private int tryStartCapture(int width, int height, int frameRate) {
if (camera == null) {
Log.e(TAG, "Camera not initialized %d" + id);
return -1;
}
Log.d(
TAG,
"tryStartCapture: "
+ width
+ "x"
+ height
+ ", frameRate: "
+ frameRate
+ ", isCaptureRunning: "
+ isCaptureRunning
+ ", isSurfaceReady: "
+ isSurfaceReady
+ ", isCaptureStarted: "
+ isCaptureStarted);
if (isCaptureRunning || !isCaptureStarted) {
return 0;
}
CaptureCapabilityAndroid currentCapability = new CaptureCapabilityAndroid();
currentCapability.width = width;
currentCapability.height = height;
currentCapability.maxFPS = frameRate;
PixelFormat.getPixelFormatInfo(PIXEL_FORMAT, pixelFormat);
Camera.Parameters parameters = camera.getParameters();
parameters.setPreviewSize(currentCapability.width, currentCapability.height);
parameters.setPreviewFormat(PIXEL_FORMAT);
parameters.setPreviewFrameRate(currentCapability.maxFPS);
try {
camera.setParameters(parameters);
} catch (RuntimeException e) {
Log.e(TAG, "setParameters failed", e);
return -1;
}
int bufSize = width * height * pixelFormat.bitsPerPixel / 8;
byte[] buffer = null;
for (int i = 0; i < numCaptureBuffers; i++) {
buffer = new byte[bufSize];
camera.addCallbackBuffer(buffer);
}
camera.setPreviewCallbackWithBuffer(this);
ownsBuffers = true;
camera.startPreview();
previewBufferLock.lock();
expectedFrameSize = bufSize;
isCaptureRunning = true;
previewBufferLock.unlock();
return 0;
}
// Called by native code. Returns true if capturer is started.
//
// Note that this actually opens the camera, which can be a slow operation and
// thus might be done on a background thread, but ViE API needs a
// synchronous success return value so we can't do that.
private synchronized boolean startCapture(int width, int height, int min_mfps, int max_mfps) {
Log.d(TAG, "startCapture: " + width + "x" + height + "@" + min_mfps + ":" + max_mfps);
Throwable error = null;
try {
camera = Camera.open(id);
localPreview = ViERenderer.GetLocalRenderer();
if (localPreview != null) {
localPreview.addCallback(this);
if (localPreview.getSurface() != null && localPreview.getSurface().isValid()) {
camera.setPreviewDisplay(localPreview);
}
} else {
// No local renderer (we only care about onPreviewFrame() buffers, not a
// directly-displayed UI element). Camera won't capture without
// setPreview{Texture,Display}, so we create a dummy SurfaceTexture and
// hand it over to Camera, but never listen for frame-ready callbacks,
// and never call updateTexImage on it.
try {
// "42" because http://goo.gl/KaEn8
dummySurfaceTexture = new SurfaceTexture(42);
camera.setPreviewTexture(dummySurfaceTexture);
} catch (IOException e) {
throw new RuntimeException(e);
}
}
Camera.Parameters parameters = camera.getParameters();
Log.d(TAG, "isVideoStabilizationSupported: " + parameters.isVideoStabilizationSupported());
if (parameters.isVideoStabilizationSupported()) {
parameters.setVideoStabilization(true);
}
parameters.setPreviewSize(width, height);
parameters.setPreviewFpsRange(min_mfps, max_mfps);
int format = ImageFormat.NV21;
parameters.setPreviewFormat(format);
camera.setParameters(parameters);
int bufSize = width * height * ImageFormat.getBitsPerPixel(format) / 8;
for (int i = 0; i < numCaptureBuffers; i++) {
camera.addCallbackBuffer(new byte[bufSize]);
}
camera.setPreviewCallbackWithBuffer(this);
camera.startPreview();
return true;
} catch (IOException e) {
error = e;
} catch (RuntimeException e) {
error = e;
}
Log.e(TAG, "startCapture failed", error);
if (camera != null) {
stopCapture();
}
return false;
}
private void initializeCamera() {
Camera.Parameters p = mCamera.getParameters();
// Hack for Samsung devices (e.g. Nexus 5) ; otherwise callback is never called
// See http://stackoverflow.com/questions/5788993/use-android-camera-without-surface-view
try {
mCameraTexture = new SurfaceTexture(10);
mCamera.setPreviewTexture(mCameraTexture);
} catch (Throwable ignored) {
}
// Choose smallest preview size available
List<Camera.Size> sizes = p.getSupportedPictureSizes();
int bestIndex = -1;
int pixelCount = Integer.MAX_VALUE;
for (int i = 0; i < sizes.size(); i++) {
int w = sizes.get(i).width, h = sizes.get(i).height;
int count = w * h;
if (count < pixelCount) {
bestIndex = i;
pixelCount = count; // Note pixelCount is reused below
}
}
Camera.Size size = sizes.get(bestIndex);
mCameraWidth = size.width;
mCameraHeight = size.height;
Log.d(TAG, "W:" + mCameraWidth + ",H:" + mCameraHeight + ", num pixels:" + pixelCount);
mCameraDecodedRGB = new int[pixelCount];
p.setPreviewSize(mCameraWidth, mCameraHeight);
p.setPreviewFormat(ImageFormat.NV21);
mCamera.setParameters(p);
int bitsPerPixel = ImageFormat.getBitsPerPixel(p.getPreviewFormat());
int bytes = (pixelCount * bitsPerPixel) / 8;
// Double Buffer - allow a buffer to be filled with new data while we are using the other one
mCamera.addCallbackBuffer(new byte[bytes]);
mCamera.addCallbackBuffer(new byte[bytes]);
mCamera.setPreviewCallbackWithBuffer(this);
mPreviewRunning = true;
mCamera.startPreview();
Log.d(TAG, "startPreview()");
}
@TargetApi(11)
protected boolean initializeCamera(int width, int height) {
Log.d(TAG, "Initialize java camera");
boolean result = true;
synchronized (this) {
mCamera = null;
if (mCameraIndex == -1) {
Log.d(TAG, "Trying to open camera with old open()");
try {
mCamera = Camera.open();
} catch (Exception e) {
Log.e(
TAG,
"Camera is not available (in use or does not exist): " + e.getLocalizedMessage());
}
if (mCamera == null && Build.VERSION.SDK_INT >= Build.VERSION_CODES.GINGERBREAD) {
boolean connected = false;
for (int camIdx = 0; camIdx < Camera.getNumberOfCameras(); ++camIdx) {
Log.d(TAG, "Trying to open camera with new open(" + Integer.valueOf(camIdx) + ")");
try {
mCamera = Camera.open(camIdx);
connected = true;
} catch (RuntimeException e) {
Log.e(TAG, "Camera #" + camIdx + "failed to open: " + e.getLocalizedMessage());
}
if (connected) break;
}
}
} else {
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.GINGERBREAD) {
Log.d(TAG, "Trying to open camera with new open(" + Integer.valueOf(mCameraIndex) + ")");
try {
mCamera = Camera.open(mCameraIndex);
} catch (RuntimeException e) {
Log.e(TAG, "Camera #" + mCameraIndex + "failed to open: " + e.getLocalizedMessage());
}
}
}
if (mCamera == null) return false;
/* Now set camera parameters */
try {
Camera.Parameters params = mCamera.getParameters();
Log.d(TAG, "getSupportedPreviewSizes()");
List<android.hardware.Camera.Size> sizes = params.getSupportedPreviewSizes();
if (sizes != null) {
/* Select the size that fits surface considering maximum size allowed */
Size frameSize =
calculateCameraFrameSize(sizes, new JavaCameraSizeAccessor(), width, height);
params.setPreviewFormat(ImageFormat.NV21);
Log.d(
TAG,
"Set preview size to "
+ Integer.valueOf((int) frameSize.width)
+ "x"
+ Integer.valueOf((int) frameSize.height));
params.setPreviewSize((int) frameSize.width, (int) frameSize.height);
List<String> FocusModes = params.getSupportedFocusModes();
if (FocusModes.contains(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO)) {
params.setFocusMode(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO);
}
mCamera.setParameters(params);
params = mCamera.getParameters();
mFrameWidth = params.getPreviewSize().width;
mFrameHeight = params.getPreviewSize().height;
if (mFpsMeter != null) {
mFpsMeter.setResolution(mFrameWidth, mFrameHeight);
}
int size = mFrameWidth * mFrameHeight;
size = size * ImageFormat.getBitsPerPixel(params.getPreviewFormat()) / 8;
mBuffer = new byte[size];
mCamera.addCallbackBuffer(mBuffer);
mCamera.setPreviewCallbackWithBuffer(this);
mBaseMat = new Mat(mFrameHeight + (mFrameHeight / 2), mFrameWidth, CvType.CV_8UC1);
mFrameChain = new Mat[2];
mFrameChain[0] = new Mat();
mFrameChain[1] = new Mat();
AllocateCache();
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.HONEYCOMB) {
mSurfaceTexture = new SurfaceTexture(MAGIC_TEXTURE_ID);
getHolder().setType(SurfaceHolder.SURFACE_TYPE_PUSH_BUFFERS);
mCamera.setPreviewTexture(mSurfaceTexture);
} else mCamera.setPreviewDisplay(null);
/* Finally we are ready to start the preview */
Log.d(TAG, "startPreview");
mCamera.startPreview();
} else result = false;
} catch (Exception e) {
result = false;
e.printStackTrace();
}
}
return result;
}
/**
* Opens the camera and applies the user settings.
*
* @throws RuntimeException if the method fails
*/
@SuppressLint("InlinedApi")
private Camera createCamera() {
int requestedCameraId = getIdForRequestedCamera(mFacing);
if (requestedCameraId == -1) {
throw new RuntimeException(mContext.getString(R.string.no_requested_camera));
}
Camera camera = Camera.open(requestedCameraId);
SizePair sizePair =
selectSizePair(camera, mRequestedPreviewWidth, mRequestedPreviewHeight, mContext);
if (sizePair == null) {
throw new RuntimeException(mContext.getString(R.string.no_suitable_preview_size));
}
Size pictureSize = sizePair.pictureSize();
mPreviewSize = sizePair.previewSize();
int[] previewFpsRange = selectPreviewFpsRange(camera, mRequestedFps);
if (previewFpsRange == null) {
throw new RuntimeException(mContext.getString(R.string.no_suitable_frames_per_second));
}
Camera.Parameters parameters = camera.getParameters();
parameters.setPictureSize(pictureSize.getWidth(), pictureSize.getHeight());
parameters.setPreviewSize(mPreviewSize.getWidth(), mPreviewSize.getHeight());
parameters.setPreviewFpsRange(
previewFpsRange[Camera.Parameters.PREVIEW_FPS_MIN_INDEX],
previewFpsRange[Camera.Parameters.PREVIEW_FPS_MAX_INDEX]);
parameters.setPreviewFormat(ImageFormat.NV21);
setRotation(camera, parameters, requestedCameraId);
if (mFocusMode != null) {
if (parameters.getSupportedFocusModes().contains(mFocusMode)) {
parameters.setFocusMode(mFocusMode);
} else {
Log.i(
TAG,
mContext.getString(R.string.camera_focus_mode)
+ mFocusMode
+ mContext.getString(R.string.not_supported));
}
}
// setting mFocusMode to the one set in the params
mFocusMode = parameters.getFocusMode();
if (mFlashMode != null) {
if (parameters.getSupportedFlashModes().contains(mFlashMode)) {
parameters.setFlashMode(mFlashMode);
} else {
Log.i(
TAG,
mContext.getString(R.string.flash_mode)
+ mFlashMode
+ mContext.getString(R.string.not_supported));
}
}
// setting mFlashMode to the one set in the params
mFlashMode = parameters.getFlashMode();
camera.setParameters(parameters);
// Four frame buffers are needed for working with the camera:
//
// one for the frame that is currently being executed upon in doing detection
// one for the next pending frame to process immediately upon completing detection
// two for the frames that the camera uses to populate future preview images
camera.setPreviewCallbackWithBuffer(new CameraPreviewCallback());
camera.addCallbackBuffer(createPreviewBuffer(mPreviewSize));
camera.addCallbackBuffer(createPreviewBuffer(mPreviewSize));
camera.addCallbackBuffer(createPreviewBuffer(mPreviewSize));
camera.addCallbackBuffer(createPreviewBuffer(mPreviewSize));
return camera;
}
// (Re)start preview with the closest supported format to |width| x |height| @ |framerate|.
private void startPreviewOnCameraThread(int width, int height, int framerate) {
checkIsOnCameraThread();
Logging.d(
TAG, "startPreviewOnCameraThread requested: " + width + "x" + height + "@" + framerate);
if (camera == null) {
Logging.e(TAG, "Calling startPreviewOnCameraThread on stopped camera.");
return;
}
requestedWidth = width;
requestedHeight = height;
requestedFramerate = framerate;
// Find closest supported format for |width| x |height| @ |framerate|.
final Camera.Parameters parameters = camera.getParameters();
final int[] range = CameraEnumerationAndroid.getFramerateRange(parameters, framerate * 1000);
final Camera.Size previewSize =
CameraEnumerationAndroid.getClosestSupportedSize(
parameters.getSupportedPreviewSizes(), width, height);
final CaptureFormat captureFormat =
new CaptureFormat(
previewSize.width,
previewSize.height,
range[Camera.Parameters.PREVIEW_FPS_MIN_INDEX],
range[Camera.Parameters.PREVIEW_FPS_MAX_INDEX]);
// Check if we are already using this capture format, then we don't need to do anything.
if (captureFormat.equals(this.captureFormat)) {
return;
}
// Update camera parameters.
Logging.d(TAG, "isVideoStabilizationSupported: " + parameters.isVideoStabilizationSupported());
if (parameters.isVideoStabilizationSupported()) {
parameters.setVideoStabilization(true);
}
// Note: setRecordingHint(true) actually decrease frame rate on N5.
// parameters.setRecordingHint(true);
if (captureFormat.maxFramerate > 0) {
parameters.setPreviewFpsRange(captureFormat.minFramerate, captureFormat.maxFramerate);
}
parameters.setPreviewSize(captureFormat.width, captureFormat.height);
parameters.setPreviewFormat(captureFormat.imageFormat);
// Picture size is for taking pictures and not for preview/video, but we need to set it anyway
// as a workaround for an aspect ratio problem on Nexus 7.
final Camera.Size pictureSize =
CameraEnumerationAndroid.getClosestSupportedSize(
parameters.getSupportedPictureSizes(), width, height);
parameters.setPictureSize(pictureSize.width, pictureSize.height);
// Temporarily stop preview if it's already running.
if (this.captureFormat != null) {
camera.stopPreview();
dropNextFrame = true;
// Calling |setPreviewCallbackWithBuffer| with null should clear the internal camera buffer
// queue, but sometimes we receive a frame with the old resolution after this call anyway.
camera.setPreviewCallbackWithBuffer(null);
}
// (Re)start preview.
Logging.d(TAG, "Start capturing: " + captureFormat);
this.captureFormat = captureFormat;
List<String> focusModes = parameters.getSupportedFocusModes();
if (focusModes.contains(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO)) {
parameters.setFocusMode(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO);
}
camera.setParameters(parameters);
if (!isCapturingToTexture) {
videoBuffers.queueCameraBuffers(captureFormat.frameSize(), camera);
camera.setPreviewCallbackWithBuffer(this);
}
camera.startPreview();
}
// Returns true on success, false otherwise.
@CalledByNative
public boolean allocate(int width, int height, int frameRate) {
Log.d(TAG, "allocate: requested (" + width + "x" + height + ")@" + frameRate + "fps");
try {
mCamera = Camera.open(mId);
} catch (RuntimeException ex) {
Log.e(TAG, "allocate: Camera.open: " + ex);
return false;
}
Camera.CameraInfo cameraInfo = new Camera.CameraInfo();
Camera.getCameraInfo(mId, cameraInfo);
mCameraOrientation = cameraInfo.orientation;
mCameraFacing = cameraInfo.facing;
mDeviceOrientation = getDeviceOrientation();
Log.d(
TAG,
"allocate: orientation dev="
+ mDeviceOrientation
+ ", cam="
+ mCameraOrientation
+ ", facing="
+ mCameraFacing);
Camera.Parameters parameters = mCamera.getParameters();
// getSupportedPreviewFpsRange() returns a List with at least one
// element, but when camera is in bad state, it can return null pointer.
List<int[]> listFpsRange = parameters.getSupportedPreviewFpsRange();
if (listFpsRange == null || listFpsRange.size() == 0) {
Log.e(TAG, "allocate: no fps range found");
return false;
}
int frameRateInMs = frameRate * 1000;
// Use the first range as default.
int[] fpsMinMax = listFpsRange.get(0);
int newFrameRate = (fpsMinMax[0] + 999) / 1000;
for (int[] fpsRange : listFpsRange) {
if (fpsRange[0] <= frameRateInMs && frameRateInMs <= fpsRange[1]) {
fpsMinMax = fpsRange;
newFrameRate = frameRate;
break;
}
}
frameRate = newFrameRate;
Log.d(TAG, "allocate: fps set to " + frameRate);
// Calculate size.
List<Camera.Size> listCameraSize = parameters.getSupportedPreviewSizes();
int minDiff = Integer.MAX_VALUE;
int matchedWidth = width;
int matchedHeight = height;
for (Camera.Size size : listCameraSize) {
int diff = Math.abs(size.width - width) + Math.abs(size.height - height);
Log.d(TAG, "allocate: supported (" + size.width + ", " + size.height + "), diff=" + diff);
// TODO(wjia): Remove this hack (forcing width to be multiple
// of 32) by supporting stride in video frame buffer.
// Right now, VideoCaptureController requires compact YV12
// (i.e., with no padding).
if (diff < minDiff && (size.width % 32 == 0)) {
minDiff = diff;
matchedWidth = size.width;
matchedHeight = size.height;
}
}
if (minDiff == Integer.MAX_VALUE) {
Log.e(TAG, "allocate: can not find a multiple-of-32 resolution");
return false;
}
mCaptureFormat =
new CaptureFormat(matchedWidth, matchedHeight, frameRate, BuggyDeviceHack.getImageFormat());
// Hack to avoid certain capture resolutions under a minimum one,
// see http://crbug.com/305294
BuggyDeviceHack.applyMinDimensions(mCaptureFormat);
Log.d(TAG, "allocate: matched (" + mCaptureFormat.mWidth + "x" + mCaptureFormat.mHeight + ")");
if (parameters.isVideoStabilizationSupported()) {
Log.d(
TAG,
"Image stabilization supported, currently: "
+ parameters.getVideoStabilization()
+ ", setting it.");
parameters.setVideoStabilization(true);
} else {
Log.d(TAG, "Image stabilization not supported.");
}
parameters.setPreviewSize(mCaptureFormat.mWidth, mCaptureFormat.mHeight);
parameters.setPreviewFormat(mCaptureFormat.mPixelFormat);
parameters.setPreviewFpsRange(fpsMinMax[0], fpsMinMax[1]);
mCamera.setParameters(parameters);
// Set SurfaceTexture. Android Capture needs a SurfaceTexture even if
// it is not going to be used.
mGlTextures = new int[1];
// Generate one texture pointer and bind it as an external texture.
GLES20.glGenTextures(1, mGlTextures, 0);
GLES20.glBindTexture(GL_TEXTURE_EXTERNAL_OES, mGlTextures[0]);
// No mip-mapping with camera source.
GLES20.glTexParameterf(GL_TEXTURE_EXTERNAL_OES, GLES20.GL_TEXTURE_MIN_FILTER, GLES20.GL_LINEAR);
GLES20.glTexParameterf(GL_TEXTURE_EXTERNAL_OES, GLES20.GL_TEXTURE_MAG_FILTER, GLES20.GL_LINEAR);
// Clamp to edge is only option.
GLES20.glTexParameteri(
GL_TEXTURE_EXTERNAL_OES, GLES20.GL_TEXTURE_WRAP_S, GLES20.GL_CLAMP_TO_EDGE);
GLES20.glTexParameteri(
GL_TEXTURE_EXTERNAL_OES, GLES20.GL_TEXTURE_WRAP_T, GLES20.GL_CLAMP_TO_EDGE);
mSurfaceTexture = new SurfaceTexture(mGlTextures[0]);
mSurfaceTexture.setOnFrameAvailableListener(null);
try {
mCamera.setPreviewTexture(mSurfaceTexture);
} catch (IOException ex) {
Log.e(TAG, "allocate: " + ex);
return false;
}
int bufSize =
mCaptureFormat.mWidth
* mCaptureFormat.mHeight
* ImageFormat.getBitsPerPixel(mCaptureFormat.mPixelFormat)
/ 8;
for (int i = 0; i < NUM_CAPTURE_BUFFERS; i++) {
byte[] buffer = new byte[bufSize];
mCamera.addCallbackBuffer(buffer);
}
mExpectedFrameSize = bufSize;
return true;
}
protected boolean initializeCamera(int width, int height) {
Log.d(TAG, "Initialize java camera");
boolean result = true;
synchronized (this) {
mCamera = null;
if (mCameraIndex == CAMERA_ID_ANY) {
Log.d(TAG, "Trying to open camera with old open()");
try {
mCamera = Camera.open();
} catch (Exception e) {
Log.e(
TAG,
"Camera is not available (in use or does not exist): " + e.getLocalizedMessage());
}
if (mCamera == null && Build.VERSION.SDK_INT >= Build.VERSION_CODES.GINGERBREAD) {
boolean connected = false;
for (int camIdx = 0; camIdx < Camera.getNumberOfCameras(); ++camIdx) {
Log.d(TAG, "Trying to open camera with new open(" + Integer.valueOf(camIdx) + ")");
try {
mCamera = Camera.open(camIdx);
connected = true;
} catch (RuntimeException e) {
Log.e(TAG, "Camera #" + camIdx + "failed to open: " + e.getLocalizedMessage());
}
if (connected) break;
}
}
} else {
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.GINGERBREAD) {
int localCameraIndex = mCameraIndex;
if (mCameraIndex == CAMERA_ID_BACK) {
Log.i(TAG, "Trying to open back camera");
Camera.CameraInfo cameraInfo = new Camera.CameraInfo();
for (int camIdx = 0; camIdx < Camera.getNumberOfCameras(); ++camIdx) {
Camera.getCameraInfo(camIdx, cameraInfo);
if (cameraInfo.facing == Camera.CameraInfo.CAMERA_FACING_BACK) {
localCameraIndex = camIdx;
break;
}
}
} else if (mCameraIndex == CAMERA_ID_FRONT) {
Log.i(TAG, "Trying to open front camera");
Camera.CameraInfo cameraInfo = new Camera.CameraInfo();
for (int camIdx = 0; camIdx < Camera.getNumberOfCameras(); ++camIdx) {
Camera.getCameraInfo(camIdx, cameraInfo);
if (cameraInfo.facing == Camera.CameraInfo.CAMERA_FACING_FRONT) {
localCameraIndex = camIdx;
break;
}
}
}
if (localCameraIndex == CAMERA_ID_BACK) {
Log.e(TAG, "Back camera not found!");
} else if (localCameraIndex == CAMERA_ID_FRONT) {
Log.e(TAG, "Front camera not found!");
} else {
Log.d(
TAG,
"Trying to open camera with new open(" + Integer.valueOf(localCameraIndex) + ")");
try {
mCamera = Camera.open(localCameraIndex);
} catch (RuntimeException e) {
Log.e(
TAG,
"Camera #" + localCameraIndex + "failed to open: " + e.getLocalizedMessage());
}
}
}
}
if (mCamera == null) return false;
/* Now set camera parameters */
try {
Camera.Parameters params = mCamera.getParameters();
Log.d(TAG, "getSupportedPreviewSizes()");
List<android.hardware.Camera.Size> sizes = params.getSupportedPreviewSizes();
if (sizes != null) {
/* Select the size that fits surface considering maximum size allowed */
Size frameSize =
calculateCameraFrameSize(sizes, new JavaCameraSizeAccessor(), width, height);
params.setPreviewFormat(ImageFormat.NV21);
Log.d(
TAG,
"Set preview size to "
+ Integer.valueOf((int) frameSize.width)
+ "x"
+ Integer.valueOf((int) frameSize.height));
params.setPreviewSize((int) frameSize.width, (int) frameSize.height);
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.ICE_CREAM_SANDWICH
&& !android.os.Build.MODEL.equals("GT-I9100")) params.setRecordingHint(true);
List<String> FocusModes = params.getSupportedFocusModes();
if (FocusModes != null
&& FocusModes.contains(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO)) {
params.setFocusMode(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO);
}
mCamera.setParameters(params);
params = mCamera.getParameters();
mFrameWidth = params.getPreviewSize().width;
mFrameHeight = params.getPreviewSize().height;
if ((getLayoutParams().width == LayoutParams.MATCH_PARENT)
&& (getLayoutParams().height == LayoutParams.MATCH_PARENT))
mScale = Math.min(((float) height) / mFrameHeight, ((float) width) / mFrameWidth);
else mScale = 0;
if (mFpsMeter != null) {
mFpsMeter.setResolution(mFrameWidth, mFrameHeight);
}
int size = mFrameWidth * mFrameHeight;
size = size * ImageFormat.getBitsPerPixel(params.getPreviewFormat()) / 8;
mBuffer = new byte[size];
mCamera.addCallbackBuffer(mBuffer);
mCamera.setPreviewCallbackWithBuffer(this);
mFrameChain = new Mat[2];
mFrameChain[0] = new Mat(mFrameHeight + (mFrameHeight / 2), mFrameWidth, CvType.CV_8UC1);
mFrameChain[1] = new Mat(mFrameHeight + (mFrameHeight / 2), mFrameWidth, CvType.CV_8UC1);
AllocateCache();
mCameraFrame = new JavaCameraFrame[2];
mCameraFrame[0] = new JavaCameraFrame(mFrameChain[0], mFrameWidth, mFrameHeight);
mCameraFrame[1] = new JavaCameraFrame(mFrameChain[1], mFrameWidth, mFrameHeight);
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.HONEYCOMB) {
mSurfaceTexture = new SurfaceTexture(MAGIC_TEXTURE_ID);
mCamera.setPreviewTexture(mSurfaceTexture);
} else mCamera.setPreviewDisplay(null);
/* Finally we are ready to start the preview */
Log.d(TAG, "startPreview");
mCamera.startPreview();
} else result = false;
} catch (Exception e) {
result = false;
e.printStackTrace();
}
}
return result;
}
@Override
public void surfaceCreated(SurfaceHolder arg0) {
// TODO Auto-generated method stub
OpenCVLoader.initAsync(OpenCVLoader.OPENCV_VERSION_2_4_3, getActivity(), mLoaderCallback);
mCamera = Camera.open();
Camera.Parameters parameters = mCamera.getParameters();
List<android.hardware.Camera.Size> sizes = parameters.getSupportedPreviewSizes();
// if portrait frameSize , width is less than height
Size frameSize =
calculateCameraFrameSize(sizes, mSurface.getWidth(), mSurface.getHeight(), true);
parameters.setPreviewSize((int) frameSize.height, (int) frameSize.width);
parameters.set("orientation", "portrait");
parameters.setPreviewFormat(ImageFormat.NV21);
mFrameWidth = (int) frameSize.width;
mFrameHeight = (int) frameSize.height;
mCamera.setDisplayOrientation(90);
try {
mCamera.setPreviewDisplay(mHolder);
mCamera.setParameters(parameters);
mCamera.setPreviewCallback(this);
} catch (Exception e) {
}
mZoomBar.setMax(mCamera.getParameters().getMaxZoom());
mZoomBar.setProgress(mCamera.getParameters().getZoom());
mZoomBar.setOnSeekBarChangeListener(
new OnSeekBarChangeListener() {
@Override
public void onProgressChanged(SeekBar arg0, int arg1, boolean arg2) {
// TODO Auto-generated method stub
// modify zoom
Camera.Parameters params = mCamera.getParameters();
params.setZoom(arg1);
mCamera.setParameters(params);
mZoomBar.setProgress(arg1);
}
@Override
public void onStartTrackingTouch(SeekBar seekBar) {
// TODO Auto-generated method stub
}
@Override
public void onStopTrackingTouch(SeekBar seekBar) {
// TODO Auto-generated method stub
}
});
mCamera.startPreview();
mCamera.autoFocus(mAutoFocusCallback);
}