either the name of property which is defined, or if it evaluates to a
true-like value. For example, the following allows you to define
skip.printing.message=true in my-prefs.properties with
the results you might expect:
<property file="my-prefs.properties"/> <target name="print-message" unless="${skip.printing.message}"> <echo>hello!</echo> </target>