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Compatibility
Starting with v21.0, Guava requires JDK 8. Starting with v22.0, Guava has an
Android flavor as well, which you can use by appending -android
to the version
string when building.
It's especially important when using Guava in Android applications to use ProGuard to strip out the parts of Guava that aren't used. Guava is one of the most common dependencies for Android applications.
For the medium-term future, Guava users who need to target JDK 7 can use the Android flavor, which has no Android-specific dependencies. At some point in the future, when Android diverges sufficiently from JDK 7, Guava may stop providing a JDK 7-compatible flavor, at which time those users will have to stay with the latest prior version.
Guava users who need to target JDK 6 will have to stay on v20.0.
Much of Guava is compatible with Google Web Toolkit (GWT), though we do not
currently optimize code specifically for GWT. Guava APIs compatible with GWT are
marked with the annotation @GwtCompatible
.
Our README file covers the basics: The only features we'll ever remove
are @Deprecated
and, occasionally, @Beta
methods and classes.
Sometimes we will add a more specific overload of an existing method. Code compiled against the old version of Guava will still run against the new version of Guava. Additionally, any code that compiles against the new version of Guava will also compile against the old version of Guava. However, code compiled against the new version of Guava might not run against the old version because it may compile against the new overload.
An example of this is MoreObjects.toStringHelper
, which originally
accepted an Object but which now has String
and Class
overloads, as well.
Object.toStringHelper(anything)
compiles under any version of Guava, but if
the static type of anything
is String
or Class
, a compile against a recent
Guava version will select a new overload.
As of this writing, there are two causes of this:
First, we sometimes change a @Beta
interface to a class. Simple anonymous uses
like new Foo() { ... }
will continue to compile, but named classes will not.
In neither case is the result binary compatible.
Second, we sometimes replace a @Beta
method with a version that returns a more
specific type. In this case, code compiled against a version of Guava from
before the change might not run against a version of Guava from after the
change, and vice versa. However, code that compiles against the old version of
Guava will almost always compile against the new version of Guava. (The
reverse is often true, too, when the code doesn't take advantage of the new
return type.)
However, there are rare exceptions. Consider this fictional case:
Guava release n:
public static List<Integer> newList() { ... }
Guava release n + 1:
public static ArrayList<Integer> newList() { ... }
Most callers will compile fine against either version:
List<Integer> myList = newList();
Of course, if a caller uses the new, specific type, that code won't compile against the old version:
ArrayList<Integer> myList = newList();
The more interesting case, though, is code that compiles against the old version but not the new version:
Set<List<Integer>> myLists = ImmutableSet.of(newList());
Java's type inference isn't strong enough for ImmutableSet.of()
to realize
that it should treat its input as a List<Integer>
instead of an
ArrayList<Integer>
, so the code must be rewritten:
Set<ArrayList<Integer>> myLists = ImmutableSet.of(newList());
Or, to produce code that compiles against either version of Guava:
Set<List<Integer>> myLists = ImmutableSet.<List<Integer>>of(newList());
Or, equivalently:
List<Integer> myList = newList();
Set<List<Integer>> myLists = ImmutableSet.of(myList);
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