This library intends to make JSON very easy to interact with in Java; it also makes (de)serialization painless.
It wraps around the well-known org.json
classes (JSONObject
, JSONArray
, etc.) which also happen to be included
in the Android SDK. As we all know, those stock classes tend to be a pain. They feel bulky, and make you try/catch
way too many Exceptions.
- Dependency
- Parsing and Building Objects
- Retrieving Values from Objects
- Parsing and Building Arrays
- Pretty Print
- Paths
- Serialization
- Deserialization
- Annotations
The dependency is available via jCenter.
dependencies {
...
compile 'com.afollestad:ason:1.0.0'
}
Since Android includes org.json
classes, you'll want to exclude the copies provided by this library:
dependencies {
...
compile('com.afollestad:ason:1.0.0') {
exclude group: 'org.json', module: 'json'
}
}
<dependency>
<groupId>com.afollestad</groupId>
<artifactId>ason</artifactId>
<version>1.0.0</version>
<type>pom</type>
</dependency>
There are various ways that this library allows you to construct JSON objects...
Parsing strings is the first, just use the constructor which accepts a String
:
String input = // ...
Ason ason = new Ason(input);
Second, you can build objects using Java fields:
// Translates to {"id":1,"name":"Aidan","born":1995}
Ason ason = new Ason() {
int id = 1;
String name = "Aidan";
int born = 1995;
};
Third, you can add values with the put()
method:
Ason ason = new Ason()
.put("_id", 1)
.put("name", "Aidan")
.put("born", 1995);
You can quickly put in arrays just by passing multiple values to put()
:
// Translates to {"greetings":["Hello","World"]}
Ason ason = new Ason();
// The first parameter is a key, you can pass any type for the rest of the varargs parameters
ason.put("greetings", "Hello", "World");
Various methods exist for retrieving existing values (default values are returned if they don't exist). The one parameter version uses whatever the usual default of a type is (0 for number types, null for everything else), if the no value is found for the key. The two parameter version lets you specify a custom default.
Ason ason = // ...
String str = ason.getString("name");
String strWithDefault = ason.getString("name", null);
boolean bool = ason.getBool("name");
boolean boolWithDefault = ason.getBool("name", true);
short shrt = ason.getShort("name");
short shrtWithDefault = ason.getShort("name", (short)0);
int integer = ason.getInt("name");
int integerWithDefault = ason.getInt("name", 0);
long lng = ason.getLong("name");
long lngWithDefault = ason.getLong("name", 0L);
float flt = ason.getFloat("name");
float fltWithDefault = ason.getFloat("name", 0f);
double doub = ason.getDouble("name");
double doubWithDefault = ason.getDouble("name", 0d);
Ason obj = ason.getAsonObject("name");
AsonArray ary = ason.getAsonArray("name");
Further, the get(String)
method will actually automatically cast its return value to whatever variable you're setting it to:
String str = ason.get("name");
long lng = ason.get("name");
It will also infer its type if you pass a default value, removing the need to use explicit get[Type]
methods:
if (ason.get("name", false)) {
// do something
}
You can check if values exist, are null, equal another value, or even remove them by key:
Ason ason = // ...
boolean exists = ason.has("name");
boolean isNull = ason.isNull("name");
boolean valueEqual = ason.equal("key-name", value);
ason.remove("name");
Like objects, you can parse arrays from Strings:
String input = // ...
AsonArray<Ason> array = new AsonArray<Ason>(input);
You can add new objects with .add()
:
AsonArray<String> array = new AsonArray<String>();
// You can add multiple items with a single .put() call, you could use multiple if necessary too
array.add("Hello", "World!");
You can retrieve and remove objects by index:
AsonArray<Ason> array = // ...
Ason firstItem = array.get(0);
array.remove(0);
Some other utility methods exist, also:
AsonArray<String> array = // ...
int size = array.size();
boolean empty = array.isEmpty();
boolean itemEqual = array.equal(0, "Does index 0 equal this value?")
Objects and arrays can both be converted to strings simply with the toString()
method:
Ason ason = // ...
String value = ason.toString(); // all on one line, no formatting
String formatted = ason.toString(4); // 4 spaces being the indent size
Paths let you quickly add, retrieve, or remove items which are deeper down in your JSON hierarchy without manually traversing.
Lets create an object using path keys:
Ason ason = new Ason()
.put("id", 1)
.put("name", "Aidan")
.put("birthday.month", "July")
.put("birthday.day", 28)
.put("birthday.year", 1995);
The above would construct this:
{
"id": 1,
"name": "Aidan",
"birthday": {
"month": "July",
"day": 28,
"year": 1995
}
}
As you can see, a child object is automatically created for you. We only use two levels, but you could create many more just by using more periods to separate child names.
We can use this same dot notation to retrieve these child values:
Ason ason = // ...
String name = ason.get("name");
String month = ason.get("birthday.month");
int day = ason.get("birthday.day");
int year = ason.get("birthday.year");
You can quickly check equality in objects...
Ason ason = // ...
boolean birthYearCheck = ason.equal("birthday.year", 1995);
And arrays:
Ason ason = new Ason()
.put("id", 1)
.put("name", "Aidan")
.put("birthday.month", "July")
.put("birthday.day", 28)
.put("birthday.year", 1995);
AsonArray<Ason> array = AsonArray<Ason>();
array.put(ason);
// The first parameter is the index of the item, the second is a key path, the third is the value you're comparing to
boolean firstItemBirthYearCheck = array.equal(0, "birthday.year", 1995);
This library allows very easy serialization and deserialization. Serialization is converting a Java class instance to JSON.
Take this class for the coming set of examples:
public class Person {
public int id;
public String name;
public Person spouse;
public Person(int id, String name) {
this.id = id;
this.name = name;
}
}
We can serialize an instance as follows:
Person aidan = new Person(1, "Aidan");
aidan.spouse = new Person(2, "Waverly");
Ason ason = Ason.serialize(aidan);
The resulting Ason
object is:
{
"id": 1,
"name": "Aidan",
"spouse": {
"id": 2,
"name": "Waverly"
}
}
Serializing arrays is very similar to serializing objects, it uses the serializeArray
method:
Person[] people = // ...
AsonArray<Person> array = Ason.serializeArray(people);
Don't forget, you can serialize primitive arrays:
int[] ids = new int[] { 1, 2, 3, 4 };
AsonArray<Integer> array = Ason.serializeArray(ids);
Serializing lists uses the serializeList
method:
List<Person> people2 = // ...
AsonArray<Person> array2 = AsonArray.serializeList(people2);
If you already have a Ason
instance, you can add Java class instances into the object and serialize them automatically:
Ason ason = new Ason();
Person person1 = new Person(1, "Aidan");
Person person2 = new Person(2, "Waverly");
ason.put("person1", person);
ason.put("person2", person2);
This would result in:
{
"person1": {
"id": 1,
"name": "Aidan"
},
"person2": {
"id": 2,
"name": "Waverly"
}
}
This automatic serialization works with AsonArray
's too:
AsonArray<Person> array = new AsonArray<Person>();
Person person1 = new Person(1, "Aidan");
Person person2 = new Person(2, "Waverly");
array.add(person1, person2);
This would result in:
[
{
"id": 1,
"name": "Aidan"
},
{
"id": 2,
"name": "Waverly"
}
]
This library allows very easy serialization and deserialization. Deserialization is converting JSON to a Java class instance.
Again, take this class for the coming set of examples:
public class Person {
public int id;
public String name;
public Person spouse;
public Person(int id, String name) {
this.id = id;
this.name = name;
}
}
We can deserialize an object as follows:
String input = "{\"id\":1,\"name\":\"Aidan\",\"spouse\":{\"id\":2,\"name\":\"Waverly\"}}";
Ason ason = new Ason(input);
Person person = ason.deserialize(Person.class);
There is also a static method which has the same effect:
String input = "{\"id\":1,\"name\":\"Aidan\",\"spouse\":{\"id\":2,\"name\":\"Waverly\"}}";
Ason ason = new Ason(input);
Person person = Ason.deserialize(ason, Person.class);
Lastly, you can directly deserialize JSON strings:
String input = "{\"id\":1,\"name\":\"Aidan\",\"spouse\":{\"id\":2,\"name\":\"Waverly\"}}";
Person person = Ason.deserialize(input, Person.class);
You can deserialize JSON arrays to Java lists and arrays too:
String input = "[{\"name\":\"Aidan\",\"_id\":1},{\"name\":\"Waverly\",\"_id\":2}]";
AsonArray<Person> array = new AsonArray<>(input);
Person[] peopleArray = array.deserialize(Person[].class);
There is also static methods which have the same effect:
String input = "[{\"name\":\"Aidan\",\"_id\":1},{\"name\":\"Waverly\",\"_id\":2}]";
AsonArray<Person> array = new AsonArray<>(input);
Person[] peopleArray = Ason.deserialize(array, Person[].class);
Lastly, you can directly deserialize JSON strings:
String input = "[{\"name\":\"Aidan\",\"_id\":1},{\"name\":\"Waverly\",\"_id\":2}]";
Person[] peopleArray = Ason.deserialize(input, Person[].class);
One more thing, you can deserialize arrays containing primitive types:
String input = "[1,2,3,4]";
int[] primitiveArray = Ason.deserialize(input, int[].class);
Unlike objects and arrays, deserializing lists requires a separate method:
String input = "[{\"name\":\"Aidan\",\"_id\":1},{\"name\":\"Waverly\",\"_id\":2}]";
AsonArray<Person> array = new AsonArray<>(input);
List<Person> peopleList = array.deserializeList(Person.class);
There is also a static method which has the same effect:
String input = "[{\"name\":\"Aidan\",\"_id\":1},{\"name\":\"Waverly\",\"_id\":2}]";
AsonArray<Person> array = new AsonArray<>(input);
List<Person> peopleList = Ason.deserializeList(array, Person.class);
You can deserialize strings directly:
String input = "[{\"name\":\"Aidan\",\"_id\":1},{\"name\":\"Waverly\",\"_id\":2}]";
List<Person> peopleList = Ason.deserializeList(input, Person.class);
If you already have a Ason
instance, you can automatically pull out and deserialize Java class instances without
using the AsonSerializer
directly:
Ason ason = // ...
// The JSON object needs to contain a child object with the key "person" representing the Person class.
Person person = ason.get("person", Person.class);
The same works for AsonArray
's:
AsonArray<Person> array = // ...
// The JSON array needs to contain a list of objects representing the Person class.
Person person = array.get(0, Person.class);
This library comes with a two annotations that have their own special use cases.
This annotation allows you to assign a custom name to fields.
It's used with Ason
field construction:
Ason ason = new Ason() {
@AsonName(name = "_id") int id = 1;
String name = "Aidan";
int born = 1995;
};
And of course during serialization and deserialization:
public class Person {
@AsonName(name = "_id") int id;
String name;
int born;
public Person(int id, String name, int born) {
this.id = id;
this.name = name;
this.born = born;
}
}
This annotation tells the library to ignore and fields it's used to mark. That means the field is not serialized, deserialized, or used with field construction:
public class Person {
@AsonIgnore String invisibleField = "Hello, world!";
int id;
String name;
int born;
public Person(int id, String name, int born) {
this.id = id;
this.name = name;
this.born = born;
}
}