This library implements the Distributed Data Protocol (DDP) from Meteor for clients on Android.
Connect your native Android apps, written in Java, to apps built with the Meteor framework and build real-time features.
WebView
. It will not be a native app.Add this library to your project
Declare the Gradle repository in your root build.gradle
allprojects {
repositories {
maven { url "https://jitpack.io" }
}
}
Declare the Gradle dependency in your app module's build.gradle
dependencies {
compile 'com.github.delight-im:Android-DDP:v3.3.1'
}
Add the Internet permission to your app's AndroidManifest.xml
:
<uses-permission android:name="android.permission.INTERNET" />
Creating a new instance of the DDP client
public class MyActivity extends Activity implements MeteorCallback {
private Meteor mMeteor;
@Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
// ...
// create a new instance
mMeteor = new Meteor(this, "ws://example.meteor.com/websocket");
// register the callback that will handle events and receive messages
mMeteor.addCallback(this);
// establish the connection
mMeteor.connect();
}
public void onConnect(boolean signedInAutomatically) { }
public void onDisconnect() { }
public void onDataAdded(String collectionName, String documentID, String newValuesJson) {
// parse the JSON and manage the data yourself (not recommended)
// or
// enable a database (see section "Using databases to manage data") (recommended)
}
public void onDataChanged(String collectionName, String documentID, String updatedValuesJson, String removedValuesJson) {
// parse the JSON and manage the data yourself (not recommended)
// or
// enable a database (see section "Using databases to manage data") (recommended)
}
public void onDataRemoved(String collectionName, String documentID) {
// parse the JSON and manage the data yourself (not recommended)
// or
// enable a database (see section "Using databases to manage data") (recommended)
}
public void onException(Exception e) { }
@Override
public void onDestroy() {
mMeteor.disconnect();
mMeteor.removeCallback(this);
// or
// mMeteor.removeCallbacks();
// ...
super.onDestroy();
}
}
Singleton access
Creating an instance at the beginning
MeteorSingleton.createInstance(this, "ws://example.meteor.com/websocket")
// instead of
// new Meteor(this, "ws://example.meteor.com/websocket")
Accessing the instance afterwards (across Activity
instances)
MeteorSingleton.getInstance()
// instead of
// mMeteor
All other API methods can be called on MeteorSingleton.getInstance()
just as you would do on any other Meteor
instance, as documented here with mMeteor
Registering a callback
// MeteorCallback callback;
mMeteor.addCallback(callback);
Unregistering a callback
mMeteor.removeCallbacks();
// or
// // MeteorCallback callback;
// mMeteor.removeCallback(callback);
Available data types
JavaScript / JSON | Java / Android |
---|---|
String (e.g. "John" or 'Jane' ) |
String (e.g. "John" or "Jane" ) |
Number (e.g. 42 ) |
byte (e.g. (byte) 42 ) |
short (e.g. (short) 42 ) |
|
int (e.g. 42 ) |
|
long (e.g. 42L ) |
|
float (e.g. 3.14f ) |
|
double (e.g. 3.14 ) |
|
Boolean (e.g. true ) |
boolean (e.g. true ) |
Array (e.g. [ 7, "Hi", true ] ) |
Object[] (e.g. new Object[] { 7, "Hi", true } ) |
List<Object> (e.g. List<Object> list = new LinkedList<Object>(); list.add(7); list.add("Hi"); list.add(true); ) |
|
Object (e.g. { "amount": 100, "currency": "USD" } ) |
Map<String, Object> (e.g. Map<String, Object> map = new HashMap<String, Object>(); map.put("amount", 100); map.put("currency", "USD"); ) |
MyClass (e.g. public class MyClass { public int amount; public String currency; } MyClass myObj = new MyClass(); myObj.amount = 100; myObj.currency = "USD"; ) |
|
null |
null |
Inserting data into a collection
Map<String, Object> values = new HashMap<String, Object>();
values.put("_id", "my-id");
values.put("some-key", "some-value");
mMeteor.insert("my-collection", values);
// or
// mMeteor.insert("my-collection", values, new ResultListener() { });
Updating data in a collection
Map<String, Object> query = new HashMap<String, Object>();
query.put("_id", "my-id");
Map<String, Object> values = new HashMap<String, Object>();
values.put("some-key", "some-value");
mMeteor.update("my-collection", query, values);
// or
// mMeteor.update("my-collection", query, values, options);
// or
// mMeteor.update("my-collection", query, values, options, new ResultListener() { });
Deleting data from a collection
mMeteor.remove("my-collection", "my-id");
// or
// mMeteor.remove("my-collection", "my-id", new ResultListener() { });
Subscribing to data from the server
String subscriptionId = mMeteor.subscribe("my-subscription");
// or
// String subscriptionId = mMeteor.subscribe("my-subscription", new Object[] { arg1, arg2 });
// or
// String subscriptionId = mMeteor.subscribe("my-subscription", new Object[] { arg1, arg2 }, new SubscribeListener() { });
Unsubscribing from a previously established subscription
mMeteor.unsubscribe(subscriptionId);
// or
// mMeteor.unsubscribe(subscriptionId, new UnsubscribeListener() { });
Calling a custom method defined on the server
mMeteor.call("myMethod");
// or
// mMeteor.call("myMethod", new Object[] { arg1, arg2 });
// or
// mMeteor.call("myMethod", new ResultListener() { });
// or
// mMeteor.call("myMethod", new Object[] { arg1, arg2 }, new ResultListener() { });
Disconnect from the server
mMeteor.disconnect();
Creating a new account (requires accounts-password
package)
mMeteor.registerAndLogin("john", "john.doe@example.com", "password", new ResultListener() { });
// or
// mMeteor.registerAndLogin("john", "john.doe@example.com", "password", profile, new ResultListener() { });
Signing in with an existing username (requires accounts-password
package)
mMeteor.loginWithUsername("john", "password", new ResultListener() { });
Signing in with an existing email address (requires accounts-password
package)
mMeteor.loginWithEmail("john.doe@example.com", "password", new ResultListener() { });
Check if the client is currently logged in (requires accounts-password
package)
mMeteor.isLoggedIn();
Get the client's user ID (if currently logged in) (requires accounts-password
package)
mMeteor.getUserId();
Logging out (requires accounts-password
package)
mMeteor.logout();
// or
// mMeteor.logout(new ResultListener() { });
Checking whether the client is connected
mMeteor.isConnected();
Manually attempt to re-connect (if necessary)
mMeteor.reconnect();
Pass an instance of Database
to the constructor. Right now, the only subclass provided as a built-in database is InMemoryDatabase
. So the code for the constructor becomes:
mMeteor = new Meteor(this, "ws://example.meteor.com/websocket", new InMemoryDatabase());
After that change, all data received from the server will automatically be parsed, updated and managed for you in the built-in database. That means no manual JSON parsing!
So whenever you receive data notifications via onDataAdded
, onDataChanged
or onDataRemoved
, that data has already been merged into the database and can be retrieved from there. In these callbacks, you can thus ignore the parameters containing JSON data and instead get the data from your database.
Database database = mMeteor.getDatabase();
This method call and most of the following method calls can be chained for simplicity.
// String collectionName = "myCollection";
Collection collection = mMeteor.getDatabase().getCollection(collectionName);
String[] collectionNames = mMeteor.getDatabase().getCollectionNames();
int numCollections = mMeteor.getDatabase().count();
// String documentId = "wjQvNQ6sGjzLMDyiJ";
Document document = mMeteor.getDatabase().getCollection(collectionName).getDocument(documentId);
String[] documentIds = mMeteor.getDatabase().getCollection(collectionName).getDocumentIds();
int numDocuments = mMeteor.getDatabase().getCollection(collectionName).count();
Any of the following method calls can be chained and combined in any way to select documents via complex queries.
// String fieldName = "age";
// int fieldValue = 62;
Query query = mMeteor.getDatabase().getCollection(collectionName).whereEqual(fieldName, fieldValue);
// String fieldName = "active";
// int fieldValue = false;
Query query = mMeteor.getDatabase().getCollection(collectionName).whereNotEqual(fieldName, fieldValue);
// String fieldName = "accountBalance";
// float fieldValue = 100000.00f;
Query query = mMeteor.getDatabase().getCollection(collectionName).whereLessThan(fieldName, fieldValue);
// String fieldName = "numChildren";
// long fieldValue = 3L;
Query query = mMeteor.getDatabase().getCollection(collectionName).whereLessThanOrEqual(fieldName, fieldValue);
// String fieldName = "revenue";
// double fieldValue = 0.00;
Query query = mMeteor.getDatabase().getCollection(collectionName).whereGreaterThan(fieldName, fieldValue);
// String fieldName = "age";
// int fieldValue = 21;
Query query = mMeteor.getDatabase().getCollection(collectionName).whereGreaterThanOrEqual(fieldName, fieldValue);
// String fieldName = "address";
Query query = mMeteor.getDatabase().getCollection(collectionName).whereNull(fieldName);
// String fieldName = "modifiedAt";
Query query = mMeteor.getDatabase().getCollection(collectionName).whereNotNull(fieldName);
// String fieldName = "age";
// Integer[] fieldValues = new Integer[] { 60, 70, 80 };
Query query = mMeteor.getDatabase().getCollection(collectionName).whereIn(fieldName, fieldValues);
// String fieldName = "languageCode";
// String[] fieldValues = new String[] { "zh", "es", "en", "hi", "ar" };
Query query = mMeteor.getDatabase().getCollection(collectionName).whereNotIn(fieldName, fieldValues);
Any query can be executed by a find
or findOne
call. The step of first creating the Query
instance can be skipped if you chain the calls to execute the query immediately.
Document[] documents = mMeteor.getDatabase().getCollection(collectionName).find();
// int limit = 30;
Document[] documents = mMeteor.getDatabase().getCollection(collectionName).find(limit);
// int limit = 30;
// int offset = 5;
Document[] documents = mMeteor.getDatabase().getCollection(collectionName).find(limit, offset);
Document document = mMeteor.getDatabase().getCollection(collectionName).findOne();
Chained together, these calls may look as follows, for example:
Document document = mMeteor.getDatabase().getCollection("users").whereNotNull("lastLoginAt").whereGreaterThan("level", 3).findOne();
// String fieldName = "age";
Object field = mMeteor.getDatabase().getCollection(collectionName).getDocument(documentId).getField(fieldName);
String[] fieldNames = mMeteor.getDatabase().getCollection(collectionName).getDocument(documentId).getFieldNames();
int numFields = mMeteor.getDatabase().getCollection(collectionName).getDocument(documentId).count();
All contributions are welcome! If you wish to contribute, please create an issue first so that your feature, problem or question can be discussed.
This project is neither affiliated with nor endorsed by Meteor.
Copyright (c) delight.im <info@delight.im>
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.