Back to project page SunshineApp.
The source code is released under:
Apache License
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package sunshine.ferdyrodriguez.com.sunshine; /* ww w .j av a 2 s . c o m*/ import android.content.ContentUris; import android.content.ContentValues; import android.content.Context; import android.content.SharedPreferences; import android.database.Cursor; import android.net.Uri; import android.os.AsyncTask; import android.preference.PreferenceManager; import android.util.Log; import android.widget.ArrayAdapter; import org.json.JSONArray; import org.json.JSONException; import org.json.JSONObject; import java.io.BufferedReader; import java.io.IOException; import java.io.InputStream; import java.io.InputStreamReader; import java.net.HttpURLConnection; import java.net.URL; import java.text.SimpleDateFormat; import java.util.Date; import java.util.Vector; import sunshine.ferdyrodriguez.com.sunshine.data.WeatherContract; import sunshine.ferdyrodriguez.com.sunshine.data.WeatherContract.WeatherEntry; import sunshine.ferdyrodriguez.com.sunshine.data.WeatherContract.LocationEntry; /** * Created by ferdy.rodriguez on 31/08/2014. */ public class FetchWeatherTask extends AsyncTask<String, Void, String[]> { private final String TAG = FetchWeatherTask.class.getSimpleName(); private final Context mContext; public FetchWeatherTask( Context context ) { mContext = context; } /* The date/time conversion code is going to be moved outside the asynctask later, * so for convenience we're breaking it out into its own method now. */ private String getReadableDateString(long time){ // Because the API returns a unix timestamp (measured in seconds), // it must be converted to milliseconds in order to be converted to valid date. Date date = new Date(time * 1000); SimpleDateFormat format = new SimpleDateFormat("E, MMM d"); return format.format(date).toString(); } /** * Prepare the weather high/lows for presentation. */ private String formatHighLows(double high, double low) { // Data is fetched in Celsius by default. // If user prefers to see in Fahrenheit, convert the values here. // We do this rather than fetching in Fahrenheit so that the user can // change this option without us having to re-fetch the data once // we start storing the values in a database. SharedPreferences sharedPrefs = PreferenceManager.getDefaultSharedPreferences(mContext); String unitType = sharedPrefs.getString( mContext.getString(R.string.pref_units_key), mContext.getString(R.string.pref_units_metric)); if (unitType.equals(mContext.getString(R.string.pref_units_imperial))) { high = (high * 1.8) + 32; low = (low * 1.8) + 32; } else if (!unitType.equals(mContext.getString(R.string.pref_units_metric))) { Log.d(TAG, "Unit type not found: " + unitType); } // For presentation, assume the user doesn't care about tenths of a degree. long roundedHigh = Math.round(high); long roundedLow = Math.round(low); String highLowStr = roundedHigh + "/" + roundedLow; return highLowStr; } private long addLocation(String locationSetting, String cityName, double lat, double lon) { Log.v(TAG, "inserting " + cityName + ", with coord: " + lat + ", " + lon); Cursor cursor = mContext.getContentResolver().query( LocationEntry.CONTENT_URI, new String[]{LocationEntry._ID}, LocationEntry.COLUMN_LOC_SETTING + " = ?", new String[]{locationSetting}, null ); if (cursor.moveToFirst()) { Log.v(TAG, "Found it in the database!"); int locationIdIndex = cursor.getColumnIndex(LocationEntry._ID); return cursor.getLong(locationIdIndex); } else { Log.v(TAG, "Didn't found it in the database, inserting it now!"); ContentValues locationValues = new ContentValues(); locationValues.put(LocationEntry.COLUMN_LOC_SETTING, locationSetting); locationValues.put(LocationEntry.COLUMN_CITY_NAME, cityName); locationValues.put(LocationEntry.COLUMN_COORD_LAT, lat); locationValues.put(LocationEntry.COLUMN_COORD_LONG, lon); Uri locationInsertUri = mContext.getContentResolver().insert( LocationEntry.CONTENT_URI, locationValues); return ContentUris.parseId(locationInsertUri); } } private String[] getWeatherDataFromJson(String forecastJsonStr, int numDays, String locationSetting) throws JSONException { // These are the names of the JSON objects that need to be extracted. // Location information final String OWM_CITY = "city"; final String OWM_CITY_NAME = "name"; final String OWM_COORD = "coord"; final String OWM_COORD_LAT = "lat"; final String OWM_COORD_LONG = "lon"; // Weather information. Each day's forecast info is an element of the "list" array. final String OWM_LIST = "list"; final String OWM_DATETIME = "dt"; final String OWM_PRESSURE = "pressure"; final String OWM_HUMIDITY = "humidity"; final String OWM_WINDSPEED = "speed"; final String OWM_WIND_DIRECTION = "deg"; // All temperatures are children of the "temp" object. final String OWM_TEMPERATURE = "temp"; final String OWM_MAX = "max"; final String OWM_MIN = "min"; final String OWM_WEATHER = "weather"; final String OWM_DESCRIPTION = "main"; final String OWM_WEATHER_ID = "id"; JSONObject forecastJson = new JSONObject(forecastJsonStr); JSONArray weatherArray = forecastJson.getJSONArray(OWM_LIST); JSONObject cityJson = forecastJson.getJSONObject(OWM_CITY); String cityName = cityJson.getString(OWM_CITY_NAME); JSONObject coordJSON = cityJson.getJSONObject(OWM_COORD); double cityLatitude = coordJSON.getLong(OWM_COORD_LAT); double cityLongitude = coordJSON.getLong(OWM_COORD_LONG); Log.v(TAG, cityName + ", with coord: " + cityLatitude + " " + cityLongitude); long locationID = addLocation(locationSetting, cityName, cityLatitude, cityLongitude); Vector<ContentValues> cVVector = new Vector<ContentValues>(weatherArray.length()); String[] resultStrs = new String[numDays]; for(int i = 0; i < weatherArray.length(); i++) { // These are the values that will be collected. long dateTime; double pressure; int humidity; double windSpeed; double windDirection; double high; double low; String description; int weatherId; // Get the JSON object representing the day JSONObject dayForecast = weatherArray.getJSONObject(i); // The date/time is returned as a long. We need to convert that // into something human-readable, since most people won't read "1400356800" as // "this saturday". dateTime = dayForecast.getLong(OWM_DATETIME); pressure = dayForecast.getDouble(OWM_PRESSURE); humidity = dayForecast.getInt(OWM_HUMIDITY); windSpeed = dayForecast.getDouble(OWM_WINDSPEED); windDirection = dayForecast.getDouble(OWM_WIND_DIRECTION); // Description is in a child array called "weather", which is 1 element long. // That element also contains a weather code. JSONObject weatherObject = dayForecast.getJSONArray(OWM_WEATHER).getJSONObject(0); description = weatherObject.getString(OWM_DESCRIPTION); weatherId = weatherObject.getInt(OWM_WEATHER_ID); // Temperatures are in a child object called "temp". Try not to name variables // "temp" when working with temperature. It confuses everybody. JSONObject temperatureObject = dayForecast.getJSONObject(OWM_TEMPERATURE); high = temperatureObject.getDouble(OWM_MAX); low = temperatureObject.getDouble(OWM_MIN); ContentValues weatherValues = new ContentValues(); weatherValues.put(WeatherEntry.COLUMN_LOC_KEY, locationID); weatherValues.put(WeatherEntry.COLUMN_DATETEXT, WeatherContract.getDbDateString(new Date(dateTime * 1000L))); weatherValues.put(WeatherEntry.COLUMN_HUMIDITY, humidity); weatherValues.put(WeatherEntry.COLUMN_PRESSURE, pressure); weatherValues.put(WeatherEntry.COLUMN_WIND_SPEED, windSpeed); weatherValues.put(WeatherEntry.COLUMN_DEGREES, windDirection); weatherValues.put(WeatherEntry.COLUMN_MAX_TEMP, high); weatherValues.put(WeatherEntry.COLUMN_MIN_TEMP, low); weatherValues.put(WeatherEntry.COLUMN_SHORT_DESC, description); weatherValues.put(WeatherEntry.COLUMN_WEATHER_ID, weatherId); cVVector.add(weatherValues); String highAndLow = formatHighLows(high, low); String day = getReadableDateString(dateTime); resultStrs[i] = day + " - " + description + " - " + highAndLow; } if (cVVector.size() > 0 ) { ContentValues[] cvArray = new ContentValues[cVVector.size()]; cVVector.toArray(cvArray); mContext.getContentResolver().bulkInsert(WeatherEntry.CONTENT_URI, cvArray); Log.d(TAG, "FetchWeatherTask Complete. " + cVVector.size() + " Instered"); } return resultStrs; } @Override protected String[] doInBackground(String... params) { if (params.length == 0){ return null; } String locationQuery = params[0]; // These two need to be declared outside the try/catch // so that they can be closed in the finally block. HttpURLConnection urlConnection = null; BufferedReader reader = null; // Will contain the raw JSON response as a string. String forecastJsonStr = null; String format = "json"; String units = "metric"; int numDays = 14; try { // Construct the URL for the OpenWeatherMap query // Possible parameters are avaiable at OWM's forecast API page, at // http://openweathermap.org/API#forecast final String BASE_URL = "http://api.openweathermap.org/data/2.5/forecast/daily?"; final String QUERY_PARAM = "q"; final String FORMAT_PARAM = "mode"; final String UNITS_PARAM = "units"; final String DAYS_PARAM = "cnt"; Uri builtUri = Uri.parse(BASE_URL).buildUpon() .appendQueryParameter(QUERY_PARAM, params[0]) .appendQueryParameter(FORMAT_PARAM, format) .appendQueryParameter(UNITS_PARAM, units) .appendQueryParameter(DAYS_PARAM, Integer.toString(numDays)) .build(); URL url = new URL(builtUri.toString()); // Create the request to OpenWeatherMap, and open the connection urlConnection = (HttpURLConnection) url.openConnection(); urlConnection.setRequestMethod("GET"); urlConnection.connect(); // Read the input stream into a String InputStream inputStream = urlConnection.getInputStream(); StringBuffer buffer = new StringBuffer(); if (inputStream == null) { // Nothing to do. return null; } reader = new BufferedReader(new InputStreamReader(inputStream)); String line; while ((line = reader.readLine()) != null) { // Since it's JSON, adding a newline isn't necessary (it won't affect parsing) // But it does make debugging a *lot* easier if you print out the completed // buffer for debugging. buffer.append(line + "\n"); } if (buffer.length() == 0) { // Stream was empty. No point in parsing. return null; } forecastJsonStr = buffer.toString(); } catch (IOException e) { Log.e(TAG, "Error ", e); // If the code didn't successfully get the weather data, there's no point in attemping // to parse it. forecastJsonStr = null; } finally{ if (urlConnection != null) { urlConnection.disconnect(); } if (reader != null) { try { reader.close(); } catch (final IOException e) { Log.e(TAG, "Error closing stream", e); } } } try { return getWeatherDataFromJson(forecastJsonStr, numDays, locationQuery); } catch (JSONException e) { Log.e(TAG, e.getMessage(), e); e.printStackTrace(); } // This will only happen if there was an error getting or parsing the forecast. return null; } }