void setDesiredCameraParameters(Camera camera, boolean safeMode) {
Camera.Parameters parameters = camera.getParameters();
if (parameters == null) {
Log.w(
TAG,
"Device error: no camera parameters are available. Proceeding without configuration.");
return;
}
Log.i(TAG, "Initial camera parameters: " + parameters.flatten());
if (safeMode) {
Log.w(TAG, "In camera config safe mode -- most settings will not be honored");
}
SharedPreferences prefs = PreferenceManager.getDefaultSharedPreferences(context);
initializeTorch(parameters, prefs, safeMode);
String focusMode = null;
if (prefs.getBoolean(PreferencesActivity.KEY_AUTO_FOCUS, true)) {
if (safeMode || prefs.getBoolean(PreferencesActivity.KEY_DISABLE_CONTINUOUS_FOCUS, false)) {
focusMode =
findSettableValue(
parameters.getSupportedFocusModes(), Camera.Parameters.FOCUS_MODE_AUTO);
} else {
focusMode =
findSettableValue(
parameters.getSupportedFocusModes(),
"continuous-picture", // Camera.Parameters.FOCUS_MODE_CONTINUOUS_PICTURE in 4.0+
"continuous-video", // Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO in 4.0+
Camera.Parameters.FOCUS_MODE_AUTO);
}
}
// Maybe selected auto-focus but not available, so fall through here:
if (!safeMode && focusMode == null) {
focusMode =
findSettableValue(
parameters.getSupportedFocusModes(),
Camera.Parameters.FOCUS_MODE_MACRO,
"edof"); // Camera.Parameters.FOCUS_MODE_EDOF in 2.2+
}
if (focusMode != null) {
parameters.setFocusMode(focusMode);
}
if (prefs.getBoolean(PreferencesActivity.KEY_INVERT_SCAN, false)) {
String colorMode =
findSettableValue(
parameters.getSupportedColorEffects(), Camera.Parameters.EFFECT_NEGATIVE);
if (colorMode != null) {
parameters.setColorEffect(colorMode);
}
}
parameters.setPreviewSize(cameraResolution.x, cameraResolution.y);
camera.setParameters(parameters);
}
public int setCameraProperty(String key, String value) {
if (mCamera == null) {
return MAAPI_consts.MA_CAMERA_RES_FAILED;
}
try {
Camera.Parameters param = getCurrentParameters();
if (key.equals(MAAPI_consts.MA_CAMERA_IMAGE_FORMAT)) {
if (value.equals(MAAPI_consts.MA_CAMERA_IMAGE_RAW)) {
rawMode = true;
} else {
// default mode is jpeg
rawMode = false;
}
} else if (key.equals(MAAPI_consts.MA_CAMERA_FOCUS_MODE)) {
if (value.equals(MAAPI_consts.MA_CAMERA_FOCUS_AUTO)) {
if (false == param.getSupportedFocusModes().contains(value)) {
return MAAPI_consts.MA_CAMERA_RES_VALUE_NOTSUPPORTED;
}
mCamera.autoFocus(autoFocusCallback);
} else if (value.equals(MAAPI_consts.MA_CAMERA_FOCUS_MACRO)) {
if (false == param.getSupportedFocusModes().contains(value)) {
return MAAPI_consts.MA_CAMERA_RES_VALUE_NOTSUPPORTED;
}
mCamera.autoFocus(autoFocusCallback);
} else if (false == param.getSupportedFocusModes().contains(value)) {
mCamera.cancelAutoFocus();
return MAAPI_consts.MA_CAMERA_RES_VALUE_NOTSUPPORTED;
} else mCamera.cancelAutoFocus();
param.setFocusMode(value);
} else if (key.equals(MAAPI_consts.MA_CAMERA_FLASH_MODE)) {
if (true == param.getSupportedFlashModes().contains(value)) {
param.setFlashMode(value);
} else {
return MAAPI_consts.MA_CAMERA_RES_VALUE_NOTSUPPORTED;
}
} else {
param.set(key, value);
}
mCamera.setParameters(param);
} catch (Exception e) {
return MAAPI_consts.MA_CAMERA_RES_FAILED;
}
return MAAPI_consts.MA_CAMERA_RES_OK;
}
// Called when holder has changed
public void surfaceChanged(SurfaceHolder holder, int format, int w, int h) {
Camera.Parameters parameters = camera.getParameters();
List<String> focusModes = parameters.getSupportedFocusModes();
if (focusModes.contains(Camera.Parameters.FOCUS_MODE_AUTO)) {
Log.d("camera", "focus_mode_auto");
parameters.setFocusMode(Camera.Parameters.FOCUS_MODE_AUTO);
} else {
Log.d("camera", "focus_mode_macro");
parameters.setFocusMode(Camera.Parameters.FOCUS_MODE_MACRO);
}
Log.d("camera", "orientation: " + getResources().getConfiguration().orientation);
int orientation = getResources().getConfiguration().orientation;
switch (orientation) {
case Surface.ROTATION_0:
Log.d("camera", "ROTATION_0");
camera.setDisplayOrientation(180);
break;
case Surface.ROTATION_90:
Log.d("camera", "ROTATION_90");
camera.setDisplayOrientation(90);
break;
case Surface.ROTATION_180:
Log.d("camera", "ROTATION_180");
camera.setDisplayOrientation(0);
break;
case Surface.ROTATION_270:
Log.d("camera", "ROTATION_270");
camera.setDisplayOrientation(270);
break;
}
camera.setParameters(parameters);
camera.startPreview();
}
@Override
public void surfaceChanged(SurfaceHolder surfaceHolder, int i, int i2, int i3) {
Log.e("ok", "surfaceChanged => w=" + i2 + ", h=" + i3);
// before changing the application orientation, you need to stop the preview, rotate and then
// start it again
if (surfaceHolder.getSurface() == null) // check if the surface is ready to receive camera data
return;
try {
mCamera.stopPreview();
} catch (Exception e) {
// this will happen when you are trying the camera if it's not running
}
// now, recreate the camera preview
try {
Camera.Parameters parameters = mCamera.getParameters();
List<String> focusModes = parameters.getSupportedFocusModes();
if (focusModes.contains(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO)) {
parameters.setFocusMode(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO);
}
parameters.setPreviewSize(mPreviewSize.width, mPreviewSize.height);
mCamera.setParameters(parameters);
mCamera.setDisplayOrientation(90);
mCamera.startPreview(mHolder);
} catch (IOException e) {
Log.d("ERROR", "Camera error on surfaceChanged " + e.getMessage());
}
}
private void initPreview(int width, int height) {
if (camera != null && previewHolder.getSurface() != null) {
try {
camera.setPreviewDisplay(previewHolder);
} catch (Throwable t) {
}
if (!cameraConfigured) {
Camera.Parameters parameters = camera.getParameters();
Camera.Size size = getBestPreviewSize(width, height, parameters);
Camera.Size pictureSize = getLargestPictureSize(parameters);
if (size != null && pictureSize != null) {
if (parameters.getSupportedFocusModes().contains(Camera.Parameters.FOCUS_MODE_AUTO)) {
// set the focus mode
parameters.setFocusMode(Camera.Parameters.FOCUS_MODE_AUTO);
}
parameters.setPreviewSize(size.width, size.height);
parameters.setPictureSize(pictureSize.width, pictureSize.height);
parameters.setPictureFormat(ImageFormat.JPEG);
camera.setParameters(parameters);
cameraConfigured = true;
}
}
}
}
@SuppressLint("InlinedApi")
private static void setDesiredCameraParameters(
final Camera camera, final Camera.Size cameraResolution, final boolean continuousAutoFocus) {
final Camera.Parameters parameters = camera.getParameters();
if (parameters == null) return;
final List<String> supportedFocusModes = parameters.getSupportedFocusModes();
final String focusMode =
continuousAutoFocus
? findValue(
supportedFocusModes,
Camera.Parameters.FOCUS_MODE_CONTINUOUS_PICTURE,
Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO,
Camera.Parameters.FOCUS_MODE_AUTO,
Camera.Parameters.FOCUS_MODE_MACRO)
: findValue(
supportedFocusModes,
Camera.Parameters.FOCUS_MODE_AUTO,
Camera.Parameters.FOCUS_MODE_MACRO);
if (focusMode != null) parameters.setFocusMode(focusMode);
parameters.setPreviewSize(cameraResolution.width, cameraResolution.height);
camera.setParameters(parameters);
}
private void checkRearCamera() {
Camera camera = null;
try {
camera = Camera.open();
if (camera != null) {
assertAvailable(PackageManager.FEATURE_CAMERA);
Camera.Parameters params = camera.getParameters();
if (params.getSupportedFocusModes().contains(Parameters.FOCUS_MODE_AUTO)) {
assertAvailable(PackageManager.FEATURE_CAMERA_AUTOFOCUS);
} else {
assertNotAvailable(PackageManager.FEATURE_CAMERA_AUTOFOCUS);
}
if (params.getFlashMode() != null) {
assertAvailable(PackageManager.FEATURE_CAMERA_FLASH);
} else {
assertNotAvailable(PackageManager.FEATURE_CAMERA_FLASH);
}
} else {
assertNotAvailable(PackageManager.FEATURE_CAMERA);
assertNotAvailable(PackageManager.FEATURE_CAMERA_AUTOFOCUS);
assertNotAvailable(PackageManager.FEATURE_CAMERA_FLASH);
}
} finally {
if (camera != null) {
camera.release();
}
}
}
public CustomeCamera(
Activity activity, FrameLayout cameraPreviewLayout, Integer size, Integer quality)
throws Exception {
this.activity = activity;
this.size = size;
this.quality = quality;
// Create an instance of Camera
try {
mCamera = getCameraInstance();
} catch (Exception e) {
throw new Exception(e.getMessage());
}
try {
mCamera.setDisplayOrientation(90);
} catch (Exception e) {
Log.d(TAG, e.getMessage());
}
Camera.CameraInfo info = new Camera.CameraInfo();
Camera.getCameraInfo(Camera.CameraInfo.CAMERA_FACING_BACK, info);
int rotation = activity.getWindowManager().getDefaultDisplay().getRotation();
int degrees = 0;
switch (rotation) {
case Surface.ROTATION_0:
degrees = 0;
break; // Natural orientation
case Surface.ROTATION_90:
degrees = 90;
break; // Landscape left
case Surface.ROTATION_180:
degrees = 180;
break; // Upside down
case Surface.ROTATION_270:
degrees = 270;
break; // Landscape right
}
int rotate = (info.orientation - degrees + 360) % 360;
// STEP #2: Set the 'rotation' parameter
Camera.Parameters params = mCamera.getParameters();
params.setRotation(rotate);
List<String> focusModes = params.getSupportedFocusModes();
if (focusModes.contains(Camera.Parameters.FOCUS_MODE_AUTO)) {
params.setFocusMode(Camera.Parameters.FOCUS_MODE_AUTO);
}
if (params.getFocusMode() == Camera.Parameters.FOCUS_MODE_AUTO) autoFocusEnabled = true;
else autoFocusEnabled = false;
// TODO for the test
autoFocusEnabled = false;
mCamera.setParameters(params);
// Create our Preview view and set it as the content of our activity.
mPreview = new CameraPreview(activity, mCamera);
cameraPreviewLayout.addView(mPreview);
}
private void setIfAutoFocusSupported() {
// get Camera parameters
Camera.Parameters params = mCamera.getParameters();
List<String> focusModes = params.getSupportedFocusModes();
if (focusModes.contains(Camera.Parameters.FOCUS_MODE_AUTO)) {
params.setFocusMode(Camera.Parameters.FOCUS_MODE_AUTO);
mCamera.setParameters(params);
}
}
void setDesiredCameraParameters(Camera camera) {
Camera.Parameters parameters = camera.getParameters();
if (parameters == null) {
Log.w(
TAG,
"Device error: no camera parameters are available. Proceeding without configuration.");
return;
}
SharedPreferences prefs = PreferenceManager.getDefaultSharedPreferences(context);
initializeTorch(parameters, prefs);
String focusMode = null;
if (prefs.getBoolean(PreferencesActivity.KEY_AUTO_FOCUS, true)) {
if (prefs.getBoolean(PreferencesActivity.KEY_DISABLE_CONTINUOUS_FOCUS, false)) {
focusMode =
findSettableValue(
parameters.getSupportedFocusModes(), Camera.Parameters.FOCUS_MODE_AUTO);
} else {
focusMode =
findSettableValue(
parameters.getSupportedFocusModes(),
"continuous-picture", // Camera.Parameters.FOCUS_MODE_CONTINUOUS_PICTURE in 4.0+
"continuous-video", // Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO in 4.0+
Camera.Parameters.FOCUS_MODE_AUTO);
}
}
// Maybe selected auto-focus but not available, so fall through here:
if (focusMode == null) {
focusMode =
findSettableValue(
parameters.getSupportedFocusModes(),
Camera.Parameters.FOCUS_MODE_MACRO,
"edof"); // Camera.Parameters.FOCUS_MODE_EDOF in 2.2+
}
if (focusMode != null) {
parameters.setFocusMode(focusMode);
}
parameters.setPreviewSize(cameraResolution.x, cameraResolution.y);
camera.setParameters(parameters);
}
private int hasAutoFocus(Camera.Parameters parameters) {
final List<String> supportedFocusModes = parameters.getSupportedFocusModes();
if (supportedFocusModes.contains(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO)) {
return 2;
} else if (supportedFocusModes.contains(Camera.Parameters.FOCUS_MODE_AUTO)) {
// auto focus on request only
return 1;
}
return 0;
}
public synchronized void setupCamera(int width, int height) {
if (mCamera != null) {
Log.i(TAG, "Setup Camera - " + width + "x" + height);
Camera.Parameters params = mCamera.getParameters();
List<Camera.Size> sizes = params.getSupportedPreviewSizes();
mFrameWidth = width;
mFrameHeight = height;
// selecting optimal camera preview size
{
int minDiff = Integer.MAX_VALUE;
for (Camera.Size size : sizes) {
if (Math.abs(size.height - height) < minDiff) {
mFrameWidth = size.width;
mFrameHeight = size.height;
minDiff = Math.abs(size.height - height);
}
}
}
params.setPreviewSize(getFrameWidth(), getFrameHeight());
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);
/* Now allocate the buffer */
params = mCamera.getParameters();
int size = params.getPreviewSize().width * params.getPreviewSize().height;
size = size * ImageFormat.getBitsPerPixel(params.getPreviewFormat()) / 8;
mBuffer = new byte[size];
/* The buffer where the current frame will be copied */
mFrame = new byte[size];
mCamera.addCallbackBuffer(mBuffer);
/* Notify that the preview is about to be started and deliver preview size */
onPreviewStarted(params.getPreviewSize().width, params.getPreviewSize().height);
try {
setPreview();
} catch (IOException e) {
Log.e(TAG, "mCamera.setPreviewDisplay/setPreviewTexture fails: " + e);
}
/* Now we can start a preview */
mCamera.startPreview();
}
}
/** Handles camera opening */
private void openCamera(int which) {
if (mCamera != null) {
mCamera.stopPreview();
mCamera.release();
mCamera = null;
}
if (mCameraId >= 0) {
Camera.getCameraInfo(mCameraId, mCameraInfo);
if (which == FRONT) mCamera = Camera.open(Camera.CameraInfo.CAMERA_FACING_FRONT);
else mCamera = Camera.open(Camera.CameraInfo.CAMERA_FACING_BACK);
params = mCamera.getParameters();
params.setRotation(0);
/** set focus mode */
List<String> FocusModes = params.getSupportedFocusModes();
if (FocusModes.contains(Camera.Parameters.FOCUS_MODE_CONTINUOUS_PICTURE)) {
params.setFocusMode(Camera.Parameters.FOCUS_MODE_CONTINUOUS_PICTURE);
}
mCamera.setParameters(params);
try {
if (mSurfaceTexture != null) {
mCamera.setPreviewTexture(mSurfaceTexture);
mCamera.startPreview();
}
} catch (Exception ex) {
}
}
if (mCamera == null || mSharedData == null) {
return;
}
int orientation = mCameraInfo.orientation + rot_angle;
Matrix.setRotateM(mSharedData.mOrientationM, 0, orientation, 0f, 0f, 1f);
Camera.Size size = mCamera.getParameters().getPreviewSize();
if (orientation % 90 == 0) {
int w = size.width;
size.width = size.height;
size.height = w;
}
mSharedData.mAspectRatioPreview[0] = (float) Math.min(size.width, size.height) / size.width;
mSharedData.mAspectRatioPreview[1] = (float) Math.min(size.width, size.height) / size.height;
}
/**
* Sets the focus mode.
*
* @param mode the focus mode
* @return {@code true} if the focus mode is set, {@code false} otherwise
* @see #getFocusMode()
*/
public boolean setFocusMode(@FocusMode String mode) {
synchronized (mCameraLock) {
if (mCamera != null && mode != null) {
Camera.Parameters parameters = mCamera.getParameters();
if (parameters.getSupportedFocusModes().contains(mode)) {
parameters.setFocusMode(mode);
mCamera.setParameters(parameters);
mFocusMode = mode;
return true;
}
}
return false;
}
}
private void initCameraParameters() {
Camera.Parameters parameters = mCamera.getParameters();
String mod = Build.MODEL;
if (Build.VERSION.SDK_INT >= 8) {
// MZ 180, other 90...
if ("M9".equalsIgnoreCase(mod) || "MX".equalsIgnoreCase(mod)) {
setDisplayOrientation(mCamera, 180);
} else {
setDisplayOrientation(mCamera, 90);
}
} else {
parameters.set("orientation", "portrait");
parameters.set("rotation", 90);
}
if (cameraCurrentlyLocked == CameraInfo.CAMERA_FACING_FRONT) {
ismCameraCanFlash = false;
} else {
ismCameraCanFlash = true;
}
if (!ismCameraCanFlash) {
mBtnFlash1.setVisibility(View.INVISIBLE);
mBtnFlash2.setVisibility(View.INVISIBLE);
mBtnFlash3.setVisibility(View.INVISIBLE);
} else {
mBtnFlash1.setVisibility(View.VISIBLE);
}
List<String> focusModes = parameters.getSupportedFocusModes();
if (focusModes.contains(Camera.Parameters.FOCUS_MODE_AUTO)) {
// Autofocus mode is supported
parameters.setFocusMode(Camera.Parameters.FOCUS_MODE_AUTO);
}
if (parameters.isZoomSupported()) {
parameters.setZoom(parameters.getZoom()); // 测试通过
}
Camera.Size previewSize = getFitParametersSize(parameters.getSupportedPreviewSizes());
parameters.setPreviewSize(previewSize.width, previewSize.height);
Camera.Size pictureSize = getFitParametersSize(parameters.getSupportedPictureSizes());
parameters.setPictureSize(pictureSize.width, pictureSize.height);
try {
mCamera.setParameters(parameters);
} catch (Exception e) {
e.printStackTrace();
}
}
private void setCameraFocusMode(Camera.Parameters parameters) {
// MODE_INFINITY is preferred mode.
List<String> supportedFocusModes = parameters.getSupportedFocusModes();
if (supportedFocusModes != null) {
if (supportedFocusModes.contains(Camera.Parameters.FOCUS_MODE_INFINITY)) {
parameters.setFocusMode(Camera.Parameters.FOCUS_MODE_INFINITY);
Log.v(TAG, "Set focus mode INFINITY");
} else if (supportedFocusModes.contains(Camera.Parameters.FOCUS_MODE_FIXED)) {
parameters.setFocusMode(Camera.Parameters.FOCUS_MODE_FIXED);
Log.v(TAG, "Set focus mode FIXED");
} else if (supportedFocusModes.contains(Camera.Parameters.FOCUS_MODE_AUTO)) {
parameters.setFocusMode(Camera.Parameters.FOCUS_MODE_AUTO);
Log.v(TAG, "Set focus mode AUTO");
}
}
}
public void setCamera(Camera camera) {
mCamera = camera;
if (mCamera != null) {
mSupportedPreviewSizes = mCamera.getParameters().getSupportedPreviewSizes();
requestLayout();
// get Camera parameters
Camera.Parameters params = mCamera.getParameters();
List<String> focusModes = params.getSupportedFocusModes();
if (focusModes.contains(Camera.Parameters.FOCUS_MODE_AUTO)) {
// set the focus mode
params.setFocusMode(Camera.Parameters.FOCUS_MODE_AUTO);
// set Camera parameters
mCamera.setParameters(params);
}
}
}
public CameraPreview(ImageView CameraPreview) {
if (mCamera == null) {
mCamera = Camera.open();
}
Camera.Parameters parameters;
parameters = mCamera.getParameters();
List<String> af = parameters.getSupportedFocusModes();
System.out.println(af);
if (af.contains("continuous-video")) {
parameters.setFocusMode(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO);
System.out.println("FocusModeTrue-Auto");
// TODO log this
}
List<Camera.Size> sizes = parameters.getSupportedPreviewSizes();
Camera.Size cs = sizes.get(0);
PreviewSizeWidth = cs.width;
PreviewSizeHeight = cs.height;
MyCameraPreview = CameraPreview;
bitmap = Bitmap.createBitmap(PreviewSizeWidth, PreviewSizeHeight, Bitmap.Config.ARGB_8888);
pixels = new int[PreviewSizeWidth * PreviewSizeHeight];
}
public static void setFocus(
Camera.Parameters parameters,
boolean autoFocus,
boolean disableContinuous,
boolean safeMode) {
List<String> supportedFocusModes = parameters.getSupportedFocusModes();
String focusMode = null;
if (autoFocus) {
if (safeMode || disableContinuous) {
focusMode =
findSettableValue("focus mode", supportedFocusModes, Camera.Parameters.FOCUS_MODE_AUTO);
} else {
focusMode =
findSettableValue(
"focus mode",
supportedFocusModes,
Camera.Parameters.FOCUS_MODE_CONTINUOUS_PICTURE,
Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO,
Camera.Parameters.FOCUS_MODE_AUTO);
}
}
// Maybe selected auto-focus but not available, so fall through here:
if (!safeMode && focusMode == null) {
focusMode =
findSettableValue(
"focus mode",
supportedFocusModes,
Camera.Parameters.FOCUS_MODE_MACRO,
Camera.Parameters.FOCUS_MODE_EDOF);
}
if (focusMode != null) {
if (focusMode.equals(parameters.getFocusMode())) {
Log.i(TAG, "Focus mode already set to " + focusMode);
} else {
parameters.setFocusMode(focusMode);
}
}
}
// zoom in and enable flash
protected boolean initializeCamera(int width, int height) {
boolean ret = super.initializeCamera(width, height);
Camera.Parameters params = mCamera.getParameters();
List<String> FocusModes = params.getSupportedFocusModes();
if (FocusModes != null && FocusModes.contains(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO)) {
params.setFocusMode(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO);
} else if (FocusModes != null
&& FocusModes.contains(Camera.Parameters.FOCUS_MODE_CONTINUOUS_PICTURE)) {
params.setFocusMode(Camera.Parameters.FOCUS_MODE_CONTINUOUS_PICTURE);
}
List<String> FlashModes = params.getSupportedFlashModes();
if (FlashModes != null && FlashModes.contains(Camera.Parameters.FLASH_MODE_TORCH)) {
params.setFlashMode(Camera.Parameters.FLASH_MODE_TORCH);
}
if (params.isZoomSupported()) enableZoomControls(params);
mCamera.setParameters(params);
return ret;
}
/**
* Set the legacy parameters using the {@link LegacyRequest legacy request}.
*
* <p>The legacy request's parameters are changed as a side effect of calling this method.
*
* @param legacyRequest a non-{@code null} legacy request
*/
public static void convertRequestMetadata(LegacyRequest legacyRequest) {
CameraCharacteristics characteristics = legacyRequest.characteristics;
CaptureRequest request = legacyRequest.captureRequest;
Size previewSize = legacyRequest.previewSize;
Camera.Parameters params = legacyRequest.parameters;
Rect activeArray = characteristics.get(CameraCharacteristics.SENSOR_INFO_ACTIVE_ARRAY_SIZE);
/*
* scaler.cropRegion
*/
ParameterUtils.ZoomData zoomData;
{
zoomData =
ParameterUtils.convertScalerCropRegion(
activeArray, request.get(SCALER_CROP_REGION), previewSize, params);
if (params.isZoomSupported()) {
params.setZoom(zoomData.zoomIndex);
} else if (VERBOSE) {
Log.v(TAG, "convertRequestToMetadata - zoom is not supported");
}
}
/*
* colorCorrection.*
*/
// colorCorrection.aberrationMode
{
int aberrationMode =
ParamsUtils.getOrDefault(
request,
COLOR_CORRECTION_ABERRATION_MODE,
/*defaultValue*/ COLOR_CORRECTION_ABERRATION_MODE_FAST);
if (aberrationMode != COLOR_CORRECTION_ABERRATION_MODE_FAST) {
Log.w(
TAG,
"convertRequestToMetadata - Ignoring unsupported "
+ "colorCorrection.aberrationMode = "
+ aberrationMode);
}
}
/*
* control.ae*
*/
// control.aeAntibandingMode
{
String legacyMode;
Integer antiBandingMode = request.get(CONTROL_AE_ANTIBANDING_MODE);
if (antiBandingMode != null) {
legacyMode = convertAeAntiBandingModeToLegacy(antiBandingMode);
} else {
legacyMode =
ListUtils.listSelectFirstFrom(
params.getSupportedAntibanding(),
new String[] {
Parameters.ANTIBANDING_AUTO,
Parameters.ANTIBANDING_OFF,
Parameters.ANTIBANDING_50HZ,
Parameters.ANTIBANDING_60HZ,
});
}
if (legacyMode != null) {
params.setAntibanding(legacyMode);
}
}
/*
* control.aeRegions, afRegions
*/
{
// aeRegions
{
// Use aeRegions if available, fall back to using awbRegions if present
MeteringRectangle[] aeRegions = request.get(CONTROL_AE_REGIONS);
if (request.get(CONTROL_AWB_REGIONS) != null) {
Log.w(
TAG,
"convertRequestMetadata - control.awbRegions setting is not "
+ "supported, ignoring value");
}
int maxNumMeteringAreas = params.getMaxNumMeteringAreas();
List<Camera.Area> meteringAreaList =
convertMeteringRegionsToLegacy(
activeArray, zoomData, aeRegions, maxNumMeteringAreas, /*regionName*/ "AE");
// WAR: for b/17252693, some devices can't handle params.setFocusAreas(null).
if (maxNumMeteringAreas > 0) {
params.setMeteringAreas(meteringAreaList);
}
}
// afRegions
{
MeteringRectangle[] afRegions = request.get(CONTROL_AF_REGIONS);
int maxNumFocusAreas = params.getMaxNumFocusAreas();
List<Camera.Area> focusAreaList =
convertMeteringRegionsToLegacy(
activeArray, zoomData, afRegions, maxNumFocusAreas, /*regionName*/ "AF");
// WAR: for b/17252693, some devices can't handle params.setFocusAreas(null).
if (maxNumFocusAreas > 0) {
params.setFocusAreas(focusAreaList);
}
}
}
// control.aeTargetFpsRange
Range<Integer> aeFpsRange = request.get(CONTROL_AE_TARGET_FPS_RANGE);
if (aeFpsRange != null) {
int[] legacyFps = convertAeFpsRangeToLegacy(aeFpsRange);
// TODO - Should we enforce that all HAL1 devices must include (30, 30) FPS range?
boolean supported = false;
for (int[] range : params.getSupportedPreviewFpsRange()) {
if (legacyFps[0] == range[0] && legacyFps[1] == range[1]) {
supported = true;
break;
}
}
if (supported) {
params.setPreviewFpsRange(
legacyFps[Camera.Parameters.PREVIEW_FPS_MIN_INDEX],
legacyFps[Camera.Parameters.PREVIEW_FPS_MAX_INDEX]);
} else {
Log.w(TAG, "Unsupported FPS range set [" + legacyFps[0] + "," + legacyFps[1] + "]");
}
}
/*
* control
*/
// control.aeExposureCompensation
{
Range<Integer> compensationRange =
characteristics.get(CameraCharacteristics.CONTROL_AE_COMPENSATION_RANGE);
int compensation =
ParamsUtils.getOrDefault(request, CONTROL_AE_EXPOSURE_COMPENSATION, /*defaultValue*/ 0);
if (!compensationRange.contains(compensation)) {
Log.w(
TAG,
"convertRequestMetadata - control.aeExposureCompensation "
+ "is out of range, ignoring value");
compensation = 0;
}
params.setExposureCompensation(compensation);
}
// control.aeLock
{
Boolean aeLock =
getIfSupported(
request,
CONTROL_AE_LOCK, /*defaultValue*/
false,
params.isAutoExposureLockSupported(),
/*allowedValue*/ false);
if (aeLock != null) {
params.setAutoExposureLock(aeLock);
}
if (VERBOSE) {
Log.v(TAG, "convertRequestToMetadata - control.aeLock set to " + aeLock);
}
// TODO: Don't add control.aeLock to availableRequestKeys if it's not supported
}
// control.aeMode, flash.mode
mapAeAndFlashMode(request, /*out*/ params);
// control.afMode
{
int afMode =
ParamsUtils.getOrDefault(request, CONTROL_AF_MODE, /*defaultValue*/ CONTROL_AF_MODE_OFF);
String focusMode =
LegacyMetadataMapper.convertAfModeToLegacy(afMode, params.getSupportedFocusModes());
if (focusMode != null) {
params.setFocusMode(focusMode);
}
if (VERBOSE) {
Log.v(
TAG, "convertRequestToMetadata - control.afMode " + afMode + " mapped to " + focusMode);
}
}
// control.awbMode
{
Integer awbMode =
getIfSupported(
request,
CONTROL_AWB_MODE,
/*defaultValue*/ CONTROL_AWB_MODE_AUTO,
params.getSupportedWhiteBalance() != null,
/*allowedValue*/ CONTROL_AWB_MODE_AUTO);
String whiteBalanceMode = null;
if (awbMode != null) { // null iff AWB is not supported by camera1 api
whiteBalanceMode = convertAwbModeToLegacy(awbMode);
params.setWhiteBalance(whiteBalanceMode);
}
if (VERBOSE) {
Log.v(
TAG,
"convertRequestToMetadata - control.awbMode "
+ awbMode
+ " mapped to "
+ whiteBalanceMode);
}
}
// control.awbLock
{
Boolean awbLock =
getIfSupported(
request,
CONTROL_AWB_LOCK, /*defaultValue*/
false,
params.isAutoWhiteBalanceLockSupported(),
/*allowedValue*/ false);
if (awbLock != null) {
params.setAutoWhiteBalanceLock(awbLock);
}
// TODO: Don't add control.awbLock to availableRequestKeys if it's not supported
}
// control.captureIntent
{
int captureIntent =
ParamsUtils.getOrDefault(
request, CONTROL_CAPTURE_INTENT, /*defaultValue*/ CONTROL_CAPTURE_INTENT_PREVIEW);
captureIntent = filterSupportedCaptureIntent(captureIntent);
params.setRecordingHint(
captureIntent == CONTROL_CAPTURE_INTENT_VIDEO_RECORD
|| captureIntent == CONTROL_CAPTURE_INTENT_VIDEO_SNAPSHOT);
}
// control.videoStabilizationMode
{
Integer stabMode =
getIfSupported(
request,
CONTROL_VIDEO_STABILIZATION_MODE,
/*defaultValue*/ CONTROL_VIDEO_STABILIZATION_MODE_OFF,
params.isVideoStabilizationSupported(),
/*allowedValue*/ CONTROL_VIDEO_STABILIZATION_MODE_OFF);
if (stabMode != null) {
params.setVideoStabilization(stabMode == CONTROL_VIDEO_STABILIZATION_MODE_ON);
}
}
// lens.focusDistance
{
boolean infinityFocusSupported =
ListUtils.listContains(params.getSupportedFocusModes(), Parameters.FOCUS_MODE_INFINITY);
Float focusDistance =
getIfSupported(
request,
LENS_FOCUS_DISTANCE,
/*defaultValue*/ 0f,
infinityFocusSupported, /*allowedValue*/
0f);
if (focusDistance == null || focusDistance != 0f) {
Log.w(
TAG,
"convertRequestToMetadata - Ignoring android.lens.focusDistance "
+ infinityFocusSupported
+ ", only 0.0f is supported");
}
}
// control.sceneMode, control.mode
{
// TODO: Map FACE_PRIORITY scene mode to face detection.
if (params.getSupportedSceneModes() != null) {
int controlMode =
ParamsUtils.getOrDefault(request, CONTROL_MODE, /*defaultValue*/ CONTROL_MODE_AUTO);
String modeToSet;
switch (controlMode) {
case CONTROL_MODE_USE_SCENE_MODE:
{
int sceneMode =
ParamsUtils.getOrDefault(
request, CONTROL_SCENE_MODE, /*defaultValue*/ CONTROL_SCENE_MODE_DISABLED);
String legacySceneMode = LegacyMetadataMapper.convertSceneModeToLegacy(sceneMode);
if (legacySceneMode != null) {
modeToSet = legacySceneMode;
} else {
modeToSet = Parameters.SCENE_MODE_AUTO;
Log.w(TAG, "Skipping unknown requested scene mode: " + sceneMode);
}
break;
}
case CONTROL_MODE_AUTO:
{
modeToSet = Parameters.SCENE_MODE_AUTO;
break;
}
default:
{
Log.w(TAG, "Control mode " + controlMode + " is unsupported, defaulting to AUTO");
modeToSet = Parameters.SCENE_MODE_AUTO;
}
}
params.setSceneMode(modeToSet);
}
}
// control.effectMode
{
if (params.getSupportedColorEffects() != null) {
int effectMode =
ParamsUtils.getOrDefault(
request, CONTROL_EFFECT_MODE, /*defaultValue*/ CONTROL_EFFECT_MODE_OFF);
String legacyEffectMode = LegacyMetadataMapper.convertEffectModeToLegacy(effectMode);
if (legacyEffectMode != null) {
params.setColorEffect(legacyEffectMode);
} else {
params.setColorEffect(Parameters.EFFECT_NONE);
Log.w(TAG, "Skipping unknown requested effect mode: " + effectMode);
}
}
}
/*
* sensor
*/
// sensor.testPattern
{
int testPatternMode =
ParamsUtils.getOrDefault(
request, SENSOR_TEST_PATTERN_MODE, /*defaultValue*/ SENSOR_TEST_PATTERN_MODE_OFF);
if (testPatternMode != SENSOR_TEST_PATTERN_MODE_OFF) {
Log.w(
TAG,
"convertRequestToMetadata - ignoring sensor.testPatternMode "
+ testPatternMode
+ "; only OFF is supported");
}
}
/*
* jpeg.*
*/
// jpeg.gpsLocation
{
Location location = request.get(JPEG_GPS_LOCATION);
if (location != null) {
if (checkForCompleteGpsData(location)) {
params.setGpsAltitude(location.getAltitude());
params.setGpsLatitude(location.getLatitude());
params.setGpsLongitude(location.getLongitude());
params.setGpsProcessingMethod(location.getProvider().toUpperCase());
params.setGpsTimestamp(location.getTime());
} else {
Log.w(TAG, "Incomplete GPS parameters provided in location " + location);
}
} else {
params.removeGpsData();
}
}
// jpeg.orientation
{
Integer orientation = request.get(CaptureRequest.JPEG_ORIENTATION);
params.setRotation(
ParamsUtils.getOrDefault(
request, JPEG_ORIENTATION, (orientation == null) ? 0 : orientation));
}
// jpeg.quality
{
params.setJpegQuality(
0xFF & ParamsUtils.getOrDefault(request, JPEG_QUALITY, DEFAULT_JPEG_QUALITY));
}
// jpeg.thumbnailQuality
{
params.setJpegThumbnailQuality(
0xFF & ParamsUtils.getOrDefault(request, JPEG_THUMBNAIL_QUALITY, DEFAULT_JPEG_QUALITY));
}
// jpeg.thumbnailSize
{
List<Camera.Size> sizes = params.getSupportedJpegThumbnailSizes();
if (sizes != null && sizes.size() > 0) {
Size s = request.get(JPEG_THUMBNAIL_SIZE);
boolean invalidSize =
(s == null) ? false : !ParameterUtils.containsSize(sizes, s.getWidth(), s.getHeight());
if (invalidSize) {
Log.w(TAG, "Invalid JPEG thumbnail size set " + s + ", skipping thumbnail...");
}
if (s == null || invalidSize) {
// (0,0) = "no thumbnail" in Camera API 1
params.setJpegThumbnailSize(/*width*/ 0, /*height*/ 0);
} else {
params.setJpegThumbnailSize(s.getWidth(), s.getHeight());
}
}
}
/*
* noiseReduction.*
*/
// noiseReduction.mode
{
int mode =
ParamsUtils.getOrDefault(
request, NOISE_REDUCTION_MODE, /*defaultValue*/ NOISE_REDUCTION_MODE_FAST);
if (mode != NOISE_REDUCTION_MODE_FAST) {
Log.w(
TAG,
"convertRequestToMetadata - Ignoring unsupported " + "noiseReduction.mode = " + mode);
}
}
}
// (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();
}
@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;
}
void setDesiredCameraParameters(Camera camera, boolean safeMode) {
Camera.Parameters parameters = camera.getParameters();
if (parameters == null) {
Log.w(
TAG,
"Device error: no camera parameters are available. Proceeding without configuration.");
return;
}
Log.i(TAG, "Initial camera parameters: " + parameters.flatten());
if (safeMode) {
Log.w(TAG, "In camera config safe mode -- most settings will not be honored");
}
SharedPreferences prefs = PreferenceManager.getDefaultSharedPreferences(context);
initializeTorch(parameters, prefs, safeMode);
String focusMode = null;
if (prefs.getBoolean(PreferencesActivity.KEY_AUTO_FOCUS, true)) {
if (safeMode || prefs.getBoolean(PreferencesActivity.KEY_DISABLE_CONTINUOUS_FOCUS, false)) {
focusMode =
findSettableValue(
parameters.getSupportedFocusModes(), Camera.Parameters.FOCUS_MODE_AUTO);
} else {
focusMode =
findSettableValue(
parameters.getSupportedFocusModes(),
Camera.Parameters.FOCUS_MODE_CONTINUOUS_PICTURE,
Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO,
Camera.Parameters.FOCUS_MODE_AUTO);
}
}
// Maybe selected auto-focus but not available, so fall through here:
if (!safeMode && focusMode == null) {
focusMode =
findSettableValue(
parameters.getSupportedFocusModes(),
Camera.Parameters.FOCUS_MODE_MACRO,
Camera.Parameters.FOCUS_MODE_EDOF);
}
if (focusMode != null) {
parameters.setFocusMode(focusMode);
}
if (prefs.getBoolean(PreferencesActivity.KEY_INVERT_SCAN, false)) {
String colorMode =
findSettableValue(
parameters.getSupportedColorEffects(), Camera.Parameters.EFFECT_NEGATIVE);
if (colorMode != null) {
parameters.setColorEffect(colorMode);
}
}
parameters.setPreviewSize(cameraResolution.x, cameraResolution.y);
camera.setParameters(parameters);
Camera.Parameters afterParameters = camera.getParameters();
Camera.Size afterSize = afterParameters.getPreviewSize();
if (afterSize != null
&& (cameraResolution.x != afterSize.width || cameraResolution.y != afterSize.height)) {
Log.w(
TAG,
"Camera said it supported preview size "
+ cameraResolution.x
+ 'x'
+ cameraResolution.y
+ ", but after setting it, preview size is "
+ afterSize.width
+ 'x'
+ afterSize.height);
cameraResolution.x = afterSize.width;
cameraResolution.y = afterSize.height;
}
}
/**
* This is called immediately after any structural changes (format or size) have been made to the
* surface. You should at this point update the imagery in the surface. This method is always
* called at least once, after surfaceCreated(SurfaceHolder).
*
* @param holder The surface holder
* @param format Format for the surface
* @param w The width
* @param h The height
*/
@Override
public void surfaceChanged(SurfaceHolder holder, int format, int w, int h) {
// Check if the preview is running, if it is stop the preview
if (mPreviewRunning) {
mCamera.stopPreview();
}
String sizePref = "";
sizePref = prefs.getString("resolution", "Not Present");
String prevSizePref = "";
prevSizePref = prefs.getString("previewresolution", "Not Present");
Camera.Parameters p = mCamera.getParameters();
// If no camera size is found in the shared preferences get the largest
// supported size and set the picture size to that size
if (sizePref.equals("Not Present")) {
List<Size> sizes = p.getSupportedPictureSizes();
Size s = sizes.get(0);
for (Size size : sizes) {
if (size.width > s.width) {
s = size;
}
}
p.setPictureSize(s.width, s.height);
} else {
// Set to the users specified camera size
String[] userResolution = sizePref.split(":");
p.setPictureSize(Integer.valueOf(userResolution[0]), Integer.valueOf(userResolution[1]));
}
// If no preview size is found in the shared preferences get the first
// supported size and set the preview size to that size
if (prevSizePref.equals("Not Present")) {
// Use the first supported preview size
List<Size> previewSizes = p.getSupportedPreviewSizes();
p.setPreviewSize(previewSizes.get(0).width, previewSizes.get(0).height);
} else {
// Set to the users specified preview size
String[] userResolution = prevSizePref.split(":");
p.setPreviewSize(Integer.valueOf(userResolution[0]), Integer.valueOf(userResolution[1]));
}
// Set the focus mode to infinity
List<String> focusModes = p.getSupportedFocusModes();
for (String str : focusModes) {
if (str.equalsIgnoreCase("infinity")) {
p.setFocusMode(str);
}
}
try {
// Set the camera parameters
mCamera.setParameters(p);
} catch (Exception e) {
Toast.makeText(ctx, "Error occurred while setting parameters...", Toast.LENGTH_SHORT).show();
}
try {
// Set the preview to the holder
mCamera.setPreviewDisplay(holder);
} catch (IOException e) {
e.printStackTrace();
}
// Start the preview
mCamera.startPreview();
mPreviewRunning = true;
}
/**
* 打印支持的聚焦模式
*
* @param params
*/
public void printSupportFocusMode(Camera.Parameters params) {
List<String> focusModes = params.getSupportedFocusModes();
for (String mode : focusModes) {
Log.i(TAG, "focusModes--" + mode);
}
}
@Override
protected Boolean doInBackground(Void... args) {
if (opened) return true;
try {
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.GINGERBREAD) {
// Choose the first back-facing camera
boolean cameraAvailable = false;
final CameraInfo cameraInfo = new CameraInfo();
int cameraId = 0;
while (!cameraAvailable && cameraId < Camera.getNumberOfCameras()) {
Camera.getCameraInfo(cameraId, cameraInfo);
if (cameraInfo.facing == CameraInfo.CAMERA_FACING_BACK) cameraAvailable = true;
else cameraId++;
}
if (!cameraAvailable) return false; // No back-facing camera available...
camera = Camera.open(cameraId);
cameraOrientation = cameraInfo.orientation;
} else {
camera = Camera.open();
cameraOrientation = 90; // TODO Is this correct?
}
if (camera == null) return false; // No camera available...
final Camera.Parameters params = camera.getParameters();
// Set the maximum resolution based on the maximum heap size
final int maxHeapSize =
((ActivityManager)
context.getApplicationContext().getSystemService(Context.ACTIVITY_SERVICE))
.getMemoryClass();
final int maxResolution =
Math.min(
5 * 1024 * 1024,
maxHeapSize
* 1024
* 1024
/ 4
/ 3); // Each image might take up to 33% of the maximum heap size and 5
// megapixels at most
// System.err.println("max heap size: " + maxHeapSize);
// System.err.println("max resolution: " + maxResolution);
// Choose the biggest possible picture size within the limits and the corresponding preview
// sizes with the same ratio
pictureSize = null;
previewSizes = new ArrayList<Size>();
final List<Size> supportedPictureSizes = params.getSupportedPictureSizes();
final List<Size> supportedPreviewSizes = params.getSupportedPreviewSizes();
Collections.sort(supportedPictureSizes, Collections.reverseOrder(sizeComparator));
for (Size supportedPictureSize : supportedPictureSizes) {
for (Size supportedPreviewSize : supportedPreviewSizes) {
if (supportedPictureSize.width * supportedPreviewSize.height
== supportedPictureSize.height * supportedPreviewSize.width
&& supportedPictureSize.width * supportedPictureSize.height <= maxResolution) {
pictureSize = supportedPictureSize;
previewSizes.add(supportedPreviewSize);
}
}
if (pictureSize != null) break;
}
// System.err.println("Selected resolution: " + pictureSize.width + "x" +
// pictureSize.height);
Collections.sort(previewSizes, Collections.reverseOrder(sizeComparator));
if (pictureSize
== null) { // No picture size ratio and preview size ratio match (shouldn't happen...)
releaseCamera();
return false;
}
// Set parameters
final List<String> supportedWhiteBalance = params.getSupportedWhiteBalance();
final List<String> supportedFlashModes = params.getSupportedFlashModes();
final List<String> supportedSceneModes = params.getSupportedSceneModes();
final List<String> supportedFocusModes = params.getSupportedFocusModes();
params.setPictureSize(pictureSize.width, pictureSize.height);
params.setPreviewSize(previewSizes.get(0).width, previewSizes.get(0).height);
if (supportedWhiteBalance != null
&& supportedWhiteBalance.contains(Camera.Parameters.WHITE_BALANCE_AUTO)) {
params.setWhiteBalance(Camera.Parameters.WHITE_BALANCE_AUTO);
}
if (supportedFlashModes != null
&& supportedFlashModes.contains(Camera.Parameters.FLASH_MODE_AUTO)) {
params.setFlashMode(Camera.Parameters.FLASH_MODE_AUTO);
}
if (supportedSceneModes != null
&& supportedSceneModes.contains(Camera.Parameters.SCENE_MODE_AUTO)) {
params.setSceneMode(Camera.Parameters.SCENE_MODE_AUTO);
}
// TODO Decide the preferred focus mode order
if (supportedFocusModes != null
&& supportedFocusModes.contains(Camera.Parameters.FOCUS_MODE_AUTO)) {
params.setFocusMode(Camera.Parameters.FOCUS_MODE_AUTO);
autofocus = true;
} else if (supportedFocusModes != null
&& supportedFocusModes.contains(Camera.Parameters.FOCUS_MODE_CONTINUOUS_PICTURE)) {
params.setFocusMode(Camera.Parameters.FOCUS_MODE_CONTINUOUS_PICTURE);
autofocus = true;
} else if (supportedFocusModes != null
&& supportedFocusModes.contains(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO)) {
params.setFocusMode(Camera.Parameters.FOCUS_MODE_CONTINUOUS_VIDEO);
autofocus = false;
} else {
autofocus = false;
}
camera.setParameters(params);
} catch (Exception e) {
releaseCamera();
return false; // Some error while opening the camera...
}
opened = true;
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;
}
/**
* 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;
}