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my barcode scanner application didnot auto turn on flashlight when application start i use this code please help me i add permission in manifiest but is not on in my htc wildfire s mobile please help me

  public final class CameraManager {

  private static final String TAG = CameraManager.class.getSimpleName();

  private static final int MIN_FRAME_WIDTH = 240;
  private static final int MIN_FRAME_HEIGHT = 240;
 private static final int MAX_FRAME_WIDTH = 480;
 private static final int MAX_FRAME_HEIGHT = 360;

   private static CameraManager cameraManager;

  static final int SDK_INT; // Later we can use Build.VERSION.SDK_INT
   static {
 int sdkInt;
 try {
  sdkInt = Integer.parseInt(Build.VERSION.SDK);
 } catch (NumberFormatException nfe) {
  // Just to be safe
  sdkInt = 10000;
 }
 SDK_INT = sdkInt;
  }

 private final Context context;
 private final CameraConfigurationManager configManager;
 private Camera camera;
 private Rect framingRect;
 private Rect framingRectInPreview;
 private boolean initialized;
 private boolean previewing;
 private final boolean useOneShotPreviewCallback;
 /**
 * Preview frames are delivered here, which we pass on to the registered handler.  
 Make  
 sure to
 * clear the handler so it will only receive one message.
 */
  private final PreviewCallback previewCallback;
 /** Autofocus callbacks arrive here, and are dispatched to the Handler which  
  requested them. */
  private final AutoFocusCallback autoFocusCallback;

 /**
 * Initializes this static object with the Context of the calling Activity.
 *
 * @param context The Activity which wants to use the camera.
 */
 public static void init(Context context) {
 if (cameraManager == null) {
  cameraManager = new CameraManager(context);
 }
 }

 /**
  * Gets the CameraManager singleton instance.
 *
 * @return A reference to the CameraManager singleton.
 */
  public static CameraManager get() {
  return cameraManager;
}

  private CameraManager(Context context) {

 this.context = context;
 this.configManager = new CameraConfigurationManager(context);

 // Camera.setOneShotPreviewCallback() has a race condition in Cupcake, so we use the  
 older
 // Camera.setPreviewCallback() on 1.5 and earlier. For Donut and later, we need to use
 // the more efficient one shot callback, as the older one can swamp the system and  
  cause it
  // to run out of memory. We can't use SDK_INT because it was introduced in the 
 Donut  
  SDK.
//useOneShotPreviewCallback = Integer.parseInt(Build.VERSION.SDK) >  
 Build.VERSION_CODES.CUPCAKE;
 useOneShotPreviewCallback = Integer.parseInt(Build.VERSION.SDK) > 3; // 3 = Cupcake

 previewCallback = new PreviewCallback(configManager, useOneShotPreviewCallback);
 autoFocusCallback = new AutoFocusCallback();
 }

/**
 * Opens the camera driver and initializes the hardware parameters.
 *
 * @param holder The surface object which the camera will draw preview frames into.
 * @throws IOException Indicates the camera driver failed to open.
 */
  public void openDriver(SurfaceHolder holder) throws IOException {
  if (camera == null) {
  camera = Camera.open();
  if (camera == null) {
    throw new IOException();
  }
  camera.setPreviewDisplay(holder);

  if (!initialized) {
    initialized = true;
    configManager.initFromCameraParameters(camera);
  }
   configManager.setDesiredCameraParameters(camera);

  //     SharedPreferences prefs =  
  PreferenceManager.getDefaultSharedPreferences(context);
  //ÊÇ·ñʹÓÃÇ°µÆ

  //      if (prefs.getBoolean(PreferencesActivity.KEY_FRONT_LIGHT, false)) {
   //        FlashlightManager.enableFlashlight();
  //      }
   FlashlightManager.enableFlashlight();
  }
 }

/**
 * Closes the camera driver if still in use.
 */
 public void closeDriver() {
  if (camera != null) {
   FlashlightManager.disableFlashlight();
    camera.release();
   camera = null;
  }
 }

 /**
  * Asks the camera hardware to begin drawing preview frames to the screen.
  */
 public void startPreview() {
  if (camera != null && !previewing) {
  camera.startPreview();
    previewing = true;
  }
 }

/**
 * Tells the camera to stop drawing preview frames.
 */
 public void stopPreview() {
  if (camera != null && previewing) {
   if (!useOneShotPreviewCallback) {
    camera.setPreviewCallback(null);
   }
  camera.stopPreview();
  previewCallback.setHandler(null, 0);
  autoFocusCallback.setHandler(null, 0);
  previewing = false;
   }
  }

 /**
 * A single preview frame will be returned to the handler supplied. The data will  
 arrive as byte[]
 * in the message.obj field, with width and height encoded as message.arg1 and  
  message.arg2,
 * respectively.
 *
  * @param handler The handler to send the message to.
 * @param message The what field of the message to be sent.
 */
  public void requestPreviewFrame(Handler handler, int message) {
  if (camera != null && previewing) {
  previewCallback.setHandler(handler, message);
  if (useOneShotPreviewCallback) {
    camera.setOneShotPreviewCallback(previewCallback);
  } else {
    camera.setPreviewCallback(previewCallback);
  }
 }
 }

/**
 * Asks the camera hardware to perform an autofocus.
 *
 * @param handler The Handler to notify when the autofocus completes.
 * @param message The message to deliver.
 */
 public void requestAutoFocus(Handler handler, int message) {
  if (camera != null && previewing) {
  autoFocusCallback.setHandler(handler, message);
  //Log.d(TAG, "Requesting auto-focus callback");
  camera.autoFocus(autoFocusCallback);
  }
 }

/**
 * Calculates the framing rect which the UI should draw to show the user where to  
   place  the
 * barcode. This target helps with alignment as well as forces the user to hold the  
 device
* far enough away to ensure the image will be in focus.
 *
 * @return The rectangle to draw on screen in window coordinates.
 */
 public Rect getFramingRect() {
 Point screenResolution = configManager.getScreenResolution();
 if (framingRect == null) {
   if (camera == null) {
     return null;
   }
   int width = screenResolution.x * 3 / 4;
   if (width < MIN_FRAME_WIDTH) {
    width = MIN_FRAME_WIDTH;
   } else if (width > MAX_FRAME_WIDTH) {
    width = MAX_FRAME_WIDTH;
   }
  int height = screenResolution.y * 3 / 4;
   if (height < MIN_FRAME_HEIGHT) {
    height = MIN_FRAME_HEIGHT;
   } else if (height > MAX_FRAME_HEIGHT) {
    height = MAX_FRAME_HEIGHT;
   }
   int leftOffset = (screenResolution.x - width) / 2;
   int topOffset = (screenResolution.y - height) / 2;
   framingRect = new Rect(leftOffset, topOffset, leftOffset + width, topOffset +  
  height);
   Log.d(TAG, "Calculated framing rect: " + framingRect);
  }
  return framingRect;
 }

/**
 * Like {@link #getFramingRect} but coordinates are in terms of the preview frame,
 * not UI / screen.
 */
  public Rect getFramingRectInPreview() {
  if (framingRectInPreview == null) {
   Rect rect = new Rect(getFramingRect());
  Point cameraResolution = configManager.getCameraResolution();
  Point screenResolution = configManager.getScreenResolution();
  rect.left = rect.left * cameraResolution.x / screenResolution.x;
  rect.right = rect.right * cameraResolution.x / screenResolution.x;
  rect.top = rect.top * cameraResolution.y / screenResolution.y;
  rect.bottom = rect.bottom * cameraResolution.y / screenResolution.y;
  framingRectInPreview = rect;
  }
 return framingRectInPreview;
  }








   final class FlashlightManager {

  private static final String TAG = FlashlightManager.class.getSimpleName();

   private static final Object iHardwareService;
  private static final Method setFlashEnabledMethod;
  static {
   iHardwareService = getHardwareService();
   setFlashEnabledMethod = getSetFlashEnabledMethod(iHardwareService);
  if (iHardwareService == null) {
    Log.v(TAG, "This device does supports control of a flashlight");
  } else {
    Log.v(TAG, "This device does not support control of a flashlight");
  }
  }

 private FlashlightManager() {
 }

  private static Object getHardwareService() {
 Class<?> serviceManagerClass = maybeForName("android.os.ServiceManager");
 if (serviceManagerClass == null) {
   return null;
}

  Method getServiceMethod = maybeGetMethod(serviceManagerClass, "getService",  
  String.class);
 if (getServiceMethod == null) {
   return null;
 }

 Object hardwareService = invoke(getServiceMethod, null, "hardware");
 if (hardwareService == null) {
   return null;
 }

 Class<?> iHardwareServiceStubClass = maybeForName("android.os.IHardwareService$Stub");
 if (iHardwareServiceStubClass == null) {
   return null;
 }

 Method asInterfaceMethod = maybeGetMethod(iHardwareServiceStubClass, "asInterface",  
 IBinder.class);
 if (asInterfaceMethod == null) {
  return null;
 }

 return invoke(asInterfaceMethod, null, hardwareService);
}

private static Method getSetFlashEnabledMethod(Object iHardwareService) {
 if (iHardwareService == null) {
  return null;
 }
 Class<?> proxyClass = iHardwareService.getClass();
 return maybeGetMethod(proxyClass, "setFlashlightEnabled", boolean.class);
 }

 private static Class<?> maybeForName(String name) {
 try {
   return Class.forName(name);
  } catch (ClassNotFoundException cnfe) {
   // OK
  return null;
  } catch (RuntimeException re) {
   Log.w(TAG, "Unexpected error while finding class " + name, re);
   return null;
 }
 }

    private static Method maybeGetMethod(Class<?> clazz, String name, Class<?>...  
  argClasses) {
  try {
  return clazz.getMethod(name, argClasses);
 } catch (NoSuchMethodException nsme) {
  // OK
  return null;
 } catch (RuntimeException re) {
   Log.w(TAG, "Unexpected error while finding method " + name, re);
   return null;
 }
 }

  private static Object invoke(Method method, Object instance, Object... args) {
  try {
  return method.invoke(instance, args);
  } catch (IllegalAccessException e) {
   Log.w(TAG, "Unexpected error while invoking " + method, e);
  return null;
  } catch (InvocationTargetException e) {
  Log.w(TAG, "Unexpected error while invoking " + method, e.getCause());
  return null;
   } catch (RuntimeException re) {
  Log.w(TAG, "Unexpected error while invoking " + method, re);
  return null;
   }
  }

 static void enableFlashlight() {
  setFlashlight(true);
  }

  static void disableFlashlight() {
   setFlashlight(false);
  }

  private static void setFlashlight(boolean active) {
   if (iHardwareService != null) {
     invoke(setFlashEnabledMethod, iHardwareService, active);
   }
 }

}






 package com.zijunlin.Zxing.Demo.camera;

import android.content.Context;
import android.graphics.Point;
import android.hardware.Camera;
import android.os.Build;
import android.util.Log;
import android.view.Display;
 import android.view.WindowManager;

 import java.util.regex.Pattern;

 final class CameraConfigurationManager {

 private static final String TAG = CameraConfigurationManager.class.getSimpleName();

  private static final int TEN_DESIRED_ZOOM = 27;
 private static final int DESIRED_SHARPNESS = 30;

  private static final Pattern COMMA_PATTERN = Pattern.compile(",");

 private final Context context;
 private Point screenResolution;
 private Point cameraResolution;
private int previewFormat;
 private String previewFormatString;

 CameraConfigurationManager(Context context) {
   this.context = context;
 }

  /**
  * Reads, one time, values from the camera that are needed by the app.
 */
 void initFromCameraParameters(Camera camera) {
  Camera.Parameters parameters = camera.getParameters();
  previewFormat = parameters.getPreviewFormat();
 previewFormatString = parameters.get("preview-format");
 Log.d(TAG, "Default preview format: " + previewFormat + '/' + previewFormatString);
 WindowManager manager = (WindowManager)  
 context.getSystemService(Context.WINDOW_SERVICE);
  Display display = manager.getDefaultDisplay();
 screenResolution = new Point(display.getWidth(), display.getHeight());
 Log.d(TAG, "Screen resolution: " + screenResolution);
cameraResolution = getCameraResolution(parameters, screenResolution);
 Log.d(TAG, "Camera resolution: " + screenResolution);
 }

/**
* Sets the camera up to take preview images which are used for both preview and   
 decoding.
* We detect the preview format here so that buildLuminanceSource() can build an   
 appropriate
 * LuminanceSource subclass. In the future we may want to force YUV420SP as it's the   
 smallest,
 * and the planar Y can be used for barcode scanning without a copy in some cases.
 */
 void setDesiredCameraParameters(Camera camera) {
 Camera.Parameters parameters = camera.getParameters();
 Log.d(TAG, "Setting preview size: " + cameraResolution);
 parameters.setPreviewSize(cameraResolution.x, cameraResolution.y);
 setFlash(parameters);
 setZoom(parameters);
 //setSharpness(parameters);
  camera.setParameters(parameters);
}

Point getCameraResolution() {
 return cameraResolution;
} 

Point getScreenResolution() {
  return screenResolution;
}

 int getPreviewFormat() {
return previewFormat;
}

String getPreviewFormatString() {
 return previewFormatString;
}

 private static Point getCameraResolution(Camera.Parameters parameters, Point  
screenResolution) {

  String previewSizeValueString = parameters.get("preview-size-values");
 // saw this on Xperia
 if (previewSizeValueString == null) {
   previewSizeValueString = parameters.get("preview-size-value");
 }

 Point cameraResolution = null;

 if (previewSizeValueString != null) {
   Log.d(TAG, "preview-size-values parameter: " + previewSizeValueString);
   cameraResolution = findBestPreviewSizeValue(previewSizeValueString,  
 screenResolution);
 }

  if (cameraResolution == null) {
   // Ensure that the camera resolution is a multiple of 8, as the screen may not be.
   cameraResolution = new Point(
       (screenResolution.x >> 3) << 3,
       (screenResolution.y >> 3) << 3);
 }

  return cameraResolution;
 }

 private static Point findBestPreviewSizeValue(CharSequence previewSizeValueString,  
    Point screenResolution) {
 int bestX = 0;
 int bestY = 0;
 int diff = Integer.MAX_VALUE;
  for (String previewSize : COMMA_PATTERN.split(previewSizeValueString)) {

  previewSize = previewSize.trim();
  int dimPosition = previewSize.indexOf('x');
  if (dimPosition < 0) {
    Log.w(TAG, "Bad preview-size: " + previewSize);
    continue;
  }

  int newX;
  int newY;
  try {
    newX = Integer.parseInt(previewSize.substring(0, dimPosition));
    newY = Integer.parseInt(previewSize.substring(dimPosition + 1));
  } catch (NumberFormatException nfe) {
    Log.w(TAG, "Bad preview-size: " + previewSize);
    continue;
  }

  int newDiff = Math.abs(newX - screenResolution.x) + Math.abs(newY -  
 screenResolution.y);
  if (newDiff == 0) {
    bestX = newX;
    bestY = newY;
    break;
  } else if (newDiff < diff) {
    bestX = newX;
    bestY = newY;
    diff = newDiff;
  }

 }

 if (bestX > 0 && bestY > 0) {
  return new Point(bestX, bestY);
 }
 return null;
 }

 private static int findBestMotZoomValue(CharSequence stringValues, int  
tenDesiredZoom)  {
int tenBestValue = 0;
 for (String stringValue : COMMA_PATTERN.split(stringValues)) {
   stringValue = stringValue.trim();
  double value;
  try {
    value = Double.parseDouble(stringValue);
  } catch (NumberFormatException nfe) {
    return tenDesiredZoom;
  }
  int tenValue = (int) (10.0 * value);
  if (Math.abs(tenDesiredZoom - value) < Math.abs(tenDesiredZoom - tenBestValue)) {
    tenBestValue = tenValue;
  }
 }
 return tenBestValue;
}

  private void setFlash(Camera.Parameters parameters) {
 // FIXME: This is a hack to turn the flash off on the Samsung Galaxy.
 // And this is a hack-hack to work around a different value on the Behold II
 // Restrict Behold II check to Cupcake, per Samsung's advice
 //if (Build.MODEL.contains("Behold II") &&
 //    CameraManager.SDK_INT == Build.VERSION_CODES.CUPCAKE) {
 if (Build.MODEL.contains("Behold II") && CameraManager.SDK_INT == 3) { // 3 = Cupcake
  parameters.set("flash-value", 1);
} else {
  parameters.set("flash-value", 2);
 }
 // This is the standard setting to turn the flash off that all devices should honor.
 parameters.set("flash-mode", "off");
}

 private void setZoom(Camera.Parameters parameters) {

  String zoomSupportedString = parameters.get("zoom-supported");
  if (zoomSupportedString != null && !Boolean.parseBoolean(zoomSupportedString)) {
  return;
  }

 int tenDesiredZoom = TEN_DESIRED_ZOOM;

String maxZoomString = parameters.get("max-zoom");
if (maxZoomString != null) {
  try {
    int tenMaxZoom = (int) (10.0 * Double.parseDouble(maxZoomString));
    if (tenDesiredZoom > tenMaxZoom) {
      tenDesiredZoom = tenMaxZoom;
    }
  } catch (NumberFormatException nfe) {
    Log.w(TAG, "Bad max-zoom: " + maxZoomString);
  }
 }

String takingPictureZoomMaxString = parameters.get("taking-picture-zoom-max");
if (takingPictureZoomMaxString != null) {
  try {
    int tenMaxZoom = Integer.parseInt(takingPictureZoomMaxString);
    if (tenDesiredZoom > tenMaxZoom) {
      tenDesiredZoom = tenMaxZoom;
    }
  } catch (NumberFormatException nfe) {
    Log.w(TAG, "Bad taking-picture-zoom-max: " + takingPictureZoomMaxString);
  }
 }

 String motZoomValuesString = parameters.get("mot-zoom-values");
 if (motZoomValuesString != null) {
  tenDesiredZoom = findBestMotZoomValue(motZoomValuesString, tenDesiredZoom);
}

 String motZoomStepString = parameters.get("mot-zoom-step");
if (motZoomStepString != null) {
  try {
    double motZoomStep = Double.parseDouble(motZoomStepString.trim());
    int tenZoomStep = (int) (10.0 * motZoomStep);
    if (tenZoomStep > 1) {
      tenDesiredZoom -= tenDesiredZoom % tenZoomStep;
    }
  } catch (NumberFormatException nfe) {
    // continue
  }
}

// Set zoom. This helps encourage the user to pull back.
// Some devices like the Behold have a zoom parameter
if (maxZoomString != null || motZoomValuesString != null) {
  parameters.set("zoom", String.valueOf(tenDesiredZoom / 10.0));
 }

// Most devices, like the Hero, appear to expose this zoom parameter.
// It takes on values like "27" which appears to mean 2.7x zoom
if (takingPictureZoomMaxString != null) {
  parameters.set("taking-picture-zoom", tenDesiredZoom);
}
}

/*
 private void setSharpness(Camera.Parameters parameters) {

 int desiredSharpness = DESIRED_SHARPNESS;

 String maxSharpnessString = parameters.get("sharpness-max");
 if (maxSharpnessString != null) {
  try {
    int maxSharpness = Integer.parseInt(maxSharpnessString);
    if (desiredSharpness > maxSharpness) {
      desiredSharpness = maxSharpness;
    }
  } catch (NumberFormatException nfe) {
    Log.w(TAG, "Bad sharpness-max: " + maxSharpnessString);
  }
 }

 parameters.set("sharpness", desiredSharpness);
}
*/
 }






    <uses-permission android:name="android.permission.CAMERA"></uses-permission>
<uses-permission android:name="android.permission.WRITE_EXTERNAL_STORAGE"></uses- 
    permission>
<uses-feature android:name="android.hardware.camera" />
<uses-feature android:name="android.hardware.camera.autofocus" />
  <uses-permission android:name="android.permission.VIBRATE"/>
 <uses-permission android:name="android.permission.FLASHLIGHT"/>
   <uses-permission android:name="android.permission.INTERNET" />
share|improve this question
    
Please see this URL. It will help you. mkyong.com/android/… –  Thirumalvalavan Nov 12 '12 at 11:24
    
i am late but can you tell me what devices were you testing on it? –  NIKHIL Apr 12 '13 at 13:19

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