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If your application requires a database, and comes with built in data, what is the best way to ship that application?

1) Precreate the sqlite database and include it in the apk?

2) Include the SQL commands with the application and have it create the database and insert the data on first use?

The drawbacks I see

1) Possible sqlite version mismatches might cause problems, and I currently don't know where the database should go and how to access it.

2) It may take a really long time to create and populate the database on the device.

Your thoughts? Pointers to documentation regarding any issues would be great.

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1  
2  
use SQLiteAssetHelper –  Richard Le Mesurier Mar 6 at 12:30

10 Answers 10

up vote 255 down vote accepted

I just found a way to do this in ReignDesign blog in an article titled Using your own SQLite database in Android applications. Basically you precreate your database, put it in your assets directory in your apk, and on first use copy to "/data/data/YOUR_PACKAGE/databases/" directory.

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5  
Nice link. This looks faster than INSERTing every row into a database, but you still have the "duplicate databse" issue. There will be two copies of the database, one in the .apk and one in the filesystem. –  Will Mar 6 '09 at 23:17
9  
This causes your app to have two databases consuming space, right? –  gonzobrains Aug 30 '11 at 15:34
14  
Don't forget to use Context.getDatabasePath instead of hard-coding the path. –  sargas Jul 29 '12 at 1:35
51  
This code from that blog post is old, outdated, dreadful (concatenation to create file paths?), and problematic (I'm tired of seeing developer questions about trying to get it to work). Please, just use SQLiteAssetHelper: github.com/jgilfelt/android-sqlite-asset-helper –  CommonsWare Jul 10 '13 at 23:11
5  
@CommonsWare's proposed solution in his comment is by far the best solution. Just extending your SQLiteOpenHelper from SQliteAssetHelper in that library, and provide the database files and the upgrade scripts in the assets folder. It couldn't be easier! –  Christian García Nov 7 '13 at 17:53

There are two options for creating and updating databases.

One is to create a database externally, then place it in the assets folder of the project and then copy the entire database from there. This is much quicker if the database has a lot of tables and other components. Upgrades are triggered by changing the database version number in the res/values/strings.xml file. Upgrades would then be accomplished by creating a new database externally, replacing the old database in the assets folder with the new database, saving the old database in internal storage under another name, copying the new database from the assets folder into internal storage, transferring all of the data from the old database (that was renamed earlier) into the new database and finally deleting the old database. You can create a database originally by using the SQLite Manager FireFox plugin to execute your creation sql statements.

The other option is to create a database internally from a sql file. This is not as quick but the delay would probably be unnoticeable to the users if the database has only a few tables. Upgrades are triggered by changing the database version number in the res/values/strings.xml file. Upgrades would then be accomplished by processing an upgrade sql file. The data in the database will remain unchanged except when its container is removed, for example dropping a table.

The example below demonstrates how to use either method.

Here is a sample create_database.sql file. It is to be placed in the assets folder of the project for the internal method or copied into the "Execute SQL' of SQLite Manager to create the database for the external method. (NOTE: Notice the comment about the table required by Android.)

--Android requires a table named 'android_metadata' with a 'locale' column
CREATE TABLE "android_metadata" ("locale" TEXT DEFAULT 'en_US');
INSERT INTO "android_metadata" VALUES ('en_US');

CREATE TABLE "kitchen_table";
CREATE TABLE "coffee_table";
CREATE TABLE "pool_table";
CREATE TABLE "dining_room_table";
CREATE TABLE "card_table"; 

Here is a sample update_database.sql file. It is to be placed in the assets folder of the project for the internal method or copied into the "Execute SQL' of SQLite Manager to create the database for the external method. (NOTE: Notice that all three types of SQL comments will be ignored by the sql parser that is included in this example.)

--CREATE TABLE "kitchen_table";  This is one type of comment in sql.  It is ignored by parseSql.
/*
 * CREATE TABLE "coffee_table"; This is a second type of comment in sql.  It is ignored by parseSql.
 */
{
CREATE TABLE "pool_table";  This is a third type of comment in sql.  It is ignored by parseSql.
}
/* CREATE TABLE "dining_room_table"; This is a second type of comment in sql.  It is ignored by parseSql. */
{ CREATE TABLE "card_table"; This is a third type of comment in sql.  It is ignored by parseSql. }

--DROP TABLE "picnic_table"; Uncomment this if picnic table was previously created and now is being replaced.
CREATE TABLE "picnic_table" ("plates" TEXT);
INSERT INTO "picnic_table" VALUES ('paper');

Here is an entry to add to the /res/values/strings.xml file for the database version number.

<item type="string" name="databaseVersion" format="integer">1</item>

Here is an activity that accesses the database and then uses it. (Note: You might want to run the database code in a separate thread if it uses a lot of resources.)

package android.example;

import android.app.Activity;
import android.database.sqlite.SQLiteDatabase;
import android.os.Bundle;

/**
 * @author Danny Remington - MacroSolve
 * 
 *         Activity for demonstrating how to use a sqlite database.
 */
public class Database extends Activity {
     /** Called when the activity is first created. */
     @Override
    public void onCreate(Bundle savedInstanceState) {
        super.onCreate(savedInstanceState);
        setContentView(R.layout.main);
        DatabaseHelper myDbHelper;
        SQLiteDatabase myDb = null;

        myDbHelper = new DatabaseHelper(this);
        /*
         * Database must be initialized before it can be used. This will ensure
         * that the database exists and is the current version.
         */
         myDbHelper.initializeDataBase();

         try {
            // A reference to the database can be obtained after initialization.
            myDb = myDbHelper.getWritableDatabase();
            /*
             * Place code to use database here.
             */
         } catch (Exception ex) {
            ex.printStackTrace();
         } finally {
            try {
                myDbHelper.close();
            } catch (Exception ex) {
                ex.printStackTrace();
            } finally {
                myDb.close();
            }
        }

    }
}

Here is the database helper class where the database is created or updated if necessary. (NOTE: Android requires that you create a class that extends SQLiteOpenHelper in order to work with a Sqlite database.)

package android.example;

import java.io.FileOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;

import android.content.Context;
import android.database.sqlite.SQLiteDatabase;
import android.database.sqlite.SQLiteOpenHelper;

/**
 * @author Danny Remington - MacroSolve
 * 
 *         Helper class for sqlite database.
 */
public class DatabaseHelper extends SQLiteOpenHelper {

    /*
     * The Android's default system path of the application database in internal
     * storage. The package of the application is part of the path of the
     * directory.
     */
    private static String DB_DIR = "/data/data/android.example/databases/";
    private static String DB_NAME = "database.sqlite";
    private static String DB_PATH = DB_DIR + DB_NAME;
    private static String OLD_DB_PATH = DB_DIR + "old_" + DB_NAME;

    private final Context myContext;

    private boolean createDatabase = false;
    private boolean upgradeDatabase = false;

    /**
     * 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, context.getResources().getInteger(
                R.string.databaseVersion));
        myContext = context;
        // Get the path of the database that is based on the context.
        DB_PATH = myContext.getDatabasePath(DB_NAME).getAbsolutePath();
    }

    /**
     * Upgrade the database in internal storage if it exists but is not current. 
     * Create a new empty database in internal storage if it does not exist.
     */
    public void initializeDataBase() {
        /*
         * Creates or updates the database in internal storage if it is needed
         * before opening the database. In all cases opening the database copies
         * the database in internal storage to the cache.
         */
        getWritableDatabase();

        if (createDatabase) {
            /*
             * If the database is created by the copy method, then the creation
             * code needs to go here. This method consists of copying the new
             * database from assets into internal storage and then caching it.
             */
            try {
                /*
                 * Write over the empty data that was created in internal
                 * storage with the one in assets and then cache it.
                 */
                copyDataBase();
            } catch (IOException e) {
                throw new Error("Error copying database");
            }
        } else if (upgradeDatabase) {
            /*
             * If the database is upgraded by the copy and reload method, then
             * the upgrade code needs to go here. This method consists of
             * renaming the old database in internal storage, create an empty
             * new database in internal storage, copying the database from
             * assets to the new database in internal storage, caching the new
             * database from internal storage, loading the data from the old
             * database into the new database in the cache and then deleting the
             * old database from internal storage.
             */
            try {
                FileHelper.copyFile(DB_PATH, OLD_DB_PATH);
                copyDataBase();
                SQLiteDatabase old_db = SQLiteDatabase.openDatabase(OLD_DB_PATH, null, SQLiteDatabase.OPEN_READWRITE);
                SQLiteDatabase new_db = SQLiteDatabase.openDatabase(DB_PATH,null, SQLiteDatabase.OPEN_READWRITE);
                /*
                 * Add code to load data into the new database from the old
                 * database and then delete the old database from internal
                 * storage after all data has been transferred.
                 */
            } catch (IOException e) {
                throw new Error("Error copying database");
            }
        }

    }

    /**
     * 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 {
        /*
         * Close SQLiteOpenHelper so it will commit the created empty database
         * to internal storage.
         */
        close();

        /*
         * Open the database in the assets folder as the input stream.
         */
        InputStream myInput = myContext.getAssets().open(DB_NAME);

        /*
         * Open the empty db in interal storage as the output stream.
         */
        OutputStream myOutput = new FileOutputStream(DB_PATH);

        /*
         * Copy over the empty db in internal storage with the database in the
         * assets folder.
         */
        FileHelper.copyFile(myInput, myOutput);

        /*
         * Access the copied database so SQLiteHelper will cache it and mark it
         * as created.
         */
        getWritableDatabase().close();
    }

    /*
     * This is where the creation of tables and the initial population of the
     * tables should happen, if a database is being created from scratch instead
     * of being copied from the application package assets. Copying a database
     * from the application package assets to internal storage inside this
     * method will result in a corrupted database.
     * <P>
     * NOTE: This method is normally only called when a database has not already
     * been created. When the database has been copied, then this method is
     * called the first time a reference to the database is retrieved after the
     * database is copied since the database last cached by SQLiteOpenHelper is
     * different than the database in internal storage.
     */
    @Override
    public void onCreate(SQLiteDatabase db) {
        /*
         * Signal that a new database needs to be copied. The copy process must
         * be performed after the database in the cache has been closed causing
         * it to be committed to internal storage. Otherwise the database in
         * internal storage will not have the same creation timestamp as the one
         * in the cache causing the database in internal storage to be marked as
         * corrupted.
         */
        createDatabase = true;

        /*
         * This will create by reading a sql file and executing the commands in
         * it.
         */
            // try {
            // InputStream is = myContext.getResources().getAssets().open(
            // "create_database.sql");
            //
            // String[] statements = FileHelper.parseSqlFile(is);
            //
            // for (String statement : statements) {
            // db.execSQL(statement);
            // }
            // } catch (Exception ex) {
            // ex.printStackTrace();
            // }
    }

    /**
     * Called only if version number was changed and the database has already
     * been created. Copying a database from the application package assets to
     * the internal data system inside this method will result in a corrupted
     * database in the internal data system.
     */
    @Override
    public void onUpgrade(SQLiteDatabase db, int oldVersion, int newVersion) {
        /*
         * Signal that the database needs to be upgraded for the copy method of
         * creation. The copy process must be performed after the database has
         * been opened or the database will be corrupted.
         */
        upgradeDatabase = true;

        /*
         * Code to update the database via execution of sql statements goes
         * here.
         */

        /*
         * This will upgrade by reading a sql file and executing the commands in
         * it.
         */
        // try {
        // InputStream is = myContext.getResources().getAssets().open(
        // "upgrade_database.sql");
        //
        // String[] statements = FileHelper.parseSqlFile(is);
        //
        // for (String statement : statements) {
        // db.execSQL(statement);
        // }
        // } catch (Exception ex) {
        // ex.printStackTrace();
        // }
    }

    /**
     * Called everytime the database is opened by getReadableDatabase or
     * getWritableDatabase. This is called after onCreate or onUpgrade is
     * called.
     */
    @Override
    public void onOpen(SQLiteDatabase db) {
        super.onOpen(db);
    }

    /*
     * 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.
     */

}

Here's the FileHelper class that contains methods for byte stream copying files and parsing sql files.

package android.example;

import java.io.BufferedReader;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileOutputStream;
import java.io.FileReader;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.io.OutputStream;
import java.io.Reader;
import java.nio.channels.FileChannel;

/**
 * @author Danny Remington - MacroSolve
 * 
 *         Helper class for common tasks using files.
 * 
 */
public class FileHelper {
    /**
     * Creates the specified <i><b>toFile</b></i> that is a byte for byte a copy
     * of <i><b>fromFile</b></i>. If <i><b>toFile</b></i> already existed, then
     * it will be replaced with a copy of <i><b>fromFile</b></i>. The name and
     * path of <i><b>toFile</b></i> will be that of <i><b>toFile</b></i>. Both
     * <i><b>fromFile</b></i> and <i><b>toFile</b></i> will be closed by this
     * operation.
     * 
     * @param fromFile
     *            - InputStream for the file to copy from.
     * @param toFile
     *            - InputStream for the file to copy to.
     */
    public static void copyFile(InputStream fromFile, OutputStream toFile) throws IOException {
        // transfer bytes from the inputfile to the outputfile
        byte[] buffer = new byte[1024];
        int length;

        try {
            while ((length = fromFile.read(buffer)) > 0) {
                toFile.write(buffer, 0, length);
            }
        }
        // Close the streams
        finally {
            try {
                if (toFile != null) {
                    try {
                        toFile.flush();
                    } finally {
                        toFile.close();
                    }
            }
            } finally {
                if (fromFile != null) {
                    fromFile.close();
                }
            }
        }
    }

    /**
     * Creates the specified <i><b>toFile</b></i> that is a byte for byte a copy
     * of <i><b>fromFile</b></i>. If <i><b>toFile</b></i> already existed, then
     * it will be replaced with a copy of <i><b>fromFile</b></i>. The name and
     * path of <i><b>toFile</b></i> will be that of <i><b>toFile</b></i>. Both
     * <i><b>fromFile</b></i> and <i><b>toFile</b></i> will be closed by this
     * operation.
     * 
     * @param fromFile
     *            - String specifying the path of the file to copy from.
     * @param toFile
     *            - String specifying the path of the file to copy to.
     */
    public static void copyFile(String fromFile, String toFile) throws IOException {
        copyFile(new FileInputStream(fromFile), new FileOutputStream(toFile));
    }

    /**
     * Creates the specified <i><b>toFile</b></i> that is a byte for byte a copy
     * of <i><b>fromFile</b></i>. If <i><b>toFile</b></i> already existed, then
     * it will be replaced with a copy of <i><b>fromFile</b></i>. The name and
     * path of <i><b>toFile</b></i> will be that of <i><b>toFile</b></i>. Both
     * <i><b>fromFile</b></i> and <i><b>toFile</b></i> will be closed by this
     * operation.
     * 
     * @param fromFile
     *            - File for the file to copy from.
     * @param toFile
     *            - File for the file to copy to.
     */
    public static void copyFile(File fromFile, File toFile) throws IOException {
        copyFile(new FileInputStream(fromFile), new FileOutputStream(toFile));
    }

    /**
     * Creates the specified <i><b>toFile</b></i> that is a byte for byte a copy
     * of <i><b>fromFile</b></i>. If <i><b>toFile</b></i> already existed, then
     * it will be replaced with a copy of <i><b>fromFile</b></i>. The name and
     * path of <i><b>toFile</b></i> will be that of <i><b>toFile</b></i>. Both
     * <i><b>fromFile</b></i> and <i><b>toFile</b></i> will be closed by this
     * operation.
     * 
     * @param fromFile
     *            - FileInputStream for the file to copy from.
     * @param toFile
     *            - FileInputStream for the file to copy to.
     */
    public static void copyFile(FileInputStream fromFile, FileOutputStream toFile) throws IOException {
        FileChannel fromChannel = fromFile.getChannel();
        FileChannel toChannel = toFile.getChannel();

        try {
            fromChannel.transferTo(0, fromChannel.size(), toChannel);
        } finally {
            try {
                if (fromChannel != null) {
                    fromChannel.close();
                }
            } finally {
                if (toChannel != null) {
                    toChannel.close();
                }
            }
        }
    }

    /**
     * Parses a file containing sql statements into a String array that contains
     * only the sql statements. Comments and white spaces in the file are not
     * parsed into the String array. Note the file must not contained malformed
     * comments and all sql statements must end with a semi-colon ";" in order
     * for the file to be parsed correctly. The sql statements in the String
     * array will not end with a semi-colon ";".
     * 
     * @param sqlFile
     *            - String containing the path for the file that contains sql
     *            statements.
     * 
     * @return String array containing the sql statements.
     */
    public static String[] parseSqlFile(String sqlFile) throws IOException {
        return parseSqlFile(new BufferedReader(new FileReader(sqlFile)));
    }

    /**
     * Parses a file containing sql statements into a String array that contains
     * only the sql statements. Comments and white spaces in the file are not
     * parsed into the String array. Note the file must not contained malformed
     * comments and all sql statements must end with a semi-colon ";" in order
     * for the file to be parsed correctly. The sql statements in the String
     * array will not end with a semi-colon ";".
     * 
     * @param sqlFile
     *            - InputStream for the file that contains sql statements.
     * 
     * @return String array containing the sql statements.
     */
    public static String[] parseSqlFile(InputStream sqlFile) throws IOException {
        return parseSqlFile(new BufferedReader(new InputStreamReader(sqlFile)));
    }

    /**
     * Parses a file containing sql statements into a String array that contains
     * only the sql statements. Comments and white spaces in the file are not
     * parsed into the String array. Note the file must not contained malformed
     * comments and all sql statements must end with a semi-colon ";" in order
     * for the file to be parsed correctly. The sql statements in the String
     * array will not end with a semi-colon ";".
     * 
     * @param sqlFile
     *            - Reader for the file that contains sql statements.
     * 
     * @return String array containing the sql statements.
     */
    public static String[] parseSqlFile(Reader sqlFile) throws IOException {
        return parseSqlFile(new BufferedReader(sqlFile));
    }

    /**
     * Parses a file containing sql statements into a String array that contains
     * only the sql statements. Comments and white spaces in the file are not
     * parsed into the String array. Note the file must not contained malformed
     * comments and all sql statements must end with a semi-colon ";" in order
     * for the file to be parsed correctly. The sql statements in the String
     * array will not end with a semi-colon ";".
     * 
     * @param sqlFile
     *            - BufferedReader for the file that contains sql statements.
     * 
     * @return String array containing the sql statements.
     */
    public static String[] parseSqlFile(BufferedReader sqlFile) throws IOException {
        String line;
        StringBuilder sql = new StringBuilder();
        String multiLineComment = null;

        while ((line = sqlFile.readLine()) != null) {
            line = line.trim();

            // Check for start of multi-line comment
            if (multiLineComment == null) {
                // Check for first multi-line comment type
                if (line.startsWith("/*")) {
                    if (!line.endsWith("}")) {
                        multiLineComment = "/*";
                    }
                // Check for second multi-line comment type
                } else if (line.startsWith("{")) {
                    if (!line.endsWith("}")) {
                        multiLineComment = "{";
                }
                // Append line if line is not empty or a single line comment
                } else if (!line.startsWith("--") && !line.equals("")) {
                    sql.append(line);
                } // Check for matching end comment
            } else if (multiLineComment.equals("/*")) {
                if (line.endsWith("*/")) {
                    multiLineComment = null;
                }
            // Check for matching end comment
            } else if (multiLineComment.equals("{")) {
                if (line.endsWith("}")) {
                    multiLineComment = null;
                }
            }

        }

        sqlFile.close();

        return sql.toString().split(";");
    }

}
share|improve this answer
    
i used the above code to to upgrade my db "upgrade_database.sql contains insert statement. some of the values have semicoln like insert into table_a values ('ss','ddd','aaaa;aaa'); " when i run the i noticed above mention insert not getting esecute because of the semicoln in the values any ides how to fix this. –  Sam Jul 16 '11 at 10:48
4  
There is a third option - copy the db from the web. I've done this and it goes fairly quickly for a 4 meg db. It also solves the issue with 2.3, for which the first solution (copy db) doesn't work. –  Jack BeNimble Sep 9 '11 at 13:00
2  
Danny And Austyn - Your solution was perfect. I was having trouble with my home brewed solution and stumbled on yours. It really hit the spot. Thanks for taking the time to provide it. –  George Baker Feb 27 '12 at 3:44
    
I much prefer this answer against the top voted and accepted one. It has all information in one place (no see this link parts) and mentioned some Android specifics that I had no idea existed(like CREATE TABLE "android_metadata"). Also examples are written in great detail which is a plus. It's almost a copy paste solution which is not always good but explanations between the code are great. –  PSIXO Mar 10 at 12:31
    
agree with above comment. this answer is super helpful. the comments are amazing –  Josh Apr 26 at 23:34

The SQLiteAssetHelper library makes this task really simple.
The jar file and documentation are found at https://github.com/jgilfelt/android-sqlite-asset-helper.

As explained in documentation:

  1. Add the android-sqlite-asset-helper.jar to your project libs directory.
  2. Compress the database in a zip file such as assets/databases/database_name.zip.
  3. Create a class:

    public class MyDatabase extends SQLiteAssetHelper {

    private static final String DATABASE_NAME = "database_name";
    private static final int DATABASE_VERSION = 1;
    
    public MyDatabase(Context context) {
        super(context, DATABASE_NAME, null, DATABASE_VERSION);  
    }
    

    }

  4. Done :-)

share|improve this answer

You can use Android Sqlite Asset Helper library for using existing database in your application. This lib will do all heavy duty work for you.

share|improve this answer

Shipping the database inside the apk and then copying it to /data/data/... will double the size of the database (1 in apk, 1 in data/data/...), and will increase the apk size (of course). So your database should not be too big.

share|improve this answer

From what I've seen you should be be shipping a database that already has the tables setup and data. However if you want (and depending on the type of application you have) you can allow "upgrade database option". Then what you do is download the latest sqlite version, get the latest Insert/Create statements of a textfile hosted online, execute the statements and do a data transfer from the old db to the new one.

share|improve this answer
4  
> From what I've seen you should be be shipping a database that already has the tables setup and data. Yes but how do you do this? –  Rory Nov 16 '10 at 19:52

Currently there is no way to precreate an SQLite database to ship with your apk. The best you can do is save the appropriate SQL as a resource and run them from your application. Yes, this leads to duplication of data (same information exists as a resrouce and as a database) but there is no other way right now. The only mitigating factor is the apk file is compressed. My experience is 908KB compresses to less than 268KB.

The thread below has the best discussion/solution I have found with good sample code.

http://groups.google.com/group/android-developers/msg/9f455ae93a1cf152

I stored my CREATE statement as a string resource to be read with Context.getString() and ran it with SQLiteDatabse.execSQL().

I stored the data for my inserts in res/raw/inserts.sql (I created the sql file, 7000+ lines). Using the technique from the link above I entered a loop, read the file line by line and concactenated the data onto "INSERT INTO tbl VALUE " and did another SQLiteDatabase.execSQL(). No sense in saving 7000 "INSERT INTO tbl VALUE "s when they can just be concactenated on.

It takes about twenty seconds on the emulator, I do not know how long this would take on a real phone, but it only happens once, when the user first starts the application.

share|improve this answer
3  
How about pulling the SQL script from the web on the first run? This way there is no need to duplicate data. –  Tamas Czinege Mar 6 '09 at 19:35
1  
Yes, but the device will need to be connected to the internet. That's a serious drawback in some apps. –  WordPress Developer Feb 12 at 17:00

The easy way to make a database for Android SqlLite is using GreenDao.

Source:http://greendao-orm.com/documentation/how-to-get-started/

You dont need to waste a lot of time writeing querys and other stuff that are time consuming. GreenDao also hase database relations like one-to-many && many-to-one && many-to-many, let me just show you how easy it is:)

public class ProjectDaoGenerator {
public static void main(String[] args) throws Exception {
    // your package name
    Schema schema = new Schema(1,
            "com.emercs.android.prjname.persistence");
    createDB(schema);

    // where you want to store the generated classes
    new DaoGenerator().generateAll(schema, "c://DaoGenerator");
}
    private static void createDB(Schema schema) {

    // Customer table...
    Entity customer = schema.addEntity("Customer");
    customer.addIdProperty();
    customer.addIntProperty("vvk");
    customer.addStringProperty("name").notNull();

    // Order table
    Entity order = schema.addEntity("Order");
    order.setTableName("ORDERS");
    order.addIdProperty();
    Property orderDate = order.addDateProperty("date").getProperty();
    Property customerId = order.addLongProperty("customerId").notNull()
            .getProperty();
    order.addToOne(customer, customerId);
    ToMany customerToOrders = customer.addToMany(order, customerId);
    customerToOrders.setName("orders");
    customerToOrders.orderAsc(orderDate);

}}

The last step is Run As -> Java Application and GreenDao will generate the classes in the path new DaoGenerator().generateAll(schema, "c://DaoGenerator");

The result looks like this:

---------DaoMaster----------

public class DaoMaster extends AbstractDaoMaster {
public static final int SCHEMA_VERSION = 1;

/** Creates underlying database table using DAOs. */
public static void createAllTables(SQLiteDatabase db, boolean ifNotExists) {
    CustomerDao.createTable(db, ifNotExists);
    OrderDao.createTable(db, ifNotExists);
}

/** Drops underlying database table using DAOs. */
public static void dropAllTables(SQLiteDatabase db, boolean ifExists) {
    CustomerDao.dropTable(db, ifExists);
    OrderDao.dropTable(db, ifExists);
}

public static abstract class OpenHelper extends SQLiteOpenHelper {

    public OpenHelper(Context context, String name, CursorFactory factory) {
        super(context, name, factory, SCHEMA_VERSION);
    }

    @Override
    public void onCreate(SQLiteDatabase db) {
        Log.i("greenDAO", "Creating tables for schema version " + SCHEMA_VERSION);
        createAllTables(db, false);
    }
}

/** WARNING: Drops all table on Upgrade! Use only during development. */
public static class DevOpenHelper extends OpenHelper {
    public DevOpenHelper(Context context, String name, CursorFactory factory) {
        super(context, name, factory);
    }

    @Override
    public void onUpgrade(SQLiteDatabase db, int oldVersion, int newVersion) {
        Log.i("greenDAO", "Upgrading schema from version " + oldVersion + " to " + newVersion + " by dropping all tables");
        dropAllTables(db, true);
        onCreate(db);
    }
}

public DaoMaster(SQLiteDatabase db) {
    super(db, SCHEMA_VERSION);
    registerDaoClass(CustomerDao.class);
    registerDaoClass(OrderDao.class);
}

public DaoSession newSession() {
    return new DaoSession(db, IdentityScopeType.Session, daoConfigMap);
}

public DaoSession newSession(IdentityScopeType type) {
    return new DaoSession(db, type, daoConfigMap);
}

}

---------Dao Session---------

 // THIS CODE IS GENERATED BY greenDAO, DO NOT EDIT.
public class DaoSession extends AbstractDaoSession {

private final DaoConfig customerDaoConfig;
private final DaoConfig orderDaoConfig;

private final CustomerDao customerDao;
private final OrderDao orderDao;

public DaoSession(SQLiteDatabase db, IdentityScopeType type, Map<Class<? extends AbstractDao<?, ?>>, DaoConfig>
        daoConfigMap) {
    super(db);

    customerDaoConfig = daoConfigMap.get(CustomerDao.class).clone();
    customerDaoConfig.initIdentityScope(type);

    orderDaoConfig = daoConfigMap.get(OrderDao.class).clone();
    orderDaoConfig.initIdentityScope(type);

    customerDao = new CustomerDao(customerDaoConfig, this);
    orderDao = new OrderDao(orderDaoConfig, this);

    registerDao(Customer.class, customerDao);
    registerDao(Order.class, orderDao);
}

public void clear() {
    customerDaoConfig.getIdentityScope().clear();
    orderDaoConfig.getIdentityScope().clear();
}

public CustomerDao getCustomerDao() {
    return customerDao;
}

public OrderDao getOrderDao() {
    return orderDao;
}

}

-----Order Dao-----

public class OrderDao extends AbstractDao<Order, Long> {

public static final String TABLENAME = "ORDERS";

/**
 * Properties of entity Order.<br/>
 * Can be used for QueryBuilder and for referencing column names.
*/
public static class Properties {
    public final static Property Id = new Property(0, Long.class, "id", true, "_id");
    public final static Property Date = new Property(1, java.util.Date.class, "date", false, "DATE");
    public final static Property CustomerId = new Property(2, long.class, "customerId", false, "CUSTOMER_ID");
};

private DaoSession daoSession;

private Query<Order> customer_OrdersQuery;

public OrderDao(DaoConfig config) {
    super(config);
}

public OrderDao(DaoConfig config, DaoSession daoSession) {
    super(config, daoSession);
    this.daoSession = daoSession;
}

/** Creates the underlying database table. */
public static void createTable(SQLiteDatabase db, boolean ifNotExists) {
    String constraint = ifNotExists? "IF NOT EXISTS ": "";
    db.execSQL("CREATE TABLE " + constraint + "'ORDERS' (" + //
            "'_id' INTEGER PRIMARY KEY ," + // 0: id
            "'DATE' INTEGER," + // 1: date
            "'CUSTOMER_ID' INTEGER NOT NULL );"); // 2: customerId
}

/** Drops the underlying database table. */
public static void dropTable(SQLiteDatabase db, boolean ifExists) {
    String sql = "DROP TABLE " + (ifExists ? "IF EXISTS " : "") + "'ORDERS'";
    db.execSQL(sql);
}

/** @inheritdoc */
@Override
protected void bindValues(SQLiteStatement stmt, Order entity) {
    stmt.clearBindings();

    Long id = entity.getId();
    if (id != null) {
        stmt.bindLong(1, id);
    }

    java.util.Date date = entity.getDate();
    if (date != null) {
        stmt.bindLong(2, date.getTime());
    }
    stmt.bindLong(3, entity.getCustomerId());
}

@Override
protected void attachEntity(Order entity) {
    super.attachEntity(entity);
    entity.__setDaoSession(daoSession);
}

/** @inheritdoc */
@Override
public Long readKey(Cursor cursor, int offset) {
    return cursor.isNull(offset + 0) ? null : cursor.getLong(offset + 0);
}    

/** @inheritdoc */
@Override
public Order readEntity(Cursor cursor, int offset) {
    Order entity = new Order( //
        cursor.isNull(offset + 0) ? null : cursor.getLong(offset + 0), // id
        cursor.isNull(offset + 1) ? null : new java.util.Date(cursor.getLong(offset + 1)), // date
        cursor.getLong(offset + 2) // customerId
    );
    return entity;
}

/** @inheritdoc */
@Override
public void readEntity(Cursor cursor, Order entity, int offset) {
    entity.setId(cursor.isNull(offset + 0) ? null : cursor.getLong(offset + 0));
    entity.setDate(cursor.isNull(offset + 1) ? null : new java.util.Date(cursor.getLong(offset + 1)));
    entity.setCustomerId(cursor.getLong(offset + 2));
 }

/** @inheritdoc */
@Override
protected Long updateKeyAfterInsert(Order entity, long rowId) {
    entity.setId(rowId);
    return rowId;
}

/** @inheritdoc */
@Override
public Long getKey(Order entity) {
    if(entity != null) {
        return entity.getId();
    } else {
        return null;
    }
}

/** @inheritdoc */
@Override    
protected boolean isEntityUpdateable() {
    return true;
}

/** Internal query to resolve the "orders" to-many relationship of Customer. */
public List<Order> _queryCustomer_Orders(long customerId) {
    synchronized (this) {
        if (customer_OrdersQuery == null) {
            QueryBuilder<Order> queryBuilder = queryBuilder();
            queryBuilder.where(Properties.CustomerId.eq(null));
            queryBuilder.orderRaw("DATE ASC");
            customer_OrdersQuery = queryBuilder.build();
        }
    }
    Query<Order> query = customer_OrdersQuery.forCurrentThread();
    query.setParameter(0, customerId);
    return query.list();
}

private String selectDeep;

protected String getSelectDeep() {
    if (selectDeep == null) {
        StringBuilder builder = new StringBuilder("SELECT ");
        SqlUtils.appendColumns(builder, "T", getAllColumns());
        builder.append(',');
        SqlUtils.appendColumns(builder, "T0", daoSession.getCustomerDao().getAllColumns());
        builder.append(" FROM ORDERS T");
        builder.append(" LEFT JOIN CUSTOMER T0 ON T.'CUSTOMER_ID'=T0.'_id'");
        builder.append(' ');
        selectDeep = builder.toString();
    }
    return selectDeep;
}

protected Order loadCurrentDeep(Cursor cursor, boolean lock) {
    Order entity = loadCurrent(cursor, 0, lock);
    int offset = getAllColumns().length;

    Customer customer = loadCurrentOther(daoSession.getCustomerDao(), cursor, offset);
     if(customer != null) {
        entity.setCustomer(customer);
    }

    return entity;    
}

public Order loadDeep(Long key) {
    assertSinglePk();
    if (key == null) {
        return null;
    }

    StringBuilder builder = new StringBuilder(getSelectDeep());
    builder.append("WHERE ");
    SqlUtils.appendColumnsEqValue(builder, "T", getPkColumns());
    String sql = builder.toString();

    String[] keyArray = new String[] { key.toString() };
    Cursor cursor = db.rawQuery(sql, keyArray);

    try {
        boolean available = cursor.moveToFirst();
        if (!available) {
            return null;
        } else if (!cursor.isLast()) {
            throw new IllegalStateException("Expected unique result, but count was " + cursor.getCount());
        }
        return loadCurrentDeep(cursor, true);
    } finally {
        cursor.close();
    }
}

/** Reads all available rows from the given cursor and returns a list of new ImageTO objects. */
public List<Order> loadAllDeepFromCursor(Cursor cursor) {
    int count = cursor.getCount();
    List<Order> list = new ArrayList<Order>(count);

    if (cursor.moveToFirst()) {
        if (identityScope != null) {
            identityScope.lock();
            identityScope.reserveRoom(count);
        }
        try {
            do {
                list.add(loadCurrentDeep(cursor, false));
            } while (cursor.moveToNext());
        } finally {
            if (identityScope != null) {
                identityScope.unlock();
            }
        }
    }
    return list;
}

protected List<Order> loadDeepAllAndCloseCursor(Cursor cursor) {
    try {
        return loadAllDeepFromCursor(cursor);
    } finally {
        cursor.close();
    }
}


/** A raw-style query where you can pass any WHERE clause and arguments. */
public List<Order> queryDeep(String where, String... selectionArg) {
    Cursor cursor = db.rawQuery(getSelectDeep() + where, selectionArg);
    return loadDeepAllAndCloseCursor(cursor);
}

 }

And you can for example save in your db like this:

 public class OrderManager{

private SQLiteDatabase db;
private Context context;

public OrderManager(Context context) {
    super();
    this.context = context;
    initDatabase();
}
    /**
 * Initialize the database connection and create dao access for sceneDevices
 */
private void initDatabase() {
    DevOpenHelper mHelper = DbManager.getInstance(context)
            .getPersistenceHelper();
    db = mHelper.getWritableDatabase();
    DaoMaster.createAllTables(db, true);
}



     public boolean insertOrUpdate(Order order) {
    boolean success = false;
    if (db != null && room != null) {
        DaoMaster daoMaster = new DaoMaster(db);
        DaoSession daoSession = daoMaster.newSession();
        RoomDao orderDao = daoSession.getOrderDao();
        if (order.getId() == null) {
            orderDao.insert(order);
        } else {
            orderDao.update(order);
        }
        daoSession.clear();
        success = true;
    }
    return success;
}




/**
 * Close database connection
 */
public void closeDb() {
    if (db != null) {
        db.close();
    }
}

}

Hope that you will find this usefull.

Cheers,

share|improve this answer

If the required data is not too large (limits I don´t know, would depend on a lot of things), you might also download the data (in XML, JSON, whatever) from a website/webapp. AFter receiving, execute the SQL statements using the received data creating your tables and inserting the data.

If your mobile app contains lots of data, it might be easier later on to update the data in the installed apps with more accurate data or changes.

Jaco

share|improve this answer

Finally I did it!! I have used this link help Using your own SQLite database in Android applications, but had to change it a little bit.

  1. If you have many packages you should put the master package name here:

    private static String DB_PATH = "data/data/masterPakageName/databases";

  2. I changed the method which copies the database from local folder to emulator folder! It had some problem when that folder didn't exist. So first of all, it should check the path and if it's not there, it should create the folder.

  3. In the previous code, the copyDatabase method was never called when the database didn't exist and the checkDataBase method caused exception. so I changed the code a little bit.

  4. If your database does not have a file extension, don't use the file name with one.

it works nice for me , i hope it whould be usefull for u too

    package farhangsarasIntroduction;


import java.io.File;
import java.io.FileOutputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.util.ArrayList;
import java.util.HashMap;

import android.content.Context;
import android.database.Cursor;

import android.database.sqlite.SQLiteDatabase;
import android.database.sqlite.SQLiteException;
import android.database.sqlite.SQLiteOpenHelper;

import android.util.Log;


    public class DataBaseHelper extends SQLiteOpenHelper{

    //The Android's default system path of your application database.
    private static String DB_PATH = "data/data/com.example.sample/databases";

    private static String DB_NAME = "farhangsaraDb";

    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() {

        boolean dbExist;
        try {

             dbExist = checkDataBase();


        } catch (SQLiteException e) {

            e.printStackTrace();
            throw new Error("database dose not exist");

        }

        if(dbExist){
        //do nothing - database already exist
        }else{

            try {

                copyDataBase();


            } catch (IOException e) {

                e.printStackTrace();
                throw new Error("Error copying database");

            }
    //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();


    }

    }

    /**
      * 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.
        throw new Error("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{



            //copyDataBase();
            //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;
            File databaseFile = new File( DB_PATH);
             // check if databases folder exists, if not create one and its subfolders
            if (!databaseFile.exists()){
                databaseFile.mkdir();
            }

            //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();



    }



    @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) {

    }

     you to create adapters for your views.

}
share|improve this answer
    
can u please let me know how to upgrade db if i want to replace old database with new one how can i delete old db –  Erum Hannan Mar 4 at 17:09
    
I haven`t need to do this untill now ,but if new app has been installed , the new db replace too –  afsane Mar 10 at 6:35
    
how to delete old database because i am adding new db in assets folder then how will i delete old db from the specified folder otherwise it will bring the contents of old db –  Erum Hannan Mar 10 at 10:31
    
I hope this would be usefull stackoverflow.com/questions/9109438/… –  afsane Mar 11 at 10:50

protected by Community Mar 24 '12 at 18:05

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