Wednesday, December 21, 2011

How to use Android Market on Android Emulator 2.2

After some digging, finally I got android market working on Android emulator 2.2 running on Windows Vista. Here is the steps,:
  • Start SDK Setup.exe and create an AVD - android-2.2
  • Copy system.img coming with the SDK platform to the newly created AVD.
cd c:\Users\dliu\.android\avd\android-2.2.avd
copy c:\labs\android-sdk-windows\platforms\android-8\images\system.img .
  • Start the emulator by using command line:
c:\labs\android-sdk-windows\tools>emulator -avd android-2.2 -partition-size 96
  • Pull build.prop from the emulator for editing:
c:\labs\android-sdk-windows\tools>adb.exe pull /system/build.prop .
  • Comment out ro.config.nocheckin=yes line from the build.prop file just pulled out from the emulator.
  • Push back the updated build.prop file to the emuloator
C:\labs\android-sdk-windows\tools>adb.exe remount
C:\labs\android-sdk-windows\tools>adb.exe push build.prop /system/build.prop
C:\labs\android-sdk-windows\tools>adb.exe push c:\labs\r21-update-nexusone-modacocustomcustomrom-withadditions-chinese-signed\system\app\GoogleServicesFramework.apk /system/app
C:\labs\android-sdk-windows\tools>adb.exe push c:\labs\r21-update-nexusone-modacocustomcustomrom-withadditions-chinese-signed\system\app\Vending.apk /
system/app
C:\labs\android-sdk-windows\tools>adb shell rm /system/app/SdkSetup.apk
  • Stop the emulator and delete the files: userdata-qemu.img, userdata.img, cache.img
  • start the emulator by using command line again, you should get the Android Market in your emulator.

Wednesday, December 14, 2011

Using your own SQLite database in Android applications



Most all of the Android examples and tutorials out there assume you want to create and populate your database at runtime and not to use and access an independent, preloaded database with your Android application.
The method I'm going to show you takes your own SQLite database file from the "assets" folder and copies into the system database path of your application so the SQLiteDatabase API can open and access it normally.
1. Preparing the SQLite database file.
Assuming you already have your sqlite database created, we need to do some modifications to it.
If you don't have a sqlite manager I recommend you to download the opensource SQLite Database Browser available for Win/Linux/Mac.
Open your database and add a new table called "android_metadata", you can execute the following SQL statement to do it:
CREATE TABLE "android_metadata" ("locale" TEXT DEFAULT 'en_US')
Now insert a single row with the text 'en_US' in the "android_metadata" table:
INSERT INTO "android_metadata" VALUES ('en_US')
Then, it is necessary to rename the primary id field of your tables to "_id" so Android will know where to bind the id field of your tables.
You can easily do this with SQLite Database Browser by pressing the edit table button Edit Table, then selecting the table you want to edit and finally selecting the field you want to rename.
After renaming the id field of all your data tables to "_id" and adding the "android_metadata" table, your database it's ready to be used in your Android application.
Modified database
Modified database
Note: in this image we see the tables "Categories" and "Content" with the id field renamed to "_id" and the just added table "android_metadata".
2. Copying, opening and accessing your database in your Android application.
Now just put your database file in the "assets" folder of your project and create a Database Helper class by extending the SQLiteOpenHelper class from the "android.database.sqlite" package.
Make your DataBaseHelper class look like this:
public class DataBaseHelper extends SQLiteOpenHelper{
 
    //The Android's default system path of your application database.
    private static String DB_PATH = "/data/data/YOUR_PACKAGE/databases/";
 
    private static String DB_NAME = "myDBName";
 
    private SQLiteDatabase myDataBase; 
 
    private final Context myContext;
 
    /**
     * Constructor
     * Takes and keeps a reference of the passed context in order to access to the application assets and resources.
     * @param context
     */
    public DataBaseHelper(Context context) {
 
     super(context, DB_NAME, null, 1);
        this.myContext = context;
    } 
 
  /**
     * Creates a empty database on the system and rewrites it with your own database.
     * */
    public void createDataBase() throws IOException{
 
     boolean dbExist = checkDataBase();
 
     if(dbExist){
      //do nothing - database already exist
     }else{
 
      //By calling this method and empty database will be created into the default system path
               //of your application so we are gonna be able to overwrite that database with our database.
         this.getReadableDatabase();
 
         try {
 
       copyDataBase();
 
      } catch (IOException e) {
 
          throw new Error("Error copying database");
 
         }
     }
 
    }
 
    /**
     * Check if the database already exist to avoid re-copying the file each time you open the application.
     * @return true if it exists, false if it doesn't
     */
    private boolean checkDataBase(){
 
     SQLiteDatabase checkDB = null;
 
     try{
      String myPath = DB_PATH + DB_NAME;
      checkDB = SQLiteDatabase.openDatabase(myPath, null, SQLiteDatabase.OPEN_READONLY);
 
     }catch(SQLiteException e){
 
      //database does't exist yet.
 
     }
 
     if(checkDB != null){
 
      checkDB.close();
 
     }
 
     return checkDB != null ? true : false;
    }
 
    /**
     * Copies your database from your local assets-folder to the just created empty database in the
     * system folder, from where it can be accessed and handled.
     * This is done by transfering bytestream.
     * */
    private void copyDataBase() throws IOException{
 
     //Open your local db as the input stream
     InputStream myInput = myContext.getAssets().open(DB_NAME);
 
     // Path to the just created empty db
     String outFileName = DB_PATH + DB_NAME;
 
     //Open the empty db as the output stream
     OutputStream myOutput = new FileOutputStream(outFileName);
 
     //transfer bytes from the inputfile to the outputfile
     byte[] buffer = new byte[1024];
     int length;
     while ((length = myInput.read(buffer))>0){
      myOutput.write(buffer, 0, length);
     }
 
     //Close the streams
     myOutput.flush();
     myOutput.close();
     myInput.close();
 
    }
 
    public void openDataBase() throws SQLException{
 
     //Open the database
        String myPath = DB_PATH + DB_NAME;
     myDataBase = SQLiteDatabase.openDatabase(myPath, null, SQLiteDatabase.OPEN_READONLY);
 
    }
 
    @Override
 public synchronized void close() {
 
         if(myDataBase != null)
          myDataBase.close();
 
         super.close();
 
 }
 
 @Override
 public void onCreate(SQLiteDatabase db) {
 
 }
 
 @Override
 public void onUpgrade(SQLiteDatabase db, int oldVersion, int newVersion) {
 
 }
 
        // Add your public helper methods to access and get content from the database.
       // You could return cursors by doing "return myDataBase.query(....)" so it'd be easy
       // to you to create adapters for your views.
 
}
That's it.
Now you can create a new instance of this DataBaseHelper class and call the createDataBase() and openDataBase() methods. Remember to change the "YOUR_PACKAGE" to your application package namespace (i.e: com.examplename.myapp) in the DB_PATH string.
       ...
 
        DataBaseHelper myDbHelper = new DataBaseHelper();
        myDbHelper = new DataBaseHelper(this);
 
        try {
 
         myDbHelper.createDataBase();
 
  } catch (IOException ioe) {
 
   throw new Error("Unable to create database");
 
  }
 
  try {
 
   myDbHelper.openDataBase();
 
  }catch(SQLException sqle){
 
   throw sqle;
 
  }
 
        ...