Java tutorial
/* * Copyright (C) 2014 Saravan Pantham * * 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. */ package com.jams.music.player.AsyncTasks; import java.util.ArrayList; import java.util.Date; import java.util.HashMap; import org.json.JSONArray; import android.content.ContentValues; import android.content.Context; import android.content.Intent; import android.content.pm.PackageManager; import android.content.pm.PackageManager.NameNotFoundException; import android.database.Cursor; import android.media.AudioManager; import android.net.Uri; import android.os.AsyncTask; import android.os.PowerManager; import com.jams.music.player.R; import com.jams.music.player.DBHelpers.DBAccessHelper; import com.jams.music.player.Services.BuildMusicLibraryService; import com.jams.music.player.Services.AudioPlaybackService; import com.jams.music.player.Utils.Common; /** * Checks if the Google Play Music app is installed on the user's device. If it * is, grabs the user's song data from Google Play Music's content mApp. */ public class AsyncGetGooglePlayMusicMetadataTask extends AsyncTask<String, String, String> { private Context mContext; private Common mApp; private HashMap<String, String> playlistIdsNameMap = new HashMap<String, String>(); private JSONArray playlistsJSONArray = new JSONArray(); private JSONArray playlistEntriesJSONArray = new JSONArray(); private ArrayList<String> genresList = new ArrayList<String>(); private int targetVolume = 0; private int currentVolume; private int stepDownValue = 1; private AudioManager am; private String currentTask = ""; private int currentProgressValue = 0; private int numberOfSongs = 0; private int numberOfPlaylists = 0; private Date date = new Date(); private PowerManager pm; private PowerManager.WakeLock wakeLock; public AsyncGetGooglePlayMusicMetadataTask(Context context) { mContext = context; mApp = (Common) mContext; } @Override protected void onPreExecute() { super.onPreExecute(); //Hide the actionbar. mApp.setIsBuildingLibrary(true); //Acquire a wakelock to prevent the CPU from sleeping while the process is running. pm = (PowerManager) mContext.getSystemService(Context.POWER_SERVICE); wakeLock = pm.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, "com.jams.music.player.AsyncTasks.AsyncGetGooglePlayMusicMetadata"); wakeLock.acquire(); //Set the initial setting of the progressbar as indeterminate. currentTask = mContext.getResources().getString(R.string.contacting_google_play_music); } @Override protected String doInBackground(String... params) { //Check if any music is playing and fade it out. am = (AudioManager) mContext.getSystemService(Context.AUDIO_SERVICE); if (mApp.isServiceRunning()) { if (mApp.getService().isPlayingMusic()) { targetVolume = 0; currentVolume = am.getStreamVolume(AudioManager.STREAM_MUSIC); while (currentVolume > targetVolume) { am.setStreamVolume(AudioManager.STREAM_MUSIC, (currentVolume - stepDownValue), 0); currentVolume = am.getStreamVolume(AudioManager.STREAM_MUSIC); } mContext.stopService(new Intent(mContext, AudioPlaybackService.class)); } } //Check if the Google Play Music app is installed. PackageManager pm = mContext.getPackageManager(); boolean installed = false; try { pm.getPackageInfo("com.google.android.music", PackageManager.GET_ACTIVITIES); installed = true; } catch (NameNotFoundException e1) { //The app isn't installed. installed = false; } String result = "GENERIC_EXCEPTION"; if (installed == false) { //Can't do anything here anymore. Quit. mApp.getSharedPreferences().edit().putBoolean("GOOGLE_PLAY_MUSIC_ENABLED", false).commit(); return null; } else { //Grab music metadata from Google Play Music's public content mApp. result = getMetadataFromGooglePlayMusicApp(); } return result; } //Grab music metadata from Google Play Music's public content mApp. public String getMetadataFromGooglePlayMusicApp() { //Grab a handle on the mApp. Uri googlePlayMusicContentProviderUri = Uri.parse("content://com.google.android.music.MusicContent/audio"); String[] projection = { "title", "artist", "album", "AlbumArtist", "duration", "track", "year", "Genre", "TrackType AS track_type", /*"_count",*/ "Rating", "AlbumArtLocation AS album_art", "SourceType AS source_type", "SourceId", "ArtistArtLocation", /*, "artistId",*/ "StoreAlbumId" }; /* source_type values: * 0: Local file (not used). * 1: Unknown. * 2: Personal, free GMusic library (used). * 3: All Access (not used). */ String selection = "source_type=2 AND track_type=0"; //Catch any exceptions that may be thrown as a result of unknown columns in GMusic's content mApp. Cursor cursor = null; boolean projectionFailed = false; try { cursor = mContext.getContentResolver().query(googlePlayMusicContentProviderUri, projection, selection, null, null); } catch (IllegalArgumentException e) { e.printStackTrace(); //Problematic columns are commented out here. String[] failSafeProjection = { "title", "artist", "album", "AlbumArtist", "duration", "track", "year", "Genre", "TrackType AS track_type", /*"_count",*/ "Rating", "AlbumArtLocation AS album_art", /* "SourceType AS source_type", */ "SourceId", /* "ArtistArtLocation", "artistId",*/ "StoreAlbumId" }; cursor = mContext.getContentResolver().query(googlePlayMusicContentProviderUri, failSafeProjection, "track_type=0", null, null); projectionFailed = true; } //Clear out all the current Google Play Music songs in the database. mApp.getDBAccessHelper().deleteAllGooglePlayMusicSongs(); //Insert the songs and their metadata into Jams' local database. /* To improve database insertion performance, we'll use a single transaction * for the entire operation. SQLite journals each database insertion and * creates a new transaction by default. We'll override this functionality * and create a single transaction for all the database record insertions. * In theory, this should reduce NAND memory overhead times and result in * a 2x to 5x performance increase. */ try { //We'll initialize the DB transaction manually. mApp.getDBAccessHelper().getWritableDatabase().beginTransaction(); //Avoid "Divide by zero" errors. int scanningSongsIncrement; if (cursor != null) { if (cursor.getCount() != 0) { scanningSongsIncrement = 800000 / cursor.getCount(); } else { scanningSongsIncrement = 800000 / 1; } } else { return "FAIL"; } currentTask = mContext.getResources().getString(R.string.syncing_with_google_play_music); for (int i = 0; i < cursor.getCount(); i++) { cursor.moveToPosition(i); currentProgressValue = currentProgressValue + scanningSongsIncrement; publishProgress(); //Get the song's metadata. String songTitle = cursor.getString(cursor.getColumnIndex("title")); String songArtist = cursor.getString(cursor.getColumnIndex("Artist")); String songAlbum = cursor.getString(cursor.getColumnIndex("Album")); String songAlbumArtist = cursor.getString(cursor.getColumnIndex("AlbumArtist")); String songDuration = cursor.getString(cursor.getColumnIndex("Duration")); String songTrackNumber = cursor.getString(cursor.getColumnIndex("Track")); String songYear = cursor.getString(cursor.getColumnIndex("Year")); String songGenre = cursor.getString(cursor.getColumnIndex("Genre")); //String songPlayCount = cursor.getString(cursor.getColumnIndex("_count")); String songRating = cursor.getString(cursor.getColumnIndex("Rating")); String songSource = DBAccessHelper.GMUSIC; String songAlbumArtPath = cursor.getString(cursor.getColumnIndex("album_art")); String songID = cursor.getString(cursor.getColumnIndex("SourceId")); //String artistID = cursor.getString(cursor.getColumnIndex("artistId")); String storeAlbumID = cursor.getString(cursor.getColumnIndex("StoreAlbumId")); String songArtistArtPath = ""; if (projectionFailed == false) { songArtistArtPath = cursor.getString(cursor.getColumnIndex("ArtistArtLocation")); } else { //Fall back on album art. songArtistArtPath = cursor.getString(cursor.getColumnIndex("album_art")); } //Prepare the genres ArrayList. if (!genresList.contains(songGenre)) { genresList.add(songGenre); } //Filter out track numbers and remove any bogus values. if (songTrackNumber != null) { if (songTrackNumber.contains("/")) { int index = songTrackNumber.lastIndexOf("/"); songTrackNumber = songTrackNumber.substring(0, index); } } if (songYear.equals("0")) { songYear = ""; } //Check if any of the other tags were empty/null and set them to "Unknown xxx" values. if (songArtist == null || songArtist.isEmpty() || songArtist.equals(" ")) { songArtist = "Unknown Artist"; } if (songAlbumArtist == null || songAlbumArtist.isEmpty() || songAlbumArtist.equals(" ")) { songAlbumArtist = "Unknown Album Artist"; } if (songAlbum == null || songAlbum.isEmpty() || songAlbum.equals(" ")) { songAlbum = "Unknown Album"; } if (songGenre == null || songGenre.isEmpty() || songGenre.equals(" ")) { songGenre = "Unknown Genre"; } ContentValues values = new ContentValues(); values.put(DBAccessHelper.SONG_TITLE, songTitle); values.put(DBAccessHelper.SONG_ARTIST, songArtist); values.put(DBAccessHelper.SONG_ALBUM, songAlbum); values.put(DBAccessHelper.SONG_ALBUM_ARTIST, songAlbumArtist); values.put(DBAccessHelper.SONG_DURATION, songDuration); values.put(DBAccessHelper.SONG_FILE_PATH, songID); values.put(DBAccessHelper.SONG_TRACK_NUMBER, songTrackNumber); values.put(DBAccessHelper.SONG_GENRE, songGenre); //values.put(DBAccessHelper.SONG_PLAY_COUNT, songPlayCount); values.put(DBAccessHelper.SONG_YEAR, songYear); values.put(DBAccessHelper.SONG_LAST_MODIFIED, ""); values.put(DBAccessHelper.BLACKLIST_STATUS, "FALSE"); //Keep the song whitelisted by default. values.put(DBAccessHelper.ADDED_TIMESTAMP, date.getTime()); values.put(DBAccessHelper.RATING, songRating); values.put(DBAccessHelper.SONG_SOURCE, songSource); values.put(DBAccessHelper.SONG_ALBUM_ART_PATH, songAlbumArtPath); values.put(DBAccessHelper.SONG_ID, songID); values.put(DBAccessHelper.ARTIST_ART_LOCATION, songArtistArtPath); //values.put(DBAccessHelper.ARTIST_ID, artistID); values.put(DBAccessHelper.ALBUM_ID, storeAlbumID); /* We're gonna have to save the song ID into the SONG_FILE_PATH * field. Google Play Music playlist songs don't have a file path, but we're using a * JOIN in PlaylistsFlippedFragment that relies on this field, so we'll need to use the * song ID as a placeholder instead. */ values.put(DBAccessHelper.SONG_FILE_PATH, songID); //Add all the entries to the database to build the songs library. mApp.getDBAccessHelper().getWritableDatabase().insert(DBAccessHelper.MUSIC_LIBRARY_TABLE, null, values); } mApp.getDBAccessHelper().getWritableDatabase().setTransactionSuccessful(); } catch (Exception e) { e.printStackTrace(); } finally { //Close the transaction. mApp.getDBAccessHelper().getWritableDatabase().endTransaction(); if (cursor != null) { cursor.close(); cursor = null; } } /**************************************************************************** * BUILD PLAYLISTS LIBRARY ****************************************************************************/ //getPlaylistsWebClient(); //getPlaylistsMobileClient(); //Update the genres library. updateGenreSongCount(); return "SUCCESS"; } /** * Downloads and stores song metadata from Google's servers. * * @deprecated Grabbing metadata directly from Google's servers can potentially * cause them to shutdown the "sj" service for this app. The official GMusic app * has a ContentProvider that can provide all the metadata for offline usage. */ public String downloadMetadataFromGoogle() { /* //Retrieve a list of songs stored on Google Play Music and their metadata. GMusicClientCalls gMusicClientCalls = GMusicClientCalls.getInstance(mContext); try { songsList = gMusicClientCalls.getAllSongs(mContext.getApplicationContext()); } catch (JSONException e) { return "GENERIC_EXCEPTION"; } //Clear out all the current Google Play Music songs in the database. DBAccessHelper libraryDBHelper = new DBAccessHelper(mContext); libraryDBHelper.deleteAllGooglePlayMusicSongs(); //Insert the songs and their metadata into Jams' local database. /* To improve database insertion performance, we'll use a single transaction * for the entire operation. SQLite journals each database insertion and * creates a new transaction by default. We'll override this functionality * and create a single transaction for all the database record insertions. * In theory, this should reduce NAND memory overhead times and result in * a 2x to 5x performance increase. *\/ try { //We'll initialize the DB transaction manually. libraryDBHelper.getWritableDatabase().beginTransaction(); /* Now that we have a list of all the audio files that are either new or * modified, we can just delete all the records of those files in the DB * and re-add them. *\/ //Avoid "Divide by zero" errors. int scanningSongsIncrement; if (songsList.size()!=0) { scanningSongsIncrement = 800000/songsList.size(); } else { scanningSongsIncrement = 800000/1; } currentTask = mContext.getResources().getString(R.string.downloading_songs_info_from_google_play_music); for (int i=0; i < songsList.size(); i++) { WebClientSongsSchema song = songsList.get(i); currentProgressValue = currentProgressValue + scanningSongsIncrement; publishProgress(); //Get the song's metadata. String songTitle = song.getTitle(); String songArtist = song.getArtist(); String songAlbum = song.getAlbum(); String songAlbumArtist = song.getAlbumArtist(); String songDuration = "" + song.getDurationMillis(); String songTrackNumber = "" + song.getTrack(); String songYear = "" + song.getYear(); String songGenre = song.getGenre(); String songPlayCount = "" + song.getPlayCount(); String songRating = "" + song.getRating(); String songSource = DBAccessHelper.GMUSIC; String songAlbumArtPath = song.getAlbumArtUrl(); String songDeleted = "" + song.isDeleted(); String songLastPlayed = "" + song.getLastPlayed(); String songId = "" + song.getId(); /* By default, Google will return an album art path that contains * an image that is 130x130 in size. The "=sxxx" parameter determines * the size of the returned image. We'll replace all instances of "=s130" * with "=s512" to get artwork that is 512x512 in size. Also, the "http://" * part appears truncated, so add that into the beginning of the url. *\/ if (songAlbumArtPath!=null) { if (!songAlbumArtPath.isEmpty()) { songAlbumArtPath = songAlbumArtPath.replace("=s130", "=s512"); songAlbumArtPath = "http:" + songAlbumArtPath; } } //Prepare the genres ArrayList. if (!genresList.contains(songGenre)) { genresList.add(songGenre); } //Filter out track numbers and remove any bogus values. if (songTrackNumber!=null) { if (songTrackNumber.contains("/")) { int index = songTrackNumber.lastIndexOf("/"); songTrackNumber = songTrackNumber.substring(0, index); } } if (songYear.equals("0")) { songYear = ""; } String songFilePath = ""; try { URI uri = gMusicClientCalls.getSongStream(song.getId()); songFilePath = uri.toURL().toString(); } catch (JSONException e) { continue; } catch (URISyntaxException e) { continue; } catch (MalformedURLException e) { continue; } catch (Exception e) { continue; } ContentValues values = new ContentValues(); values.put(DBAccessHelper.SONG_TITLE, songTitle); values.put(DBAccessHelper.SONG_ARTIST, songArtist); values.put(DBAccessHelper.SONG_ALBUM, songAlbum); values.put(DBAccessHelper.SONG_ALBUM_ARTIST, songAlbumArtist); values.put(DBAccessHelper.SONG_DURATION, songDuration); values.put(DBAccessHelper.SONG_FILE_PATH, songFilePath); values.put(DBAccessHelper.SONG_FOLDER_PATH, ""); values.put(DBAccessHelper.SONG_TRACK_NUMBER, songTrackNumber); values.put(DBAccessHelper.SONG_GENRE, songGenre); values.put(DBAccessHelper.SONG_PLAY_COUNT, songPlayCount); values.put(DBAccessHelper.SONG_YEAR, songYear); values.put(DBAccessHelper.SONG_LAST_MODIFIED, ""); values.put(DBAccessHelper.BLACKLIST_STATUS, "FALSE"); //Keep the song whitelisted by default. values.put(DBAccessHelper.ADDED_TIMESTAMP, date.getTime()); values.put(DBAccessHelper.RATING, songRating); values.put(DBAccessHelper.LAST_PLAYED_TIMESTAMP, songLastPlayed); values.put(DBAccessHelper.SONG_SOURCE, songSource); values.put(DBAccessHelper.SONG_ALBUM_ART_PATH, songAlbumArtPath); values.put(DBAccessHelper.SONG_DELETED, songDeleted); values.put(DBAccessHelper.SONG_ID, songId); /* We're gonna have to save the song ID into the SONG_FILE_PATH * field. Google Play Music playlist songs don't have a file path, but we're using a * JOIN in PlaylistsFlippedFragment that relies on this field, so we'll need to use the * song ID as a placeholder instead. *\/ values.put(DBAccessHelper.SONG_FILE_PATH, songId); //Add all the entries to the database to build the songs library. libraryDBHelper.getWritableDatabase().insert(DBAccessHelper.MUSIC_LIBRARY_TABLE, null, values); } libraryDBHelper.getWritableDatabase().setTransactionSuccessful(); } catch (SQLException e) { // TODO Auto-generated method stub. return "GENERIC_EXCEPTION"; } finally { //Close the transaction. libraryDBHelper.getWritableDatabase().endTransaction(); libraryDBHelper.close(); } /************************************************************************** * BUILD PLAYLISTS LIBRARY. **************************************************************************\/ //Clear out all the current Google Play Music playlists in the database. DBAccessHelper musicLibraryPlaylistsDBHelper = new DBAccessHelper(mContext); musicLibraryPlaylistsDBHelper.deleteAllGooglePlayMusicPlaylists(); //Insert the songs and their metadata into Jams' local database. /* To improve database insertion performance, we'll use a single transaction * for the entire operation. SQLite journals each database insertion and * creates a new transaction by default. We'll override this functionality * and create a single transaction for all the database record insertions. * In theory, this should reduce NAND memory overhead times and result in * a 2x to 5x performance increase. *\/ try { //Open a connection to the database. musicLibraryPlaylistsDBHelper.getWritableDatabase().beginTransaction(); try { playlistsList = gMusicClientCalls.getAllPlaylists(mContext.getApplicationContext()).getPlaylists(); } catch (JSONException e) { return "GENERIC_EXCEPTION"; } //Avoid "Divide by zero" errors. int scanningPlaylistsIncrement; if (playlistsList.size()!=0) { scanningPlaylistsIncrement = 100000/playlistsList.size(); } else { scanningPlaylistsIncrement = 100000/1; } currentTask = mContext.getResources().getString(R.string.syncing_with_google_play_music); for (int i=0; i < playlistsList.size(); i++) { currentProgressValue = currentProgressValue + scanningPlaylistsIncrement; publishProgress(); //Get the playlist's metadata. String playlistName = playlistsList.get(i).getTitle(); String playlistID = playlistsList.get(i).getPlaylistId(); String playlistArtUrl = ""; ContentValues playlistValues = new ContentValues(); playlistValues.put(DBAccessHelper.PLAYLIST_NAME, playlistName); playlistValues.put(DBAccessHelper.PLAYLIST_ID, playlistID); playlistValues.put(DBAccessHelper.PLAYLIST_ART_URL, playlistArtUrl); playlistValues.put(DBAccessHelper.PLAYLIST_SOURCE, DBAccessHelper.GMUSIC); playlistValues.put(DBAccessHelper.PLAYLIST_BLACKLIST_STATUS, "FALSE"); //Add all the entries to the database to build the songs library. musicLibraryPlaylistsDBHelper.getWritableDatabase().insert(DBAccessHelper.MUSIC_LIBRARY_PLAYLISTS_NAME, null, playlistValues); } musicLibraryPlaylistsDBHelper.getWritableDatabase().setTransactionSuccessful(); } catch (Exception e) { e.printStackTrace(); } finally { //Seal off all connections to the database. musicLibraryPlaylistsDBHelper.getWritableDatabase().endTransaction(); musicLibraryPlaylistsDBHelper.close(); } //Build the genres library. updateGenreSongCount(); return "SUCCESS"; */ return null; } /** * Retrieves the user's playlists and their contents using the WebClient protocol. */ //@SuppressWarnings("static-access") /*private void getPlaylistsWebClient() { //Clear out all the current Google Play Music playlists in the database.\ mApp.getDBAccessHelper().deleteAllGooglePlayMusicPlaylists(); //Insert the songs and their metadata into Jams' local database. To improve database insertion performance, we'll use a single transaction * for the entire operation. SQLite journals each database insertion and * creates a new transaction by default. We'll override this functionality * and create a single transaction for all the database record insertions. * In theory, this should reduce NAND memory overhead times and result in * a 2x to 5x performance increase. GMusicClientCalls gMusicClientCalls = GMusicClientCalls.getInstance(mContext); try { //Open a connection to the database. mApp.getDBAccessHelper().getMusicLibraryPlaylistsDBHelper().getWritableDatabase().beginTransaction(); //Get a list of all playlists from Google's servers. playlistsJSONArray = gMusicClientCalls.getUserPlaylistsMobileClient(mContext); //Avoid "Divide by zero" errors. int scanningPlaylistsIncrement; if (playlistsJSONArray.length()!=0) { scanningPlaylistsIncrement = 100000/playlistsJSONArray.length(); } else { scanningPlaylistsIncrement = 100000/1; } currentTask = mContext.getResources().getString(R.string.syncing_with_google_play_music); MobileClientPlaylistsSchema currentPlaylist = new MobileClientPlaylistsSchema(); WebClientSongsSchema currentPlaylistSong = new WebClientSongsSchema(); for (int i=0; i < playlistsJSONArray.length(); i++) { currentPlaylist = currentPlaylist.fromJsonObject(playlistsJSONArray.getJSONObject(i)); currentProgressValue = currentProgressValue + scanningPlaylistsIncrement; publishProgress(); //Get the playlist's metadata. String playlistName = currentPlaylist.getName(); String playlistId = currentPlaylist.getPlaylistId(); String playlistArtUrl = ""; //Retrieve all the song's within the current playlist. JSONArray songsArray = gMusicClientCalls.getPlaylistEntriesWebClient(mContext, playlistId); //Loop through the current playlist's songs array and retrieve each song's metadata. for (int j=0; j < songsArray.length(); j++) { try { currentPlaylistSong = currentPlaylistSong.fromJsonObject(songsArray.getJSONObject(j)); //Extract the current playlist song's metadata. String songTrackId = currentPlaylistSong.getId(); String playlistEntryId = currentPlaylistSong.getPlaylistEntryId(); ContentValues playlistValues = new ContentValues(); playlistValues.put(DBAccessHelper.PLAYLIST_NAME, playlistName); playlistValues.put(DBAccessHelper.PLAYLIST_ID, playlistId); playlistValues.put(DBAccessHelper.PLAYLIST_ART_URL, playlistArtUrl); playlistValues.put(DBAccessHelper.PLAYLIST_SOURCE, DBAccessHelper.GMUSIC); playlistValues.put(DBAccessHelper.PLAYLIST_BLACKLIST_STATUS, "FALSE"); playlistValues.put(DBAccessHelper.PLAYLIST_SONG_FILE_PATH, songTrackId); playlistValues.put(DBAccessHelper.PLAYLIST_SONG_ENTRY_ID, playlistEntryId); playlistValues.put(DBAccessHelper.PLAYLIST_ORDER, j); //Add all the entries to the database to build the songs library. mApp.getDBAccessHelper().getMusicLibraryPlaylistsDBHelper().getWritableDatabase().insert(DBAccessHelper.MUSIC_LIBRARY_PLAYLISTS_NAME, null, playlistValues); } catch (Exception e) { e.printStackTrace(); continue; } } } mApp.getDBAccessHelper().getMusicLibraryPlaylistsDBHelper().getWritableDatabase().setTransactionSuccessful(); } catch (Exception e) { e.printStackTrace(); } finally { //Seal off all connections to the database. mApp.getDBAccessHelper().getMusicLibraryPlaylistsDBHelper().getWritableDatabase().endTransaction(); } }*/ /************************************************************************************* * Retrieves the user's playlists and their contents using the MobileClient protocol. * * @deprecated The entryIds that we're fetching from the MobileClient protocol seem * to be broken. They don't work with reordering playlist songs. I'll fix this if/when * I have time. Until then, I'm gonna use getPlaylistsWebClient(). *************************************************************************************/ @SuppressWarnings("static-access") private void getPlaylistsMobileClient() { /* //Clear out all the current Google Play Music playlists in the database. DBAccessHelper musicLibraryPlaylistsDBHelper = new DBAccessHelper(mContext); musicLibraryPlaylistsDBHelper.deleteAllGooglePlayMusicPlaylists(); //Insert the songs and their metadata into Jams' local database. To improve database insertion performance, we'll use a single transaction * for the entire operation. SQLite journals each database insertion and * creates a new transaction by default. We'll override this functionality * and create a single transaction for all the database record insertions. * In theory, this should reduce NAND memory overhead times and result in * a 2x to 5x performance increase. try { //Open a connection to the database. musicLibraryPlaylistsDBHelper.getWritableDatabase().beginTransaction(); *//***************************************************************************** * The following calls are based on the MobileClient endpoints. Unfortunately, * we can't get the correct entryIds for each song with these calls, so we'll * have to revert to using the WebClient calls. *****************************************************************************//* //Instantiate the GMusic API and retrieve an array of all playlists. GMusicClientCalls gMusicClientCalls = GMusicClientCalls.getInstance(mContext); try { playlistsJSONArray = gMusicClientCalls.getUserPlaylistsMobileClient(mContext); } catch (JSONException e) { e.printStackTrace(); } //Retrieve an array of all song entries within every playlist. try { playlistEntriesJSONArray = gMusicClientCalls.getPlaylistEntriesMobileClient(mContext); } catch (JSONException e) { e.printStackTrace(); } Now that we have a JSONArray with all the unique playlists, it's time to * index the playlistIds and their name within the array. This will * allow us to efficiently figure out the name of the playlist without * going through the entire original array over and over again. MobileClientPlaylistsSchema currentPlaylist = new MobileClientPlaylistsSchema(); for (int k=0; k < playlistsJSONArray.length(); k++) { currentPlaylist = currentPlaylist.fromJsonObject(playlistsJSONArray.getJSONObject(k)); if (!playlistIdsNameMap.containsKey(currentPlaylist.getPlaylistId())) { playlistIdsNameMap.put(currentPlaylist.getPlaylistId(), currentPlaylist.getName()); } } //Avoid "Divide by zero" errors. int scanningPlaylistsIncrement; if (playlistEntriesJSONArray.length()!=0) { scanningPlaylistsIncrement = 100000/playlistEntriesJSONArray.length(); } else { scanningPlaylistsIncrement = 100000/1; } currentTask = mContext.getResources().getString(R.string.syncing_with_google_play_music); MobileClientPlaylistEntriesSchema currentPlaylistEntry = new MobileClientPlaylistEntriesSchema(); for (int i=0; i < playlistEntriesJSONArray.length(); i++) { currentProgressValue = currentProgressValue + scanningPlaylistsIncrement; publishProgress(); //Get the playlist's metadata. currentPlaylistEntry = currentPlaylistEntry.fromJsonObject(playlistEntriesJSONArray.getJSONObject(i)); String playlistName = playlistIdsNameMap.get(currentPlaylistEntry.getPlaylistId()); String playlistId = currentPlaylistEntry.getPlaylistId(); String id = currentPlaylistEntry.getId(); String clientId = currentPlaylistEntry.getClientId(); String trackId = currentPlaylistEntry.getTrackId(); GMusic's backend server uses horribly misleading JSON key names. * Each playlist entry has an entryId. When reordering songs, this * entryId is actually the clientId of the song. The songId matches * trackId. The "id" key in the JSON response is seemingly not * used for anything in particular. ContentValues playlistValues = new ContentValues(); playlistValues.put(DBAccessHelper.PLAYLIST_NAME, playlistName); playlistValues.put(DBAccessHelper.PLAYLIST_ID, playlistId); playlistValues.put(DBAccessHelper.PLAYLIST_ART_URL, ""); playlistValues.put(DBAccessHelper.PLAYLIST_SOURCE, DBAccessHelper.GMUSIC); playlistValues.put(DBAccessHelper.PLAYLIST_SONG_ID, id); playlistValues.put(DBAccessHelper.PLAYLIST_BLACKLIST_STATUS, "FALSE"); playlistValues.put(DBAccessHelper.PLAYLIST_ORDER, i); playlistValues.put(DBAccessHelper.PLAYLIST_SONG_ENTRY_ID, clientId); Log.e("DEBUG", "--------------------PLAYLIST ENTRY--------------------"); Log.e("DEBUG", "playlistName: " + playlistName); Log.e("DEBUG", "playlistId: " + playlistId); Log.e("DEBUG", "id: " + id); Log.e("DEBUG", "clientId (entryId): " + clientId); Log.e("DEBUG", "trackId: " + trackId); We're gonna have to save the playlist's song IDs into the PLAYLIST_SONG_FILE_PATH * field. Google Play Music playlist songs don't have a file path, but we're using a * JOIN in PlaylistsFlippedFragment that relies on this field, so we'll need to use the * "songId" param as a placeholder instead. The "trackId" key corresponds to "songId" * in the songs table. playlistValues.put(DBAccessHelper.PLAYLIST_SONG_FILE_PATH, trackId); //Add all the entries to the database to build the songs library. musicLibraryPlaylistsDBHelper.getWritableDatabase().insert(DBAccessHelper.MUSIC_LIBRARY_PLAYLISTS_NAME, null, playlistValues); } musicLibraryPlaylistsDBHelper.getWritableDatabase().setTransactionSuccessful(); } catch (Exception e) { e.printStackTrace(); } finally { //Seal off all connections to the database. musicLibraryPlaylistsDBHelper.getWritableDatabase().endTransaction(); musicLibraryPlaylistsDBHelper.close(); }*/ } /**************************************************************************************** * Scans the entire Music Library for songs, fetches their genres, and inputs the total * count for that genre into each song's genre. ****************************************************************************************/ public void updateGenreSongCount() { //We'll get the number of songs in a particular genre and apply that tag to all songs. String genre = ""; int songCount = 0; int buildingGenresIncrement; currentTask = "Building Genres"; if (genresList.size() != 0) { buildingGenresIncrement = 100000 / genresList.size(); } else { buildingGenresIncrement = 100000 / 1; } //Open a single transaction connection to keep the operation as efficient as possible. for (int i = 0; i < genresList.size(); i++) { currentProgressValue = currentProgressValue + buildingGenresIncrement; publishProgress(); try { genre = genresList.get(i); if (genre.contains("'")) { genre = genre.replace("'", "''"); } //Get the number of songs in this genre. songCount = mApp.getDBAccessHelper().getGenreSongCount(genre); mApp.getDBAccessHelper().insertNumberOfSongsInGenre(genre, songCount); } catch (Exception e) { e.printStackTrace(); continue; } } } /** * Public method that provides access to the onProgressUpdate() method. * Used to update the progress bar from a different class/activity. * * @param progressParams */ public void callOnProgressUpdate(String... progressParams) { publishProgress(progressParams); } @Override protected void onProgressUpdate(String... progressParams) { super.onProgressUpdate(progressParams); /*//Update the notification. BuildMusicLibraryService.mBuilder.setTicker(null); BuildMusicLibraryService.mBuilder.setContentTitle(mContext.getResources().getString(R.string.getting_google_play_music_library)); BuildMusicLibraryService.mBuilder.setContentText(currentTask); BuildMusicLibraryService.mBuilder.setContentInfo(null); BuildMusicLibraryService.mBuilder.setProgress(100000, currentProgressValue, false); BuildMusicLibraryService.mNotification = BuildMusicLibraryService.mBuilder.build(); BuildMusicLibraryService.mNotifyManager.notify(BuildMusicLibraryService.mNotificationId, BuildMusicLibraryService.mNotification);*/ } @Override protected void onPostExecute(String arg0) { //Release the wakelock. wakeLock.release(); } }