Parceler
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In Android, Parcelables are a great way to serialize Java Objects between Contexts.
Compared with traditional Serialization, Parcelables take on the order of 10x less time to both serialize and deserialize.
There is a major flaw with Parcelables, however.
Parcelables contain a ton of boilerplate code.
To implement a Parcelable, you must mirror the writeToParcel()
and createFromParcel()
methods such that they read and write to the Parcel in the same order.
Also, a Parcelable must define a public static final Parcelable.Creator CREATOR
in order for the Android infrastructure to be able to leverage the serialization code.
Parceler is a code generation library that generates the Android Parcelable boilerplate source code.
No longer do you have to implement the Parcelable interface, the writeToParcel()
or createFromParcel()
or the public static final CREATOR
.
You simply annotate a POJO with @Parcel
and Parceler does the rest.
Because Parceler uses the Java JSR-269 Annotation Processor, there is no need to run a tool manually to generate the Parcelable code.
Just annotate your Java Bean, compile and you are finished.
By default, Parceler will serialize the fields of your instance directly:
@Parcel
public class Example {
String name;
int age;
public Example() {}
public Example(int age, String name) {
this.age = age;
this.name = name;
}
public String getName() { return name; }
public int getAge() { return age; }
}
Be careful not to use private fields when using the default field serialization strategy as it will incur a performance penalty due to reflection.
To use the generated code, you may reference the generated class directly, or via the Parcels
utility class:
Parcelable wrapped = Parcels.wrap(new Example("Andy", 42));
To dereference the @Parcel
, just call the Parcels.unwrap()
method:
Example example = Parcels.unwrap(wrapped);
example.getName(); // Andy
example.getAge(); // 42
Of course, the wrapped Parcelable
can be added to an Android Bundle to transfer from Activity to Activity:
Bundle bundle = new Bundle();
bundle.putParcelable("example", Parcels.wrap(example));
And dereferenced in the onCreate()
method:
Example example = Parcels.unwrap(getIntent().getParcelableExtra("example"));
This wrapping and unwrapping technique plays well with the Intent Factory pattern. In addition, Parceler is supported by the following libraries:
-
Transfuse - Allows
@Parcel
annotated beans to be used with the@Extra
injection. -
FragmentArgs - Uses the
ParcelerArgsBundler
adapter to wrap and unwrap@Parcel
annotated beans with fragment parameters. -
Dart - Autodetects
@Parcel
annotated beans and automatically unwraps them when using@InjectExtra
. -
AndroidAnnotations - Autodetects
@Parcel
annotated beans and automatically wraps/unwraps them when using@Extra
,@FragmentArg
,@InstanceState
and otherBundle
related annotations. -
ActivityStarter - Supports natively Parceler objects as arguments to Activities, Fragments, Services, etc.
-
Remoter - Supports natively Parceler objects as arguments in @Remoter interfaces.
Parcel attribute types
Only a select number of types may be used as attributes of a @Parcel
class.
The following list includes the mapped types:
-
byte
-
double
-
float
-
int
-
long
-
char
-
boolean
-
String
-
IBinder
-
Bundle
-
SparseArray
of any of the mapped types* -
SparseBooleanArray
-
ObservableField
-
List
,ArrayList
andLinkedList
of any of the mapped types* -
Map
,HashMap
,LinkedHashMap
,SortedMap
, andTreeMap
of any of the mapped types* -
Set
,HashSet
,SortedSet
,TreeSet
,LinkedHashSet
of any of the mapped types* -
Parcelable
-
Serializable
-
Array of any of the mapped types
-
Any other class annotated with
@Parcel
*Parcel will error if the generic parameter is not mapped.
Parceler also supports any of the above types directly.
This is especially useful when dealing with collections of classes annotated with @Parcel
:
Parcelable listParcelable = Parcels.wrap(new ArrayList<Example>());
Parcelable mapParcelable = Parcels.wrap(new HashMap<String, Example>());
Polymorphism
Note that Parceler does not unwrap inheritance hierarchies, so any polymorphic fields will be unwrapped as instances of the base class.
This is because Parceler opts for performance rather than checking .getClass()
for every piece of data.
@Parcel
public class Example {
public Parent p;
@ParcelConstructor Example(Parent p) { this.p = p; }
}
@Parcel public class Parent {}
@Parcel public class Child extends Parent {}
Example example = new Example(new Child());
System.out.println("%b", example.p instanceof Child); // true
example = Parcels.unwrap(Parcels.wrap(example));
System.out.println("%b", example.p instanceof Child); // false
Refer to the Custom Serialization section for an example of working with polymorphic fields.
Serialization techniques
Parceler offers several choices for how to serialize and deserialize an object in addition to the field-based serialization seen above.
Getter/setter serialization
Parceler may be configured to serialize using getter and setter methods and a non-empty constructor.
In addition, fields, methods and constructor parameters may be associated using the @ParcelProperty
annotation.
This supports a number of bean strategies including immutability and traditional getter/setter beans.
To configure default method serialization, simply configure the @Parcel
annotation with Serialization.BEAN
:
@Parcel(Serialization.BEAN)
public class Example {
private String name;
private int age;
private boolean enabled;
public String getName() { return name; }
public void setName(String name) { this.name = name; }
public int getAge() { return age; }
public void setAge(int age) { this.age = age; }
public boolean isEnabled() { return enabled; }
public void setEnabled(boolean enabled) { this.enabled = enabled; }
}
To use a constructor with serialization, annotate the desired constructor with the @ParcelConstructor
annotation:
@Parcel(Serialization.BEAN)
public class Example {
private final String name;
private final int age;
private boolean enabled;
@ParcelConstructor
public Example(int age, String name, boolean enabled) {
this.age = age;
this.name = name;
this.enabled = enabled;
}
public String getName() { return name; }
public int getAge() { return age; }
public boolean isEnabled() { return enabled; }
}
If an empty constructor is present, Parceler will use that constructor unless another constructor is annotated.
Mixing getters/setters and fields
You may also mix and match serialization techniques using the @ParcelProperty
annotation.
In the following example, firstName
and lastName
are written to the bean using the constructor while firstName
is read from the bean using the field and lastName
is read using the getLastName()
method.
The parameters firstName
and lastName
are coordinated by the parameter names "first"
and "last"
respectfully.
@Parcel
public class Example {
@ParcelProperty("first")
String firstName;
String lastName;
@ParcelConstructor
public Example(@ParcelProperty("first") String firstName, @ParcelProperty("last") String lastName){
this.firstName = firstName;
this.lastName = lastName;
}
public String getFirstName() { return firstName; }
@ParcelProperty("last")
public String getLastName() { return lastName; }
}
For attributes that should not be serialized with Parceler, the attribute field, getter or setter may be annotated by @Transient
.
Parceler supports many different styles centering around the POJO.
This allows @Parcel
annotated classes to be used with other POJO based libraries, including the following:
Static Factory support
As an alternative to using a constructor directly, Parceler supports using an annotated Static Factory to build an instance of the given class.
This style supports Googleโs AutoValue annotation processor / code generation library for generating immutable beans.
Parceler interfaces with AutoValue via the @ParcelFactory
annotation, which maps a static factory method into the annotated @Parcel
serialization:
@AutoValue
@Parcel
public abstract class AutoValueParcel {
@ParcelProperty("value") public abstract String value();
@ParcelFactory
public static AutoValueParcel create(String value) {
return new AutoValue_AutoValueParcel(value);
}
}
AutoValue generates a different class than the annotated @Parcel
, therefore, you need to specify which class Parceler should build in the Parcels
utility class:
Parcelable wrappedAutoValue = Parcels.wrap(AutoValueParcel.class, AutoValueParcel.create("example"));
And to deserialize:
AutoValueParcel autoValueParcel = Parcels.unwrap(wrappedAutoValue);
Custom serialization
@Parcel
includes an optional parameter to include a manual serializer ParcelConverter
for the case where special serialization is necessary.
This provides a still cleaner option for using Parcelable classes than implementing them by hand.
The following code demonstrates using a ParcelConverter
to unwrap the inheritance hierarchy during deserialization.
@Parcel
public class Item {
@ParcelPropertyConverter(ItemListParcelConverter.class)
public List<Item> itemList;
}
@Parcel public class SubItem1 extends Item {}
@Parcel public class SubItem2 extends Item {}
public class ItemListParcelConverter implements ParcelConverter<List<Item>> {
@Override
public void toParcel(List<Item> input, Parcel parcel) {
if (input == null) {
parcel.writeInt(-1);
}
else {
parcel.writeInt(input.size());
for (Item item : input) {
parcel.writeParcelable(Parcels.wrap(item), 0);
}
}
}
@Override
public List<Item> fromParcel(Parcel parcel) {
int size = parcel.readInt();
if (size < 0) return null;
List<Item> items = new ArrayList<Item>();
for (int i = 0; i < size; ++i) {
items.add((Item) Parcels.unwrap(parcel.readParcelable(Item.class.getClassLoader())));
}
return items;
}
}
Parceler is also packaged with a series of base classes to make Collection conversion easier located under the org.parceler.converter
package of the api.
These base classes take care of a variety of difficult or verbose jobs dealing with Collections including null checks and collectin iteration.
For instance, the above ParcelConverter
could be written using the `ArrayListParcelConverter':
public class ItemListParcelConverter extends ArrayListParcelConverter<Item> {
@Override
public void itemToParcel(Item item, Parcel parcel) {
parcel.writeParcelable(Parcels.wrap(item), 0);
}
@Override
public Item itemFromParcel(Parcel parcel) {
return Parcels.unwrap(parcel.readParcelable(Item.class.getClassLoader()));
}
}
Classes without Java source
For classes whose corresponding Java source is not available, one may include the class as a Parcel by using the @ParcelClass
annotation.
This annotation may be declared anywhere in the compiled source that is convenient.
For instance, one could include the @ParcelClass
along with the Android Application:
@ParcelClass(LibraryParcel.class)
public class AndroidApplication extends Application{
//...
}
Multiple @ParcelClass
annotations may be declared using the @ParcelClasses
annotation.
In addition, classes referenced by @ParcelClass
may be configured using the @Parcel
annotation.
This allows the serialization configuration through any parameter available on the @Parcel
annotation including the serialization technique or classes to analyze.
One useful technique is the ability to define global custom converters for a type:
@ParcelClass(
value = LibraryParcel.class,
annotation = @Parcel(converter = LibraryParcelConverter.class))
class SomeClass{}
This allows for fine grained control over a class that isnโt available for direct modification.
Advanced configuration
Skipping analysis
It is a common practice for some libraries to require a bean to extend a base class. Although it is not the most optimal case, Parceler supports this practice by allowing the configuration of what classes in the inheritance hierarchy to analyze via the analyze parameter:
@Parcel(analyze = {One.class, Three.class})
class One extends Two {}
class Two extends Three {}
class Three extends BaseClass {}
In this example, only fields of the One
and Three
classes will be serialized, avoiding both the BaseClass
and Two
class parameters.
Specific wrapping
The Parcels utility class looks up the given class for wrapping by class.
For performance reasons this ignores inheritance, both super and base classes.
There are two solutions to this problem.
First, one may specify additional types to associate to the given type via the implementations
parameter:
class ExampleProxy extends Example {}
@Parcel(implementations = {ExampleProxy.class})
class Example {}
ExampleProxy proxy = new ExampleProxy();
Parcels.wrap(proxy); // ExampleProxy will be serialized as a Example
Second, one may also specify the class type when using the Parcels.wrap()
method:
ExampleProxy proxy = new ExampleProxy();
Parcels.wrap(Example.class, proxy);
Configuring Proguard
To configure Proguard, add the following lines to your proguard configuration file. These will keep files related to the Parcels
utilty class and the Parcelable
CREATOR
instance:
er
# Parceler library -keep interface org.parceler.Parcel -keep @org.parceler.Parcel class * { *; } -keep class **$$Parcelable { *; }
Getting Parceler
You may download Parceler as a Maven dependency:
<dependency>
<groupId>org.parceler</groupId>
<artifactId>parceler</artifactId>
<version>1.1.12</version>
<scope>provided</scope>
</dependency>
<dependency>
<groupId>org.parceler</groupId>
<artifactId>parceler-api</artifactId>
<version>1.1.12</version>
</dependency>
or Gradle:
implementation 'org.parceler:parceler-api:1.1.12'
annotationProcessor 'org.parceler:parceler:1.1.12'
Or from Maven Central.
License
Copyright 2011-2015 John Ericksen Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.