android/camera/camera-capture-mac.m - emulator-unstable-refactoring - Git at Google

 /*
  * Copyright (C) 2011 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 /*
  * Contains code that is used to capture video frames from a camera device
  * on Mac. This code uses QTKit API to work with camera devices, and requires
  * Mac OS at least 10.5
  */

 #import <Cocoa/Cocoa.h>
 #if 0
 #import <QTKit/QTKit>
 #else
 // QTMovieModernizer.h does not compile with current toolchain.
 // TODO: revert this when toolchain is updated.
 #import <QTKit/QTCaptureConnection.h>
 #import <QTKit/QTCaptureDevice.h>
 #import <QTKit/QTCaptureDeviceInput.h>
 #import <QTKit/QTCaptureSession.h>
 #import <QTKit/QTCaptureVideoPreviewOutput.h>
 #import <QTKit/QTMedia.h>
 #import <QTKit/QTSampleBuffer.h>
 #endif
 #import <CoreAudio/CoreAudio.h>
 #include "android/camera/camera-capture.h"
 #include "android/camera/camera-format-converters.h"

 #define  E(...)    derror(__VA_ARGS__)
 #define  W(...)    dwarning(__VA_ARGS__)
 #define  D(...)    VERBOSE_PRINT(camera,__VA_ARGS__)

 /*******************************************************************************
  *                     Helper routines
  ******************************************************************************/

 /* Converts internal QT pixel format to a FOURCC value. */
 static uint32_t
 _QTtoFOURCC(uint32_t qt_pix_format)
 {
   switch (qt_pix_format) {
     case kCVPixelFormatType_24RGB:
       return V4L2_PIX_FMT_RGB24;

     case kCVPixelFormatType_24BGR:
       return V4L2_PIX_FMT_BGR32;

     case kCVPixelFormatType_32ARGB:
     case kCVPixelFormatType_32RGBA:
       return V4L2_PIX_FMT_RGB32;

     case kCVPixelFormatType_32BGRA:
     case kCVPixelFormatType_32ABGR:
       return V4L2_PIX_FMT_BGR32;

     case kCVPixelFormatType_422YpCbCr8:
       return V4L2_PIX_FMT_UYVY;

     case kCVPixelFormatType_420YpCbCr8Planar:
       return V4L2_PIX_FMT_YVU420;

     case 'yuvs':  // kCVPixelFormatType_422YpCbCr8_yuvs - undeclared?
       return V4L2_PIX_FMT_YUYV;

     default:
       E("Unrecognized pixel format '%.4s'", (const char*)&qt_pix_format);
       return 0;
   }
 }

 /*******************************************************************************
  *                     MacCamera implementation
  ******************************************************************************/

 /* Encapsulates a camera device on MacOS */
 @interface MacCamera : NSObject {
     /* Capture session. */
     QTCaptureSession*             capture_session;
     /* Camera capture device. */
     QTCaptureDevice*              capture_device;
     /* Input device registered with the capture session. */
     QTCaptureDeviceInput*         input_device;
     /* Output device registered with the capture session. */
     QTCaptureVideoPreviewOutput*  output_device;
     /* Current framebuffer. */
     CVImageBufferRef              current_frame;
     /* Desired frame width */
     int                           desired_width;
     /* Desired frame height */
     int                           desired_height;
 }

 /* Initializes MacCamera instance.
  * Return:
  *  Pointer to initialized instance on success, or nil on failure.
  */
 - (MacCamera*)init;

 /* Undoes 'init' */
 - (void)free;

 /* Starts capturing video frames.
  * Param:
  *  width, height - Requested dimensions for the captured video frames.
  * Return:
  *  0 on success, or !=0 on failure.
  */
 - (int)start_capturing:(int)width:(int)height;

 /* Captures a frame from the camera device.
  * Param:
  *  framebuffers - Array of framebuffers where to read the frame. Size of this
  *      array is defined by the 'fbs_num' parameter. Note that the caller must
  *      make sure that buffers are large enough to contain entire frame captured
  *      from the device.
  *  fbs_num - Number of entries in the 'framebuffers' array.
  * Return:
  *  0 on success, or non-zero value on failure. There is a special vaule 1
  *  returned from this routine which indicates that frames are not yet available
  *  in the device. The client should respond to this value by repeating the
  *  read, rather than reporting an error.
  */
 - (int)read_frame:(ClientFrameBuffer*)framebuffers:(int)fbs_num:(float)r_scale:(float)g_scale:(float)b_scale:(float)exp_comp;

 @end

 @implementation MacCamera

 - (MacCamera*)init
 {
     NSError *error;
     BOOL success;

     /* Obtain the capture device, make sure it's not used by another
      * application, and open it. */
     capture_device =
         [QTCaptureDevice defaultInputDeviceWithMediaType:QTMediaTypeVideo];
     if (capture_device == nil) {
         E("There are no available video devices found.");
         [self release];
         return nil;
     }
     if ([capture_device isInUseByAnotherApplication]) {
         E("Default camera device is in use by another application.");
         [capture_device release];
         capture_device = nil;
         [self release];
         return nil;
     }
     success = [capture_device open:&error];
     if (!success) {
         E("Unable to open camera device: '%s'",
           [[error localizedDescription] UTF8String]);
         [self free];
         [self release];
         return nil;
     }

     /* Create capture session. */
     capture_session = [[QTCaptureSession alloc] init];
     if (capture_session == nil) {
         E("Unable to create capure session.");
         [self free];
         [self release];
         return nil;
     }

     /* Create an input device and register it with the capture session. */
     input_device = [[QTCaptureDeviceInput alloc] initWithDevice:capture_device];
     success = [capture_session addInput:input_device error:&error];
     if (!success) {
         E("Unable to initialize input device: '%s'",
           [[error localizedDescription] UTF8String]);
         [input_device release];
         input_device = nil;
         [self free];
         [self release];
         return nil;
     }

     /* Create an output device and register it with the capture session. */
     output_device = [[QTCaptureVideoPreviewOutput alloc] init];
     success = [capture_session addOutput:output_device error:&error];
     if (!success) {
         E("Unable to initialize output device: '%s'",
           [[error localizedDescription] UTF8String]);
         [output_device release];
         output_device = nil;
         [self free];
         [self release];
         return nil;
     }
     [output_device setDelegate:self];

     return self;
 }

 - (void)free
 {
     /* Uninitialize capture session. */
     if (capture_session != nil) {
         /* Make sure that capturing is stopped. */
         if ([capture_session isRunning]) {
             [capture_session stopRunning];
         }
         /* Detach input and output devices from the session. */
         if (input_device != nil) {
             [capture_session removeInput:input_device];
             [input_device release];
             input_device = nil;
         }
         if (output_device != nil) {
             [capture_session removeOutput:output_device];
             [output_device release];
             output_device = nil;
         }
         /* Destroy capture session. */
         [capture_session release];
         capture_session = nil;
     }

     /* Uninitialize capture device. */
     if (capture_device != nil) {
         /* Make sure device is not opened. */
         if ([capture_device isOpen]) {
             [capture_device close];
         }
         [capture_device release];
         capture_device = nil;
     }

     /* Release current framebuffer. */
     if (current_frame != nil) {
        CVBufferRelease(current_frame);
        current_frame = nil;
     }
 }

 - (int)start_capturing:(int)width:(int)height
 {
   if (![capture_session isRunning]) {
         /* Set desired frame dimensions. */
         desired_width = width;
         desired_height = height;
         [output_device setPixelBufferAttributes:
           [NSDictionary dictionaryWithObjectsAndKeys:
               [NSNumber numberWithInt: width], kCVPixelBufferWidthKey,
               [NSNumber numberWithInt: height], kCVPixelBufferHeightKey,
               nil]];
         [capture_session startRunning];
         return 0;
   } else if (width == desired_width && height == desired_height) {
       W("%s: Already capturing %dx%d frames",
         __FUNCTION__, desired_width, desired_height);
       return -1;
   } else {
       E("%s: Already capturing %dx%d frames. Requested frame dimensions are %dx%d",
         __FUNCTION__, desired_width, desired_height, width, height);
       return -1;
   }
 }

 - (int)read_frame:(ClientFrameBuffer*)framebuffers:(int)fbs_num:(float)r_scale:(float)g_scale:(float)b_scale:(float)exp_comp
 {
     int res = -1;

     /* Frames are pushed by QT in another thread.
      * So we need a protection here. */
     @synchronized (self)
     {
         if (current_frame != nil) {
             /* Collect frame info. */
             const uint32_t pixel_format =
                 _QTtoFOURCC(CVPixelBufferGetPixelFormatType(current_frame));
             const int frame_width = CVPixelBufferGetWidth(current_frame);
             const int frame_height = CVPixelBufferGetHeight(current_frame);
             const size_t frame_size =
                 CVPixelBufferGetBytesPerRow(current_frame) * frame_height;

             /* Get framebuffer pointer. */
             CVPixelBufferLockBaseAddress(current_frame, 0);
             const void* pixels = CVPixelBufferGetBaseAddress(current_frame);
             if (pixels != nil) {
                 /* Convert framebuffer. */
                 res = convert_frame(pixels, pixel_format, frame_size,
                                     frame_width, frame_height,
                                     framebuffers, fbs_num,
                                     r_scale, g_scale, b_scale, exp_comp);
             } else {
                 E("%s: Unable to obtain framebuffer", __FUNCTION__);
                 res = -1;
             }
             CVPixelBufferUnlockBaseAddress(current_frame, 0);
         } else {
             /* First frame didn't come in just yet. Let the caller repeat. */
             res = 1;
         }
     }

     return res;
 }

 - (void)captureOutput:(QTCaptureOutput*) captureOutput
                       didOutputVideoFrame:(CVImageBufferRef)videoFrame
                       withSampleBuffer:(QTSampleBuffer*) sampleBuffer
                       fromConnection:(QTCaptureConnection*) connection
 {
     CVImageBufferRef to_release;
     CVBufferRetain(videoFrame);

     /* Frames are pulled by the client in another thread.
      * So we need a protection here. */
     @synchronized (self)
     {
         to_release = current_frame;
         current_frame = videoFrame;
     }
     CVBufferRelease(to_release);
 }

 @end

 /*******************************************************************************
  *                     CameraDevice routines
  ******************************************************************************/

 typedef struct MacCameraDevice MacCameraDevice;
 /* MacOS-specific camera device descriptor. */
 struct MacCameraDevice {
     /* Common camera device descriptor. */
     CameraDevice  header;
     /* Actual camera device object. */
     MacCamera*    device;
 };

 /* Allocates an instance of MacCameraDevice structure.
  * Return:
  *  Allocated instance of MacCameraDevice structure. Note that this routine
  *  also sets 'opaque' field in the 'header' structure to point back to the
  *  containing MacCameraDevice instance.
  */
 static MacCameraDevice*
 _camera_device_alloc(void)
 {
     MacCameraDevice* cd = (MacCameraDevice*)malloc(sizeof(MacCameraDevice));
     if (cd != NULL) {
         memset(cd, 0, sizeof(MacCameraDevice));
         cd->header.opaque = cd;
     } else {
         E("%s: Unable to allocate MacCameraDevice instance", __FUNCTION__);
     }
     return cd;
 }

 /* Uninitializes and frees MacCameraDevice descriptor.
  * Note that upon return from this routine memory allocated for the descriptor
  * will be freed.
  */
 static void
 _camera_device_free(MacCameraDevice* cd)
 {
     if (cd != NULL) {
         if (cd->device != NULL) {
             [cd->device free];
             [cd->device release];
             cd->device = nil;
         }
         AFREE(cd);
     } else {
         W("%s: No descriptor", __FUNCTION__);
     }
 }

 /* Resets camera device after capturing.
  * Since new capture request may require different frame dimensions we must
  * reset frame info cached in the capture window. The only way to do that would
  * be closing, and reopening it again. */
 static void
 _camera_device_reset(MacCameraDevice* cd)
 {
     if (cd != NULL && cd->device) {
         [cd->device free];
         cd->device = [cd->device init];
     }
 }

 /*******************************************************************************
  *                     CameraDevice API
  ******************************************************************************/

 CameraDevice*
 camera_device_open(const char* name, int inp_channel)
 {
     MacCameraDevice* mcd;

     mcd = _camera_device_alloc();
     if (mcd == NULL) {
         E("%s: Unable to allocate MacCameraDevice instance", __FUNCTION__);
         return NULL;
     }
     mcd->device = [[MacCamera alloc] init];
     if (mcd->device == nil) {
         E("%s: Unable to initialize camera device.", __FUNCTION__);
         return NULL;
     }
     return &mcd->header;
 }

 int
 camera_device_start_capturing(CameraDevice* cd,
                               uint32_t pixel_format,
                               int frame_width,
                               int frame_height)
 {
     MacCameraDevice* mcd;

     /* Sanity checks. */
     if (cd == NULL || cd->opaque == NULL) {
         E("%s: Invalid camera device descriptor", __FUNCTION__);
         return -1;
     }
     mcd = (MacCameraDevice*)cd->opaque;
     if (mcd->device == nil) {
         E("%s: Camera device is not opened", __FUNCTION__);
         return -1;
     }

     return [mcd->device start_capturing:frame_width:frame_height];
 }

 int
 camera_device_stop_capturing(CameraDevice* cd)
 {
     MacCameraDevice* mcd;

     /* Sanity checks. */
     if (cd == NULL || cd->opaque == NULL) {
         E("%s: Invalid camera device descriptor", __FUNCTION__);
         return -1;
     }
     mcd = (MacCameraDevice*)cd->opaque;
     if (mcd->device == nil) {
         E("%s: Camera device is not opened", __FUNCTION__);
         return -1;
     }

     /* Reset capture settings, so next call to capture can set its own. */
     _camera_device_reset(mcd);

     return 0;
 }

 int
 camera_device_read_frame(CameraDevice* cd,
                          ClientFrameBuffer* framebuffers,
                          int fbs_num,
                          float r_scale,
                          float g_scale,
                          float b_scale,
                          float exp_comp)
 {
     MacCameraDevice* mcd;

     /* Sanity checks. */
     if (cd == NULL || cd->opaque == NULL) {
         E("%s: Invalid camera device descriptor", __FUNCTION__);
         return -1;
     }
     mcd = (MacCameraDevice*)cd->opaque;
     if (mcd->device == nil) {
         E("%s: Camera device is not opened", __FUNCTION__);
         return -1;
     }

     return [mcd->device read_frame:framebuffers:fbs_num:r_scale:g_scale:b_scale:exp_comp];
 }

 void
 camera_device_close(CameraDevice* cd)
 {
     /* Sanity checks. */
     if (cd == NULL || cd->opaque == NULL) {
         E("%s: Invalid camera device descriptor", __FUNCTION__);
     } else {
         _camera_device_free((MacCameraDevice*)cd->opaque);
     }
 }

 int
 enumerate_camera_devices(CameraInfo* cis, int max)
 {
 /* Array containing emulated webcam frame dimensions.
  * QT API provides device independent frame dimensions, by scaling frames
  * received from the device to whatever dimensions were requested for the
  * output device. So, we can just use a small set of frame dimensions to
  * emulate.
  */
 static const CameraFrameDim _emulate_dims[] =
 {
   /* Emulates 640x480 frame. */
   {640, 480},
   /* Emulates 352x288 frame (required by camera framework). */
   {352, 288},
   /* Emulates 320x240 frame (required by camera framework). */
   {320, 240},
   /* Emulates 176x144 frame (required by camera framework). */
   {176, 144}
 };

     /* Obtain default video device. QT API doesn't really provide a reliable
      * way to identify camera devices. There is a QTCaptureDevice::uniqueId
      * method that supposedly does that, but in some cases it just doesn't
      * work. Until we figure out a reliable device identification, we will
      * stick to using only one (default) camera for emulation. */
     QTCaptureDevice* video_dev =
         [QTCaptureDevice defaultInputDeviceWithMediaType:QTMediaTypeVideo];
     if (video_dev == nil) {
         D("No web cameras are connected to the host.");
         return 0;
     }

     /* Obtain pixel format for the device. */
     NSArray* pix_formats = [video_dev formatDescriptions];
     if (pix_formats == nil || [pix_formats count] == 0) {
         E("Unable to obtain pixel format for the default camera device.");
         [video_dev release];
         return 0;
     }
     const uint32_t qt_pix_format = [[pix_formats objectAtIndex:0] formatType];
     [pix_formats release];

     /* Obtain FOURCC pixel format for the device. */
     cis[0].pixel_format = _QTtoFOURCC(qt_pix_format);
     if (cis[0].pixel_format == 0) {
         /* Unsupported pixel format. */
         E("Pixel format '%.4s' reported by the camera device is unsupported",
           (const char*)&qt_pix_format);
         [video_dev release];
         return 0;
     }

     /* Initialize camera info structure. */
     cis[0].frame_sizes = (CameraFrameDim*)malloc(sizeof(_emulate_dims));
     if (cis[0].frame_sizes != NULL) {
         cis[0].frame_sizes_num = sizeof(_emulate_dims) / sizeof(*_emulate_dims);
         memcpy(cis[0].frame_sizes, _emulate_dims, sizeof(_emulate_dims));
         cis[0].device_name = ASTRDUP("webcam0");
         cis[0].inp_channel = 0;
         cis[0].display_name = ASTRDUP("webcam0");
         cis[0].in_use = 0;
         [video_dev release];
         return 1;
     } else {
         E("Unable to allocate memory for camera information.");
         [video_dev release];
         return 0;
     }
 }
	/*
	* Copyright (C) 2011 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	/*
	* Contains code that is used to capture video frames from a camera device
	* on Mac. This code uses QTKit API to work with camera devices, and requires
	* Mac OS at least 10.5
	*/

	#import <Cocoa/Cocoa.h>
	#if 0
	#import <QTKit/QTKit>
	#else
	// QTMovieModernizer.h does not compile with current toolchain.
	// TODO: revert this when toolchain is updated.
	#import <QTKit/QTCaptureConnection.h>
	#import <QTKit/QTCaptureDevice.h>
	#import <QTKit/QTCaptureDeviceInput.h>
	#import <QTKit/QTCaptureSession.h>
	#import <QTKit/QTCaptureVideoPreviewOutput.h>
	#import <QTKit/QTMedia.h>
	#import <QTKit/QTSampleBuffer.h>
	#endif
	#import <CoreAudio/CoreAudio.h>
	#include "android/camera/camera-capture.h"
	#include "android/camera/camera-format-converters.h"

	#define E(...) derror(__VA_ARGS__)
	#define W(...) dwarning(__VA_ARGS__)
	#define D(...) VERBOSE_PRINT(camera,__VA_ARGS__)

	/*******************************************************************************
	* Helper routines
	******************************************************************************/

	/* Converts internal QT pixel format to a FOURCC value. */
	static uint32_t
	_QTtoFOURCC(uint32_t qt_pix_format)
	{
	switch (qt_pix_format) {
	case kCVPixelFormatType_24RGB:
	return V4L2_PIX_FMT_RGB24;

	case kCVPixelFormatType_24BGR:
	return V4L2_PIX_FMT_BGR32;

	case kCVPixelFormatType_32ARGB:
	case kCVPixelFormatType_32RGBA:
	return V4L2_PIX_FMT_RGB32;

	case kCVPixelFormatType_32BGRA:
	case kCVPixelFormatType_32ABGR:
	return V4L2_PIX_FMT_BGR32;

	case kCVPixelFormatType_422YpCbCr8:
	return V4L2_PIX_FMT_UYVY;

	case kCVPixelFormatType_420YpCbCr8Planar:
	return V4L2_PIX_FMT_YVU420;

	case 'yuvs': // kCVPixelFormatType_422YpCbCr8_yuvs - undeclared?
	return V4L2_PIX_FMT_YUYV;

	default:
	E("Unrecognized pixel format '%.4s'", (const char*)&qt_pix_format);
	return 0;
	}
	}

	/*******************************************************************************
	* MacCamera implementation
	******************************************************************************/

	/* Encapsulates a camera device on MacOS */
	@interface MacCamera : NSObject {
	/* Capture session. */
	QTCaptureSession* capture_session;
	/* Camera capture device. */
	QTCaptureDevice* capture_device;
	/* Input device registered with the capture session. */
	QTCaptureDeviceInput* input_device;
	/* Output device registered with the capture session. */
	QTCaptureVideoPreviewOutput* output_device;
	/* Current framebuffer. */
	CVImageBufferRef current_frame;
	/* Desired frame width */
	int desired_width;
	/* Desired frame height */
	int desired_height;
	}

	/* Initializes MacCamera instance.
	* Return:
	* Pointer to initialized instance on success, or nil on failure.
	*/
	- (MacCamera*)init;

	/* Undoes 'init' */
	- (void)free;

	/* Starts capturing video frames.
	* Param:
	* width, height - Requested dimensions for the captured video frames.
	* Return:
	* 0 on success, or !=0 on failure.
	*/
	- (int)start_capturing:(int)width:(int)height;

	/* Captures a frame from the camera device.
	* Param:
	* framebuffers - Array of framebuffers where to read the frame. Size of this
	* array is defined by the 'fbs_num' parameter. Note that the caller must
	* make sure that buffers are large enough to contain entire frame captured
	* from the device.
	* fbs_num - Number of entries in the 'framebuffers' array.
	* Return:
	* 0 on success, or non-zero value on failure. There is a special vaule 1
	* returned from this routine which indicates that frames are not yet available
	* in the device. The client should respond to this value by repeating the
	* read, rather than reporting an error.
	*/
	- (int)read_frame:(ClientFrameBuffer*)framebuffers:(int)fbs_num:(float)r_scale:(float)g_scale:(float)b_scale:(float)exp_comp;

	@end

	@implementation MacCamera

	- (MacCamera*)init
	{
	NSError *error;
	BOOL success;

	/* Obtain the capture device, make sure it's not used by another
	* application, and open it. */
	capture_device =
	[QTCaptureDevice defaultInputDeviceWithMediaType:QTMediaTypeVideo];
	if (capture_device == nil) {
	E("There are no available video devices found.");
	[self release];
	return nil;
	}
	if ([capture_device isInUseByAnotherApplication]) {
	E("Default camera device is in use by another application.");
	[capture_device release];
	capture_device = nil;
	[self release];
	return nil;
	}
	success = [capture_device open:&error];
	if (!success) {
	E("Unable to open camera device: '%s'",
	[[error localizedDescription] UTF8String]);
	[self free];
	[self release];
	return nil;
	}

	/* Create capture session. */
	capture_session = [[QTCaptureSession alloc] init];
	if (capture_session == nil) {
	E("Unable to create capure session.");
	[self free];
	[self release];
	return nil;
	}

	/* Create an input device and register it with the capture session. */
	input_device = [[QTCaptureDeviceInput alloc] initWithDevice:capture_device];
	success = [capture_session addInput:input_device error:&error];
	if (!success) {
	E("Unable to initialize input device: '%s'",
	[[error localizedDescription] UTF8String]);
	[input_device release];
	input_device = nil;
	[self free];
	[self release];
	return nil;
	}

	/* Create an output device and register it with the capture session. */
	output_device = [[QTCaptureVideoPreviewOutput alloc] init];
	success = [capture_session addOutput:output_device error:&error];
	if (!success) {
	E("Unable to initialize output device: '%s'",
	[[error localizedDescription] UTF8String]);
	[output_device release];
	output_device = nil;
	[self free];
	[self release];
	return nil;
	}
	[output_device setDelegate:self];

	return self;
	}

	- (void)free
	{
	/* Uninitialize capture session. */
	if (capture_session != nil) {
	/* Make sure that capturing is stopped. */
	if ([capture_session isRunning]) {
	[capture_session stopRunning];
	}
	/* Detach input and output devices from the session. */
	if (input_device != nil) {
	[capture_session removeInput:input_device];
	[input_device release];
	input_device = nil;
	}
	if (output_device != nil) {
	[capture_session removeOutput:output_device];
	[output_device release];
	output_device = nil;
	}
	/* Destroy capture session. */
	[capture_session release];
	capture_session = nil;
	}

	/* Uninitialize capture device. */
	if (capture_device != nil) {
	/* Make sure device is not opened. */
	if ([capture_device isOpen]) {
	[capture_device close];
	}
	[capture_device release];
	capture_device = nil;
	}

	/* Release current framebuffer. */
	if (current_frame != nil) {
	CVBufferRelease(current_frame);
	current_frame = nil;
	}
	}

	- (int)start_capturing:(int)width:(int)height
	{
	if (![capture_session isRunning]) {
	/* Set desired frame dimensions. */
	desired_width = width;
	desired_height = height;
	[output_device setPixelBufferAttributes:
	[NSDictionary dictionaryWithObjectsAndKeys:
	[NSNumber numberWithInt: width], kCVPixelBufferWidthKey,
	[NSNumber numberWithInt: height], kCVPixelBufferHeightKey,
	nil]];
	[capture_session startRunning];
	return 0;
	} else if (width == desired_width && height == desired_height) {
	W("%s: Already capturing %dx%d frames",
	__FUNCTION__, desired_width, desired_height);
	return -1;
	} else {
	E("%s: Already capturing %dx%d frames. Requested frame dimensions are %dx%d",
	__FUNCTION__, desired_width, desired_height, width, height);
	return -1;
	}
	}

	- (int)read_frame:(ClientFrameBuffer*)framebuffers:(int)fbs_num:(float)r_scale:(float)g_scale:(float)b_scale:(float)exp_comp
	{
	int res = -1;

	/* Frames are pushed by QT in another thread.
	* So we need a protection here. */
	@synchronized (self)
	{
	if (current_frame != nil) {
	/* Collect frame info. */
	const uint32_t pixel_format =
	_QTtoFOURCC(CVPixelBufferGetPixelFormatType(current_frame));
	const int frame_width = CVPixelBufferGetWidth(current_frame);
	const int frame_height = CVPixelBufferGetHeight(current_frame);
	const size_t frame_size =
	CVPixelBufferGetBytesPerRow(current_frame) * frame_height;

	/* Get framebuffer pointer. */
	CVPixelBufferLockBaseAddress(current_frame, 0);
	const void* pixels = CVPixelBufferGetBaseAddress(current_frame);
	if (pixels != nil) {
	/* Convert framebuffer. */
	res = convert_frame(pixels, pixel_format, frame_size,
	frame_width, frame_height,
	framebuffers, fbs_num,
	r_scale, g_scale, b_scale, exp_comp);
	} else {
	E("%s: Unable to obtain framebuffer", __FUNCTION__);
	res = -1;
	}
	CVPixelBufferUnlockBaseAddress(current_frame, 0);
	} else {
	/* First frame didn't come in just yet. Let the caller repeat. */
	res = 1;
	}
	}

	return res;
	}

	- (void)captureOutput:(QTCaptureOutput*) captureOutput
	didOutputVideoFrame:(CVImageBufferRef)videoFrame
	withSampleBuffer:(QTSampleBuffer*) sampleBuffer
	fromConnection:(QTCaptureConnection*) connection
	{
	CVImageBufferRef to_release;
	CVBufferRetain(videoFrame);

	/* Frames are pulled by the client in another thread.
	* So we need a protection here. */
	@synchronized (self)
	{
	to_release = current_frame;
	current_frame = videoFrame;
	}
	CVBufferRelease(to_release);
	}

	@end

	/*******************************************************************************
	* CameraDevice routines
	******************************************************************************/

	typedef struct MacCameraDevice MacCameraDevice;
	/* MacOS-specific camera device descriptor. */
	struct MacCameraDevice {
	/* Common camera device descriptor. */
	CameraDevice header;
	/* Actual camera device object. */
	MacCamera* device;
	};

	/* Allocates an instance of MacCameraDevice structure.
	* Return:
	* Allocated instance of MacCameraDevice structure. Note that this routine
	* also sets 'opaque' field in the 'header' structure to point back to the
	* containing MacCameraDevice instance.
	*/
	static MacCameraDevice*
	_camera_device_alloc(void)
	{
	MacCameraDevice* cd = (MacCameraDevice*)malloc(sizeof(MacCameraDevice));
	if (cd != NULL) {
	memset(cd, 0, sizeof(MacCameraDevice));
	cd->header.opaque = cd;
	} else {
	E("%s: Unable to allocate MacCameraDevice instance", __FUNCTION__);
	}
	return cd;
	}

	/* Uninitializes and frees MacCameraDevice descriptor.
	* Note that upon return from this routine memory allocated for the descriptor
	* will be freed.
	*/
	static void
	_camera_device_free(MacCameraDevice* cd)
	{
	if (cd != NULL) {
	if (cd->device != NULL) {
	[cd->device free];
	[cd->device release];
	cd->device = nil;
	}
	AFREE(cd);
	} else {
	W("%s: No descriptor", __FUNCTION__);
	}
	}

	/* Resets camera device after capturing.
	* Since new capture request may require different frame dimensions we must
	* reset frame info cached in the capture window. The only way to do that would
	* be closing, and reopening it again. */
	static void
	_camera_device_reset(MacCameraDevice* cd)
	{
	if (cd != NULL && cd->device) {
	[cd->device free];
	cd->device = [cd->device init];
	}
	}

	/*******************************************************************************
	* CameraDevice API
	******************************************************************************/

	CameraDevice*
	camera_device_open(const char* name, int inp_channel)
	{
	MacCameraDevice* mcd;

	mcd = _camera_device_alloc();
	if (mcd == NULL) {
	E("%s: Unable to allocate MacCameraDevice instance", __FUNCTION__);
	return NULL;
	}
	mcd->device = [[MacCamera alloc] init];
	if (mcd->device == nil) {
	E("%s: Unable to initialize camera device.", __FUNCTION__);
	return NULL;
	}
	return &mcd->header;
	}

	int
	camera_device_start_capturing(CameraDevice* cd,
	uint32_t pixel_format,
	int frame_width,
	int frame_height)
	{
	MacCameraDevice* mcd;

	/* Sanity checks. */
	if (cd == NULL \|\| cd->opaque == NULL) {
	E("%s: Invalid camera device descriptor", __FUNCTION__);
	return -1;
	}
	mcd = (MacCameraDevice*)cd->opaque;
	if (mcd->device == nil) {
	E("%s: Camera device is not opened", __FUNCTION__);
	return -1;
	}

	return [mcd->device start_capturing:frame_width:frame_height];
	}

	int
	camera_device_stop_capturing(CameraDevice* cd)
	{
	MacCameraDevice* mcd;

	/* Sanity checks. */
	if (cd == NULL \|\| cd->opaque == NULL) {
	E("%s: Invalid camera device descriptor", __FUNCTION__);
	return -1;
	}
	mcd = (MacCameraDevice*)cd->opaque;
	if (mcd->device == nil) {
	E("%s: Camera device is not opened", __FUNCTION__);
	return -1;
	}

	/* Reset capture settings, so next call to capture can set its own. */
	_camera_device_reset(mcd);

	return 0;
	}

	int
	camera_device_read_frame(CameraDevice* cd,
	ClientFrameBuffer* framebuffers,
	int fbs_num,
	float r_scale,
	float g_scale,
	float b_scale,
	float exp_comp)
	{
	MacCameraDevice* mcd;

	/* Sanity checks. */
	if (cd == NULL \|\| cd->opaque == NULL) {
	E("%s: Invalid camera device descriptor", __FUNCTION__);
	return -1;
	}
	mcd = (MacCameraDevice*)cd->opaque;
	if (mcd->device == nil) {
	E("%s: Camera device is not opened", __FUNCTION__);
	return -1;
	}

	return [mcd->device read_frame:framebuffers:fbs_num:r_scale:g_scale:b_scale:exp_comp];
	}

	void
	camera_device_close(CameraDevice* cd)
	{
	/* Sanity checks. */
	if (cd == NULL \|\| cd->opaque == NULL) {
	E("%s: Invalid camera device descriptor", __FUNCTION__);
	} else {
	_camera_device_free((MacCameraDevice*)cd->opaque);
	}
	}

	int
	enumerate_camera_devices(CameraInfo* cis, int max)
	{
	/* Array containing emulated webcam frame dimensions.
	* QT API provides device independent frame dimensions, by scaling frames
	* received from the device to whatever dimensions were requested for the
	* output device. So, we can just use a small set of frame dimensions to
	* emulate.
	*/
	static const CameraFrameDim _emulate_dims[] =
	{
	/* Emulates 640x480 frame. */
	{640, 480},
	/* Emulates 352x288 frame (required by camera framework). */
	{352, 288},
	/* Emulates 320x240 frame (required by camera framework). */
	{320, 240},
	/* Emulates 176x144 frame (required by camera framework). */
	{176, 144}
	};

	/* Obtain default video device. QT API doesn't really provide a reliable
	* way to identify camera devices. There is a QTCaptureDevice::uniqueId
	* method that supposedly does that, but in some cases it just doesn't
	* work. Until we figure out a reliable device identification, we will
	* stick to using only one (default) camera for emulation. */
	QTCaptureDevice* video_dev =
	[QTCaptureDevice defaultInputDeviceWithMediaType:QTMediaTypeVideo];
	if (video_dev == nil) {
	D("No web cameras are connected to the host.");
	return 0;
	}

	/* Obtain pixel format for the device. */
	NSArray* pix_formats = [video_dev formatDescriptions];
	if (pix_formats == nil \|\| [pix_formats count] == 0) {
	E("Unable to obtain pixel format for the default camera device.");
	[video_dev release];
	return 0;
	}
	const uint32_t qt_pix_format = [[pix_formats objectAtIndex:0] formatType];
	[pix_formats release];

	/* Obtain FOURCC pixel format for the device. */
	cis[0].pixel_format = _QTtoFOURCC(qt_pix_format);
	if (cis[0].pixel_format == 0) {
	/* Unsupported pixel format. */
	E("Pixel format '%.4s' reported by the camera device is unsupported",
	(const char*)&qt_pix_format);
	[video_dev release];
	return 0;
	}

	/* Initialize camera info structure. */
	cis[0].frame_sizes = (CameraFrameDim*)malloc(sizeof(_emulate_dims));
	if (cis[0].frame_sizes != NULL) {
	cis[0].frame_sizes_num = sizeof(_emulate_dims) / sizeof(*_emulate_dims);
	memcpy(cis[0].frame_sizes, _emulate_dims, sizeof(_emulate_dims));
	cis[0].device_name = ASTRDUP("webcam0");
	cis[0].inp_channel = 0;
	cis[0].display_name = ASTRDUP("webcam0");
	cis[0].in_use = 0;
	[video_dev release];
	return 1;
	} else {
	E("Unable to allocate memory for camera information.");
	[video_dev release];
	return 0;
	}
	}