public final void onAddGeofencesResult(Status status)
    {
        WLog.d(SynchronizedLocationClient.access$200(), "onAddGeofencesResult()");
        switch (status.getStatusCode())
        {
        default:
            SynchronizedLocationClient.access$400(SynchronizedLocationClient.this, new LocationClientException(String.format("addGeofences failed - unknown error: %d", new Object[] {
                Integer.valueOf(status.getStatusCode())
            })));
            return;

        case 0: // '\0'
            SynchronizedLocationClient.access$300(SynchronizedLocationClient.this);
            return;

        case 1001: 
            SynchronizedLocationClient.access$400(SynchronizedLocationClient.this, new LocationClientException("addGeofences failed: GEOFENCE_TOO_MANY_GEOFENCES"));
            return;

        case 1002: 
            SynchronizedLocationClient.access$400(SynchronizedLocationClient.this, new LocationClientException("addGeofences failed: GEOFENCE_TOO_MANY_PENDING_INTENTS"));
            return;

        case 1000: 
            SynchronizedLocationClient.access$400(SynchronizedLocationClient.this, new LocationClientException("addGeofences failed: GEOFENCE_NOT_AVAILABLE"));
            return;

        case 1: // '\001'
            SynchronizedLocationClient.access$400(SynchronizedLocationClient.this, new LocationClientException("addGeofences failed: ERROR"));
            return;
        }
    }
  /**
   * Submits an autocomplete query to the Places Geo Data Autocomplete API. Results are returned as
   * frozen AutocompletePrediction objects, ready to be cached. objects to store the Place ID and
   * description that the API returns. Returns an empty list if no results were found. Returns null
   * if the API client is not available or the query did not complete successfully. This method MUST
   * be called off the main UI thread, as it will block until data is returned from the API, which
   * may include a network request.
   *
   * @param constraint Autocomplete query string
   * @return Results from the autocomplete API or null if the query was not successful.
   * @see Places#GEO_DATA_API#getAutocomplete(CharSequence)
   * @see AutocompletePrediction#freeze()
   */
  private ArrayList<AutocompletePrediction> getAutocomplete(CharSequence constraint) {
    if (mGoogleApiClient.isConnected()) {
      Log.i(TAG, "Starting autocomplete query for: " + constraint);

      // Submit the query to the autocomplete API and retrieve a PendingResult that will
      // contain the results when the query completes.
      PendingResult<AutocompletePredictionBuffer> results =
          Places.GeoDataApi.getAutocompletePredictions(
              mGoogleApiClient, constraint.toString(), mBounds, mPlaceFilter);

      // This method should have been called off the main UI thread. Block and wait for at most 60s
      // for a result from the API.
      AutocompletePredictionBuffer autocompletePredictions = results.await(60, TimeUnit.SECONDS);

      // Confirm that the query completed successfully, otherwise return null
      final Status status = autocompletePredictions.getStatus();
      if (!status.isSuccess()) {
        Toast.makeText(
                getContext(), "Error contacting API: " + status.toString(), Toast.LENGTH_SHORT)
            .show();
        Log.e(TAG, "Error getting autocomplete prediction API call: " + status.toString());
        autocompletePredictions.release();
        return null;
      }

      Log.i(
          TAG, "Query completed. Received " + autocompletePredictions.getCount() + " predictions.");

      // Freeze the results immutable representation that can be stored safely.
      return DataBufferUtils.freezeAndClose(autocompletePredictions);
    }
    Log.e(TAG, "Google API client is not connected for autocomplete query.");
    return null;
  }
        @Override
        public void onResult(ApplicationConnectionResult result) {

          Status status = result.getStatus();

          if (status.isSuccess()) {
            try {
              ApplicationMetadata metadata = result.getApplicationMetadata();
              ChromecastSession.this.sessionId = result.getSessionId();
              ChromecastSession.this.displayName = metadata.getName();
              ChromecastSession.this.appImages = metadata.getImages();

              ChromecastSession.this.joinSessionCallback.onSuccess(ChromecastSession.this);
              connectRemoteMediaPlayer();
              ChromecastSession.this.isConnected = true;
            } catch (IllegalStateException e) {
              e.printStackTrace();
            } catch (IOException e) {
              e.printStackTrace();
            }
          } else {
            ChromecastSession.this.joinSessionCallback.onError(status.toString());
            ChromecastSession.this.isConnected = false;
          }
        }
 public void onResult(Status status) {
   if (status.isSuccess()) {
     Toast.makeText(getApplicationContext(), Constantes.geofences_added, Toast.LENGTH_SHORT)
         .show();
   } else {
     String errorMessage = getErrorString(this, status.getStatusCode());
     Toast.makeText(getApplicationContext(), errorMessage, Toast.LENGTH_LONG).show();
   }
 }
 public void onResult(Status status) {
   if (status.isSuccess()) {
     SharedPreferences.Editor editor = mSharedPreferences.edit();
     editor.putBoolean(Constants.GEOFENCES_ADDED_KEY, mGeofencesAdded);
     editor.apply();
   } else {
     String errorMessage = GeofenceErrorMessages.getErrorString(this, status.getStatusCode());
     Log.e(TAG, errorMessage);
   }
 }
 @Override
 public void onResult(Status result) {
   if (!result.isSuccess()) {
     Log.d(
         "",
         "Failed to send message. statusCode: "
             + result.getStatusCode()
             + " message: "
             + mMessage);
   }
 }
 public void onResult(@NonNull Status status) {
   Log.d("GEO", "Geofences onResult" + status.toString());
   if (status.isSuccess()) {
     mGoogleApiClient.disconnect();
     stopSelf();
   } else {
     String text = "Error while geofence: " + status.getStatusMessage();
     Log.e("GEO", text);
     Toast.makeText(GeofencingService.this, text, Toast.LENGTH_SHORT).show();
   }
 }
  private ArrayList<PlaceAutocomplete> getAutocomplete(CharSequence constraint) {
    if (mGoogleApiClient.isConnected()) {
      Log.i(TAG, "Starting autocomplete query for: " + constraint);

      // Submit the query to the autocomplete API and retrieve a PendingResult that will
      // contain the results when the query completes.
      PendingResult<AutocompletePredictionBuffer> results =
          Places.GeoDataApi.getAutocompletePredictions(
              mGoogleApiClient, constraint.toString(), null, mPlaceFilter);

      // This method should have been called off the main UI thread. Block and wait for at most 60s
      // for a result from the API.
      AutocompletePredictionBuffer autocompletePredictions = results.await(60, TimeUnit.SECONDS);

      // Confirm that the query completed successfully, otherwise return null
      final Status status = autocompletePredictions.getStatus();
      if (!status.isSuccess()) {
        Toast.makeText(
                getContext(),
                "Error contacting Google Places: " + status.toString(),
                Toast.LENGTH_SHORT)
            .show();
        Log.e(
            TAG,
            "Error getting autocomplete prediction API call: "
                + status.getStatusMessage()
                + status.getStatus().getStatusMessage());
        autocompletePredictions.release();
        return null;
      }

      Log.i(
          TAG, "Query completed. Received " + autocompletePredictions.getCount() + " predictions.");

      // Copy the results into our own data structure, because we can't hold onto the buffer.
      // AutocompletePrediction objects encapsulate the API response (place ID and description).

      Iterator<AutocompletePrediction> iterator = autocompletePredictions.iterator();
      ArrayList resultList = new ArrayList<>(autocompletePredictions.getCount());
      while (iterator.hasNext()) {
        AutocompletePrediction prediction = iterator.next();
        // Get the details of this prediction and copy it into a new PlaceAutocomplete object.
        resultList.add(new PlaceAutocomplete(prediction.getPlaceId(), prediction.getDescription()));
      }

      // Release the buffer now that all data has been copied.
      autocompletePredictions.release();

      return resultList;
    }
    Log.e(TAG, "Google API client is not connected for autocomplete query.");
    return null;
  }
  /**
   * Runs when the result of calling addGeofences() and removeGeofences() becomes available. Either
   * method can complete successfully or with an error.
   *
   * <p>Since this activity implements the {@link ResultCallback} interface, we are required to
   * define this method.
   *
   * @param status The Status returned through a PendingIntent when addGeofences() or
   *     removeGeofences() get called.
   */
  public void onResult(Status status) {
    if (status.isSuccess()) {
      // Update state and save in shared preferences.
      mGeofencesAdded = !mGeofencesAdded;
      SharedPreferences.Editor editor = mSharedPreferences.edit();
      editor.putBoolean(Constants.GEOFENCES_ADDED_KEY, mGeofencesAdded);
      editor.commit();

      // Update the UI. Adding geofences enables the Remove Geofences button, and removing
      // geofences enables the Add Geofences button.
      setButtonsEnabledState();

      Toast.makeText(
              this,
              getString(mGeofencesAdded ? R.string.geofences_added : R.string.geofences_removed),
              Toast.LENGTH_SHORT)
          .show();
    } else {
      // Get the status code for the error and log it using a user-friendly message.
      String errorMessage = GeofenceErrorMessages.getErrorString(this, status.getStatusCode());
      Log.e(TAG, errorMessage);
    }
  }
 /**
  * This method receives the connection error details and tries to execute the error resolution
  * provided by the object itself.
  *
  * <p>The error resolution opens a Dialog that informs the user what to do to resolve the issue.
  * Then the operation result is received on onActivityResult
  */
 private void handleConnectionFailureError(Parcelable errorDetails) {
   // TODO: change errorDetails to avoid the usage of the instanceof operator. Bad smells.
   if (errorDetails != null) {
     if (errorDetails instanceof ConnectionResult) {
       ConnectionResult result = (ConnectionResult) errorDetails;
       try {
         result.startResolutionForResult(this, REQUEST_RESOLVE_GOOGLE_SERVICES_ERROR);
         isResolvingError = true;
       } catch (IntentSender.SendIntentException e) {
         e.printStackTrace();
         postEventAndFinish(new OnStrategyErrorNotSolved());
       }
     } else if (errorDetails instanceof Status) {
       Status status = (Status) errorDetails;
       try {
         status.startResolutionForResult(this, REQUEST_RESOLVE_GOOGLE_SERVICES_ERROR);
         isResolvingError = true;
       } catch (IntentSender.SendIntentException e) {
         e.printStackTrace();
         postEventAndFinish(new OnStrategyErrorNotSolved());
       }
     }
   }
 }
Beispiel #11
0
        public void a(Status status)
            throws RemoteException
        {
            Parcel parcel = Parcel.obtain();
            parcel.writeInterfaceToken("com.google.android.gms.appdatasearch.internal.ILightweightAppDataSearchCallbacks");
            if (status == null)
            {
                break MISSING_BLOCK_LABEL_44;
            }
            parcel.writeInt(1);
            status.writeToParcel(parcel, 0);
_L1:
            ko.transact(1, parcel, null, 1);
            parcel.recycle();
            return;
            parcel.writeInt(0);
              goto _L1
        public final void onStatusReceived(Status status)
            throws RemoteException
        {
            Parcel parcel = Parcel.obtain();
            parcel.writeInterfaceToken("com.google.android.gms.nearby.sharing.internal.INearbySharingCallback");
            if (status == null)
            {
                break MISSING_BLOCK_LABEL_44;
            }
            parcel.writeInt(1);
            status.writeToParcel(parcel, 0);
_L1:
            mRemote.transact(1, parcel, null, 1);
            parcel.recycle();
            return;
            parcel.writeInt(0);
              goto _L1
Beispiel #13
0
    public void o(Status status)
    {
        Parcel parcel;
        Parcel parcel1;
        parcel = Parcel.obtain();
        parcel1 = Parcel.obtain();
        parcel.writeInterfaceToken("com.google.android.gms.drive.realtime.internal.IStringCallback");
        if (status == null)
        {
            break MISSING_BLOCK_LABEL_56;
        }
        parcel.writeInt(1);
        status.writeToParcel(parcel, 0);
_L1:
        kq.transact(2, parcel, parcel1, 0);
        parcel1.readException();
        parcel1.recycle();
        parcel.recycle();
        return;
        parcel.writeInt(0);
          goto _L1
 private boolean b(SessionStopResult sessionstopresult) {
   return CM.equals(sessionstopresult.CM) && n.equal(Ul, sessionstopresult.Ul);
 }