sdk/android/api/org/webrtc/Camera1Enumerator.java - src/webrtc - Git at Google

 /*
  *  Copyright 2015 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 package org.webrtc;

 import android.os.SystemClock;
 import java.util.ArrayList;
 import java.util.List;
 import org.webrtc.CameraEnumerationAndroid.CaptureFormat;

 @SuppressWarnings("deprecation")
 public class Camera1Enumerator implements CameraEnumerator {
   private final static String TAG = "Camera1Enumerator";
   // Each entry contains the supported formats for corresponding camera index. The formats for all
   // cameras are enumerated on the first call to getSupportedFormats(), and cached for future
   // reference.
   private static List<List<CaptureFormat>> cachedSupportedFormats;

   private final boolean captureToTexture;

   public Camera1Enumerator() {
     this(true /* captureToTexture */);
   }

   public Camera1Enumerator(boolean captureToTexture) {
     this.captureToTexture = captureToTexture;
   }

   // Returns device names that can be used to create a new VideoCapturerAndroid.
   @Override
   public String[] getDeviceNames() {
     ArrayList<String> namesList = new ArrayList<>();
     for (int i = 0; i < android.hardware.Camera.getNumberOfCameras(); ++i) {
       String name = getDeviceName(i);
       if (name != null) {
         namesList.add(name);
         Logging.d(TAG, "Index: " + i + ". " + name);
       } else {
         Logging.e(TAG, "Index: " + i + ". Failed to query camera name.");
       }
     }
     String[] namesArray = new String[namesList.size()];
     return namesList.toArray(namesArray);
   }

   @Override
   public boolean isFrontFacing(String deviceName) {
     android.hardware.Camera.CameraInfo info = getCameraInfo(getCameraIndex(deviceName));
     return info != null && info.facing == android.hardware.Camera.CameraInfo.CAMERA_FACING_FRONT;
   }

   @Override
   public boolean isBackFacing(String deviceName) {
     android.hardware.Camera.CameraInfo info = getCameraInfo(getCameraIndex(deviceName));
     return info != null && info.facing == android.hardware.Camera.CameraInfo.CAMERA_FACING_BACK;
   }

   @Override
   public List<CaptureFormat> getSupportedFormats(String deviceName) {
     return getSupportedFormats(getCameraIndex(deviceName));
   }

   @Override
   public CameraVideoCapturer createCapturer(
       String deviceName, CameraVideoCapturer.CameraEventsHandler eventsHandler) {
     return new Camera1Capturer(deviceName, eventsHandler, captureToTexture);
   }

   private static android.hardware.Camera.CameraInfo getCameraInfo(int index) {
     android.hardware.Camera.CameraInfo info = new android.hardware.Camera.CameraInfo();
     try {
       android.hardware.Camera.getCameraInfo(index, info);
     } catch (Exception e) {
       Logging.e(TAG, "getCameraInfo failed on index " + index, e);
       return null;
     }
     return info;
   }

   static synchronized List<CaptureFormat> getSupportedFormats(int cameraId) {
     if (cachedSupportedFormats == null) {
       cachedSupportedFormats = new ArrayList<List<CaptureFormat>>();
       for (int i = 0; i < android.hardware.Camera.getNumberOfCameras(); ++i) {
         cachedSupportedFormats.add(enumerateFormats(i));
       }
     }
     return cachedSupportedFormats.get(cameraId);
   }

   private static List<CaptureFormat> enumerateFormats(int cameraId) {
     Logging.d(TAG, "Get supported formats for camera index " + cameraId + ".");
     final long startTimeMs = SystemClock.elapsedRealtime();
     final android.hardware.Camera.Parameters parameters;
     android.hardware.Camera camera = null;
     try {
       Logging.d(TAG, "Opening camera with index " + cameraId);
       camera = android.hardware.Camera.open(cameraId);
       parameters = camera.getParameters();
     } catch (RuntimeException e) {
       Logging.e(TAG, "Open camera failed on camera index " + cameraId, e);
       return new ArrayList<CaptureFormat>();
     } finally {
       if (camera != null) {
         camera.release();
       }
     }

     final List<CaptureFormat> formatList = new ArrayList<CaptureFormat>();
     try {
       int minFps = 0;
       int maxFps = 0;
       final List<int[]> listFpsRange = parameters.getSupportedPreviewFpsRange();
       if (listFpsRange != null) {
         // getSupportedPreviewFpsRange() returns a sorted list. Take the fps range
         // corresponding to the highest fps.
         final int[] range = listFpsRange.get(listFpsRange.size() - 1);
         minFps = range[android.hardware.Camera.Parameters.PREVIEW_FPS_MIN_INDEX];
         maxFps = range[android.hardware.Camera.Parameters.PREVIEW_FPS_MAX_INDEX];
       }
       for (android.hardware.Camera.Size size : parameters.getSupportedPreviewSizes()) {
         formatList.add(new CaptureFormat(size.width, size.height, minFps, maxFps));
       }
     } catch (Exception e) {
       Logging.e(TAG, "getSupportedFormats() failed on camera index " + cameraId, e);
     }

     final long endTimeMs = SystemClock.elapsedRealtime();
     Logging.d(TAG, "Get supported formats for camera index " + cameraId + " done."
             + " Time spent: " + (endTimeMs - startTimeMs) + " ms.");
     return formatList;
   }

   // Convert from android.hardware.Camera.Size to Size.
   static List<Size> convertSizes(List<android.hardware.Camera.Size> cameraSizes) {
     final List<Size> sizes = new ArrayList<Size>();
     for (android.hardware.Camera.Size size : cameraSizes) {
       sizes.add(new Size(size.width, size.height));
     }
     return sizes;
   }

   // Convert from int[2] to CaptureFormat.FramerateRange.
   static List<CaptureFormat.FramerateRange> convertFramerates(List<int[]> arrayRanges) {
     final List<CaptureFormat.FramerateRange> ranges = new ArrayList<CaptureFormat.FramerateRange>();
     for (int[] range : arrayRanges) {
       ranges.add(new CaptureFormat.FramerateRange(
           range[android.hardware.Camera.Parameters.PREVIEW_FPS_MIN_INDEX],
           range[android.hardware.Camera.Parameters.PREVIEW_FPS_MAX_INDEX]));
     }
     return ranges;
   }

   // Returns the camera index for camera with name |deviceName|, or throws IllegalArgumentException
   // if no such camera can be found.
   static int getCameraIndex(String deviceName) {
     Logging.d(TAG, "getCameraIndex: " + deviceName);
     for (int i = 0; i < android.hardware.Camera.getNumberOfCameras(); ++i) {
       if (deviceName.equals(getDeviceName(i))) {
         return i;
       }
     }
     throw new IllegalArgumentException("No such camera: " + deviceName);
   }

   // Returns the name of the camera with camera index. Returns null if the
   // camera can not be used.
   static String getDeviceName(int index) {
     android.hardware.Camera.CameraInfo info = getCameraInfo(index);
     if (info == null) {
       return null;
     }

     String facing =
         (info.facing == android.hardware.Camera.CameraInfo.CAMERA_FACING_FRONT) ? "front" : "back";
     return "Camera " + index + ", Facing " + facing + ", Orientation " + info.orientation;
   }
 }
	/*
	* Copyright 2015 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	package org.webrtc;

	import android.os.SystemClock;
	import java.util.ArrayList;
	import java.util.List;
	import org.webrtc.CameraEnumerationAndroid.CaptureFormat;

	@SuppressWarnings("deprecation")
	public class Camera1Enumerator implements CameraEnumerator {
	private final static String TAG = "Camera1Enumerator";
	// Each entry contains the supported formats for corresponding camera index. The formats for all
	// cameras are enumerated on the first call to getSupportedFormats(), and cached for future
	// reference.
	private static List<List<CaptureFormat>> cachedSupportedFormats;

	private final boolean captureToTexture;

	public Camera1Enumerator() {
	this(true /* captureToTexture */);
	}

	public Camera1Enumerator(boolean captureToTexture) {
	this.captureToTexture = captureToTexture;
	}

	// Returns device names that can be used to create a new VideoCapturerAndroid.
	@Override
	public String[] getDeviceNames() {
	ArrayList<String> namesList = new ArrayList<>();
	for (int i = 0; i < android.hardware.Camera.getNumberOfCameras(); ++i) {
	String name = getDeviceName(i);
	if (name != null) {
	namesList.add(name);
	Logging.d(TAG, "Index: " + i + ". " + name);
	} else {
	Logging.e(TAG, "Index: " + i + ". Failed to query camera name.");
	}
	}
	String[] namesArray = new String[namesList.size()];
	return namesList.toArray(namesArray);
	}

	@Override
	public boolean isFrontFacing(String deviceName) {
	android.hardware.Camera.CameraInfo info = getCameraInfo(getCameraIndex(deviceName));
	return info != null && info.facing == android.hardware.Camera.CameraInfo.CAMERA_FACING_FRONT;
	}

	@Override
	public boolean isBackFacing(String deviceName) {
	android.hardware.Camera.CameraInfo info = getCameraInfo(getCameraIndex(deviceName));
	return info != null && info.facing == android.hardware.Camera.CameraInfo.CAMERA_FACING_BACK;
	}

	@Override
	public List<CaptureFormat> getSupportedFormats(String deviceName) {
	return getSupportedFormats(getCameraIndex(deviceName));
	}

	@Override
	public CameraVideoCapturer createCapturer(
	String deviceName, CameraVideoCapturer.CameraEventsHandler eventsHandler) {
	return new Camera1Capturer(deviceName, eventsHandler, captureToTexture);
	}

	private static android.hardware.Camera.CameraInfo getCameraInfo(int index) {
	android.hardware.Camera.CameraInfo info = new android.hardware.Camera.CameraInfo();
	try {
	android.hardware.Camera.getCameraInfo(index, info);
	} catch (Exception e) {
	Logging.e(TAG, "getCameraInfo failed on index " + index, e);
	return null;
	}
	return info;
	}

	static synchronized List<CaptureFormat> getSupportedFormats(int cameraId) {
	if (cachedSupportedFormats == null) {
	cachedSupportedFormats = new ArrayList<List<CaptureFormat>>();
	for (int i = 0; i < android.hardware.Camera.getNumberOfCameras(); ++i) {
	cachedSupportedFormats.add(enumerateFormats(i));
	}
	}
	return cachedSupportedFormats.get(cameraId);
	}

	private static List<CaptureFormat> enumerateFormats(int cameraId) {
	Logging.d(TAG, "Get supported formats for camera index " + cameraId + ".");
	final long startTimeMs = SystemClock.elapsedRealtime();
	final android.hardware.Camera.Parameters parameters;
	android.hardware.Camera camera = null;
	try {
	Logging.d(TAG, "Opening camera with index " + cameraId);
	camera = android.hardware.Camera.open(cameraId);
	parameters = camera.getParameters();
	} catch (RuntimeException e) {
	Logging.e(TAG, "Open camera failed on camera index " + cameraId, e);
	return new ArrayList<CaptureFormat>();
	} finally {
	if (camera != null) {
	camera.release();
	}
	}

	final List<CaptureFormat> formatList = new ArrayList<CaptureFormat>();
	try {
	int minFps = 0;
	int maxFps = 0;
	final List<int[]> listFpsRange = parameters.getSupportedPreviewFpsRange();
	if (listFpsRange != null) {
	// getSupportedPreviewFpsRange() returns a sorted list. Take the fps range
	// corresponding to the highest fps.
	final int[] range = listFpsRange.get(listFpsRange.size() - 1);
	minFps = range[android.hardware.Camera.Parameters.PREVIEW_FPS_MIN_INDEX];
	maxFps = range[android.hardware.Camera.Parameters.PREVIEW_FPS_MAX_INDEX];
	}
	for (android.hardware.Camera.Size size : parameters.getSupportedPreviewSizes()) {
	formatList.add(new CaptureFormat(size.width, size.height, minFps, maxFps));
	}
	} catch (Exception e) {
	Logging.e(TAG, "getSupportedFormats() failed on camera index " + cameraId, e);
	}

	final long endTimeMs = SystemClock.elapsedRealtime();
	Logging.d(TAG, "Get supported formats for camera index " + cameraId + " done."
	+ " Time spent: " + (endTimeMs - startTimeMs) + " ms.");
	return formatList;
	}

	// Convert from android.hardware.Camera.Size to Size.
	static List<Size> convertSizes(List<android.hardware.Camera.Size> cameraSizes) {
	final List<Size> sizes = new ArrayList<Size>();
	for (android.hardware.Camera.Size size : cameraSizes) {
	sizes.add(new Size(size.width, size.height));
	}
	return sizes;
	}

	// Convert from int[2] to CaptureFormat.FramerateRange.
	static List<CaptureFormat.FramerateRange> convertFramerates(List<int[]> arrayRanges) {
	final List<CaptureFormat.FramerateRange> ranges = new ArrayList<CaptureFormat.FramerateRange>();
	for (int[] range : arrayRanges) {
	ranges.add(new CaptureFormat.FramerateRange(
	range[android.hardware.Camera.Parameters.PREVIEW_FPS_MIN_INDEX],
	range[android.hardware.Camera.Parameters.PREVIEW_FPS_MAX_INDEX]));
	}
	return ranges;
	}

	// Returns the camera index for camera with name \|deviceName\|, or throws IllegalArgumentException
	// if no such camera can be found.
	static int getCameraIndex(String deviceName) {
	Logging.d(TAG, "getCameraIndex: " + deviceName);
	for (int i = 0; i < android.hardware.Camera.getNumberOfCameras(); ++i) {
	if (deviceName.equals(getDeviceName(i))) {
	return i;
	}
	}
	throw new IllegalArgumentException("No such camera: " + deviceName);
	}

	// Returns the name of the camera with camera index. Returns null if the
	// camera can not be used.
	static String getDeviceName(int index) {
	android.hardware.Camera.CameraInfo info = getCameraInfo(index);
	if (info == null) {
	return null;
	}

	String facing =
	(info.facing == android.hardware.Camera.CameraInfo.CAMERA_FACING_FRONT) ? "front" : "back";
	return "Camera " + index + ", Facing " + facing + ", Orientation " + info.orientation;
	}
	}