camera/inc/Encoder_libjpeg.h - platform/hardware/ti/omap4xxx - Git at Google

 /*
  * Copyright (C) Texas Instruments - http://www.ti.com/
  *
  * 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.
  */

 /**
 * @file Encoder_libjpeg.h
 *
 * This defines API for camerahal to encode YUV using libjpeg
 *
 */

 #ifndef ANDROID_CAMERA_HARDWARE_ENCODER_LIBJPEG_H
 #define ANDROID_CAMERA_HARDWARE_ENCODER_LIBJPEG_H

 #include <utils/threads.h>
 #include <utils/RefBase.h>

 extern "C" {
 #include "jhead.h"
 }

 #define CANCEL_TIMEOUT 3000000 // 3 seconds

 namespace android {
 /**
  * libjpeg encoder class - uses libjpeg to encode yuv
  */

 #define MAX_EXIF_TAGS_SUPPORTED 30
 typedef void (*encoder_libjpeg_callback_t) (void* main_jpeg,
                                             void* thumb_jpeg,
                                             CameraFrame::FrameType type,
                                             void* cookie1,
                                             void* cookie2,
                                             void* cookie3,
                                             bool canceled);

 // these have to match strings defined in external/jhead/exif.c
 static const char TAG_MODEL[] = "Model";
 static const char TAG_MAKE[] = "Make";
 static const char TAG_FOCALLENGTH[] = "FocalLength";
 static const char TAG_DATETIME[] = "DateTime";
 static const char TAG_IMAGE_WIDTH[] = "ImageWidth";
 static const char TAG_IMAGE_LENGTH[] = "ImageLength";
 static const char TAG_GPS_LAT[] = "GPSLatitude";
 static const char TAG_GPS_LAT_REF[] = "GPSLatitudeRef";
 static const char TAG_GPS_LONG[] = "GPSLongitude";
 static const char TAG_GPS_LONG_REF[] = "GPSLongitudeRef";
 static const char TAG_GPS_ALT[] = "GPSAltitude";
 static const char TAG_GPS_ALT_REF[] = "GPSAltitudeRef";
 static const char TAG_GPS_MAP_DATUM[] = "GPSMapDatum";
 static const char TAG_GPS_PROCESSING_METHOD[] = "GPSProcessingMethod";
 static const char TAG_GPS_VERSION_ID[] = "GPSVersionID";
 static const char TAG_GPS_TIMESTAMP[] = "GPSTimeStamp";
 static const char TAG_GPS_DATESTAMP[] = "GPSDateStamp";
 static const char TAG_ORIENTATION[] = "Orientation";
 static const char TAG_FLASH[] = "Flash";
 static const char TAG_DIGITALZOOMRATIO[] = "DigitalZoomRatio";
 static const char TAG_EXPOSURETIME[] = "ExposureTime";
 static const char TAG_APERTURE[] = "ApertureValue";
 static const char TAG_ISO_EQUIVALENT[] = "ISOSpeedRatings";
 static const char TAG_WHITEBALANCE[] = "WhiteBalance";
 static const char TAG_LIGHT_SOURCE[] = "LightSource";
 static const char TAG_METERING_MODE[] = "MeteringMode";
 static const char TAG_EXPOSURE_PROGRAM[] = "ExposureProgram";
 static const char TAG_COLOR_SPACE[] = "ColorSpace";
 static const char TAG_CPRS_BITS_PER_PIXEL[] = "CompressedBitsPerPixel";
 static const char TAG_FNUMBER[] = "FNumber";
 static const char TAG_SHUTTERSPEED[] = "ShutterSpeedValue";
 static const char TAG_SENSING_METHOD[] = "SensingMethod";
 static const char TAG_CUSTOM_RENDERED[] = "CustomRendered";

 class ExifElementsTable {
     public:
         ExifElementsTable() :
            gps_tag_count(0), exif_tag_count(0), position(0),
            jpeg_opened(false), has_datetime_tag(false) { }
         ~ExifElementsTable();

         status_t insertElement(const char* tag, const char* value);
         void insertExifToJpeg(unsigned char* jpeg, size_t jpeg_size);
         status_t insertExifThumbnailImage(const char*, int);
         void saveJpeg(unsigned char* picture, size_t jpeg_size);
         static const char* degreesToExifOrientation(unsigned int);
         static void stringToRational(const char*, unsigned int*, unsigned int*);
         static bool isAsciiTag(const char* tag);
     private:
         ExifElement_t table[MAX_EXIF_TAGS_SUPPORTED];
         unsigned int gps_tag_count;
         unsigned int exif_tag_count;
         unsigned int position;
         bool jpeg_opened;
         bool has_datetime_tag;
 };

 class Encoder_libjpeg : public Thread {
     /* public member types and variables */
     public:
         struct params {
             uint8_t* src;
             int src_size;
             uint8_t* dst;
             int dst_size;
             int quality;
             int in_width;
             int in_height;
             int out_width;
             int out_height;
             int right_crop;
             int start_offset;
             const char* format;
             size_t jpeg_size;
          };
     /* public member functions */
     public:
         Encoder_libjpeg(params* main_jpeg,
                         params* tn_jpeg,
                         encoder_libjpeg_callback_t cb,
                         CameraFrame::FrameType type,
                         void* cookie1,
                         void* cookie2,
                         void* cookie3)
             : Thread(false), mMainInput(main_jpeg), mThumbnailInput(tn_jpeg), mCb(cb),
               mCancelEncoding(false), mCookie1(cookie1), mCookie2(cookie2), mCookie3(cookie3),
               mType(type), mThumb(NULL) {
             this->incStrong(this);
             mCancelSem.Create(0);
         }

         ~Encoder_libjpeg() {
             CAMHAL_LOGVB("~Encoder_libjpeg(%p)", this);
         }

         virtual bool threadLoop() {
             size_t size = 0;
             sp<Encoder_libjpeg> tn = NULL;
             if (mThumbnailInput) {
                 // start thread to encode thumbnail
                 mThumb = new Encoder_libjpeg(mThumbnailInput, NULL, NULL, mType, NULL, NULL, NULL);
                 mThumb->run();
             }

             // encode our main image
             size = encode(mMainInput);

             // signal cancel semaphore incase somebody is waiting
             mCancelSem.Signal();

             // check if it is main jpeg thread
             if(mThumb.get()) {
                 // wait until tn jpeg thread exits.
                 mThumb->join();
                 mThumb.clear();
                 mThumb = NULL;
             }

             if(mCb) {
                 mCb(mMainInput, mThumbnailInput, mType, mCookie1, mCookie2, mCookie3, mCancelEncoding);
             }

             // encoder thread runs, self-destructs, and then exits
             this->decStrong(this);
             return false;
         }

         void cancel() {
            mCancelEncoding = true;
            if (mThumb.get()) {
                mThumb->cancel();
                mCancelSem.WaitTimeout(CANCEL_TIMEOUT);
            }
         }

         void getCookies(void **cookie1, void **cookie2, void **cookie3) {
             if (cookie1) *cookie1 = mCookie1;
             if (cookie2) *cookie2 = mCookie2;
             if (cookie3) *cookie3 = mCookie3;
         }

     private:
         params* mMainInput;
         params* mThumbnailInput;
         encoder_libjpeg_callback_t mCb;
         bool mCancelEncoding;
         void* mCookie1;
         void* mCookie2;
         void* mCookie3;
         CameraFrame::FrameType mType;
         sp<Encoder_libjpeg> mThumb;
         Semaphore mCancelSem;

         size_t encode(params*);
 };

 }

 #endif
	/*
	* Copyright (C) Texas Instruments - http://www.ti.com/
	*
	* 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.
	*/

	/**
	* @file Encoder_libjpeg.h
	*
	* This defines API for camerahal to encode YUV using libjpeg
	*
	*/

	#ifndef ANDROID_CAMERA_HARDWARE_ENCODER_LIBJPEG_H
	#define ANDROID_CAMERA_HARDWARE_ENCODER_LIBJPEG_H

	#include <utils/threads.h>
	#include <utils/RefBase.h>

	extern "C" {
	#include "jhead.h"
	}

	#define CANCEL_TIMEOUT 3000000 // 3 seconds

	namespace android {
	/**
	* libjpeg encoder class - uses libjpeg to encode yuv
	*/

	#define MAX_EXIF_TAGS_SUPPORTED 30
	typedef void (encoder_libjpeg_callback_t) (void main_jpeg,
	void* thumb_jpeg,
	CameraFrame::FrameType type,
	void* cookie1,
	void* cookie2,
	void* cookie3,
	bool canceled);

	// these have to match strings defined in external/jhead/exif.c
	static const char TAG_MODEL[] = "Model";
	static const char TAG_MAKE[] = "Make";
	static const char TAG_FOCALLENGTH[] = "FocalLength";
	static const char TAG_DATETIME[] = "DateTime";
	static const char TAG_IMAGE_WIDTH[] = "ImageWidth";
	static const char TAG_IMAGE_LENGTH[] = "ImageLength";
	static const char TAG_GPS_LAT[] = "GPSLatitude";
	static const char TAG_GPS_LAT_REF[] = "GPSLatitudeRef";
	static const char TAG_GPS_LONG[] = "GPSLongitude";
	static const char TAG_GPS_LONG_REF[] = "GPSLongitudeRef";
	static const char TAG_GPS_ALT[] = "GPSAltitude";
	static const char TAG_GPS_ALT_REF[] = "GPSAltitudeRef";
	static const char TAG_GPS_MAP_DATUM[] = "GPSMapDatum";
	static const char TAG_GPS_PROCESSING_METHOD[] = "GPSProcessingMethod";
	static const char TAG_GPS_VERSION_ID[] = "GPSVersionID";
	static const char TAG_GPS_TIMESTAMP[] = "GPSTimeStamp";
	static const char TAG_GPS_DATESTAMP[] = "GPSDateStamp";
	static const char TAG_ORIENTATION[] = "Orientation";
	static const char TAG_FLASH[] = "Flash";
	static const char TAG_DIGITALZOOMRATIO[] = "DigitalZoomRatio";
	static const char TAG_EXPOSURETIME[] = "ExposureTime";
	static const char TAG_APERTURE[] = "ApertureValue";
	static const char TAG_ISO_EQUIVALENT[] = "ISOSpeedRatings";
	static const char TAG_WHITEBALANCE[] = "WhiteBalance";
	static const char TAG_LIGHT_SOURCE[] = "LightSource";
	static const char TAG_METERING_MODE[] = "MeteringMode";
	static const char TAG_EXPOSURE_PROGRAM[] = "ExposureProgram";
	static const char TAG_COLOR_SPACE[] = "ColorSpace";
	static const char TAG_CPRS_BITS_PER_PIXEL[] = "CompressedBitsPerPixel";
	static const char TAG_FNUMBER[] = "FNumber";
	static const char TAG_SHUTTERSPEED[] = "ShutterSpeedValue";
	static const char TAG_SENSING_METHOD[] = "SensingMethod";
	static const char TAG_CUSTOM_RENDERED[] = "CustomRendered";

	class ExifElementsTable {
	public:
	ExifElementsTable() :
	gps_tag_count(0), exif_tag_count(0), position(0),
	jpeg_opened(false), has_datetime_tag(false) { }
	~ExifElementsTable();

	status_t insertElement(const char* tag, const char* value);
	void insertExifToJpeg(unsigned char* jpeg, size_t jpeg_size);
	status_t insertExifThumbnailImage(const char*, int);
	void saveJpeg(unsigned char* picture, size_t jpeg_size);
	static const char* degreesToExifOrientation(unsigned int);
	static void stringToRational(const char, unsigned int, unsigned int*);
	static bool isAsciiTag(const char* tag);
	private:
	ExifElement_t table[MAX_EXIF_TAGS_SUPPORTED];
	unsigned int gps_tag_count;
	unsigned int exif_tag_count;
	unsigned int position;
	bool jpeg_opened;
	bool has_datetime_tag;
	};

	class Encoder_libjpeg : public Thread {
	/* public member types and variables */
	public:
	struct params {
	uint8_t* src;
	int src_size;
	uint8_t* dst;
	int dst_size;
	int quality;
	int in_width;
	int in_height;
	int out_width;
	int out_height;
	int right_crop;
	int start_offset;
	const char* format;
	size_t jpeg_size;
	};
	/* public member functions */
	public:
	Encoder_libjpeg(params* main_jpeg,
	params* tn_jpeg,
	encoder_libjpeg_callback_t cb,
	CameraFrame::FrameType type,
	void* cookie1,
	void* cookie2,
	void* cookie3)
	: Thread(false), mMainInput(main_jpeg), mThumbnailInput(tn_jpeg), mCb(cb),
	mCancelEncoding(false), mCookie1(cookie1), mCookie2(cookie2), mCookie3(cookie3),
	mType(type), mThumb(NULL) {
	this->incStrong(this);
	mCancelSem.Create(0);
	}

	~Encoder_libjpeg() {
	CAMHAL_LOGVB("~Encoder_libjpeg(%p)", this);
	}

	virtual bool threadLoop() {
	size_t size = 0;
	sp<Encoder_libjpeg> tn = NULL;
	if (mThumbnailInput) {
	// start thread to encode thumbnail
	mThumb = new Encoder_libjpeg(mThumbnailInput, NULL, NULL, mType, NULL, NULL, NULL);
	mThumb->run();
	}

	// encode our main image
	size = encode(mMainInput);

	// signal cancel semaphore incase somebody is waiting
	mCancelSem.Signal();

	// check if it is main jpeg thread
	if(mThumb.get()) {
	// wait until tn jpeg thread exits.
	mThumb->join();
	mThumb.clear();
	mThumb = NULL;
	}

	if(mCb) {
	mCb(mMainInput, mThumbnailInput, mType, mCookie1, mCookie2, mCookie3, mCancelEncoding);
	}

	// encoder thread runs, self-destructs, and then exits
	this->decStrong(this);
	return false;
	}

	void cancel() {
	mCancelEncoding = true;
	if (mThumb.get()) {
	mThumb->cancel();
	mCancelSem.WaitTimeout(CANCEL_TIMEOUT);
	}
	}

	void getCookies(void cookie1, void cookie2, void **cookie3) {
	if (cookie1) *cookie1 = mCookie1;
	if (cookie2) *cookie2 = mCookie2;
	if (cookie3) *cookie3 = mCookie3;
	}

	private:
	params* mMainInput;
	params* mThumbnailInput;
	encoder_libjpeg_callback_t mCb;
	bool mCancelEncoding;
	void* mCookie1;
	void* mCookie2;
	void* mCookie3;
	CameraFrame::FrameType mType;
	sp<Encoder_libjpeg> mThumb;
	Semaphore mCancelSem;

	size_t encode(params*);
	};

	}

	#endif