/* ** ** Copyright 2010, 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. */ #ifndef ANDROID_MEDIAPROFILES_H #define ANDROID_MEDIAPROFILES_H #include <utils/threads.h> #include <media/mediarecorder.h> namespace android { enum camcorder_quality { CAMCORDER_QUALITY_LIST_START = 0, CAMCORDER_QUALITY_LOW = 0, CAMCORDER_QUALITY_HIGH = 1, CAMCORDER_QUALITY_QCIF = 2, CAMCORDER_QUALITY_CIF = 3, CAMCORDER_QUALITY_480P = 4, CAMCORDER_QUALITY_720P = 5, CAMCORDER_QUALITY_1080P = 6, CAMCORDER_QUALITY_QVGA = 7, CAMCORDER_QUALITY_LIST_END = 7, CAMCORDER_QUALITY_TIME_LAPSE_LIST_START = 1000, CAMCORDER_QUALITY_TIME_LAPSE_LOW = 1000, CAMCORDER_QUALITY_TIME_LAPSE_HIGH = 1001, CAMCORDER_QUALITY_TIME_LAPSE_QCIF = 1002, CAMCORDER_QUALITY_TIME_LAPSE_CIF = 1003, CAMCORDER_QUALITY_TIME_LAPSE_480P = 1004, CAMCORDER_QUALITY_TIME_LAPSE_720P = 1005, CAMCORDER_QUALITY_TIME_LAPSE_1080P = 1006, CAMCORDER_QUALITY_TIME_LAPSE_QVGA = 1007, CAMCORDER_QUALITY_TIME_LAPSE_LIST_END = 1007, }; /** * Set CIF as default maximum import and export resolution of video editor. * The maximum import and export resolutions are platform specific, * which should be defined in media_profiles.xml. * Set default maximum prefetch YUV frames to 6, which means video editor can * queue up to 6 YUV frames in the video encoder source. * This value is used to limit the amount of memory used by video editor * engine when the encoder consumes YUV frames at a lower speed * than video editor engine produces. */ enum videoeditor_capability { VIDEOEDITOR_DEFAULT_MAX_INPUT_FRAME_WIDTH = 352, VIDEOEDITOR_DEFUALT_MAX_INPUT_FRAME_HEIGHT = 288, VIDEOEDITOR_DEFAULT_MAX_OUTPUT_FRAME_WIDTH = 352, VIDEOEDITOR_DEFUALT_MAX_OUTPUT_FRAME_HEIGHT = 288, VIDEOEDITOR_DEFAULT_MAX_PREFETCH_YUV_FRAMES = 6 }; enum video_decoder { VIDEO_DECODER_WMV, }; enum audio_decoder { AUDIO_DECODER_WMA, }; class MediaProfiles { public: /** * Returns the singleton instance for subsequence queries. * or NULL if error. */ static MediaProfiles* getInstance(); /** * Returns the value for the given param name for the given camera at * the given quality level, or -1 if error. * * Supported param name are: * duration - the recording duration. * file.format - output file format. see mediarecorder.h for details * vid.codec - video encoder. see mediarecorder.h for details. * aud.codec - audio encoder. see mediarecorder.h for details. * vid.width - video frame width * vid.height - video frame height * vid.fps - video frame rate * vid.bps - video bit rate * aud.bps - audio bit rate * aud.hz - audio sample rate * aud.ch - number of audio channels */ int getCamcorderProfileParamByName(const char *name, int cameraId, camcorder_quality quality) const; /** * Returns true if a profile for the given camera at the given quality exists, * or false if not. */ bool hasCamcorderProfile(int cameraId, camcorder_quality quality) const; /** * Returns the output file formats supported. */ Vector<output_format> getOutputFileFormats() const; /** * Returns the video encoders supported. */ Vector<video_encoder> getVideoEncoders() const; /** * Returns the value for the given param name for the given video encoder * returned from getVideoEncoderByIndex or -1 if error. * * Supported param name are: * enc.vid.width.min - min video frame width * enc.vid.width.max - max video frame width * enc.vid.height.min - min video frame height * enc.vid.height.max - max video frame height * enc.vid.bps.min - min bit rate in bits per second * enc.vid.bps.max - max bit rate in bits per second * enc.vid.fps.min - min frame rate in frames per second * enc.vid.fps.max - max frame rate in frames per second */ int getVideoEncoderParamByName(const char *name, video_encoder codec) const; /** * Returns the value for the given param name for the video editor cap * param or -1 if error. * Supported param name are: * videoeditor.input.width.max - max input video frame width * videoeditor.input.height.max - max input video frame height * videoeditor.output.width.max - max output video frame width * videoeditor.output.height.max - max output video frame height * maxPrefetchYUVFrames - max prefetch YUV frames in video editor engine. This value is used * to limit the memory consumption. */ int getVideoEditorCapParamByName(const char *name) const; /** * Returns the value for the given param name for the video editor export codec format * param or -1 if error. * Supported param name are: * videoeditor.export.profile - export video profile * videoeditor.export.level - export video level * Supported param codec are: * 1 for h263 * 2 for h264 * 3 for mpeg4 */ int getVideoEditorExportParamByName(const char *name, int codec) const; /** * Returns the audio encoders supported. */ Vector<audio_encoder> getAudioEncoders() const; /** * Returns the value for the given param name for the given audio encoder * returned from getAudioEncoderByIndex or -1 if error. * * Supported param name are: * enc.aud.ch.min - min number of channels * enc.aud.ch.max - max number of channels * enc.aud.bps.min - min bit rate in bits per second * enc.aud.bps.max - max bit rate in bits per second * enc.aud.hz.min - min sample rate in samples per second * enc.aud.hz.max - max sample rate in samples per second */ int getAudioEncoderParamByName(const char *name, audio_encoder codec) const; /** * Returns the video decoders supported. */ Vector<video_decoder> getVideoDecoders() const; /** * Returns the audio decoders supported. */ Vector<audio_decoder> getAudioDecoders() const; /** * Returns the number of image encoding quality levels supported. */ Vector<int> getImageEncodingQualityLevels(int cameraId) const; /** * Returns the start time offset (in ms) for the given camera Id. * If the given camera Id does not exist, -1 will be returned. */ int getStartTimeOffsetMs(int cameraId) const; private: enum { // Camcorder profiles (high/low) and timelapse profiles (high/low) kNumRequiredProfiles = 4, }; MediaProfiles& operator=(const MediaProfiles&); // Don't call me MediaProfiles(const MediaProfiles&); // Don't call me MediaProfiles() { mVideoEditorCap = NULL; } // Dummy default constructor ~MediaProfiles(); // Don't delete me struct VideoCodec { VideoCodec(video_encoder codec, int bitRate, int frameWidth, int frameHeight, int frameRate) : mCodec(codec), mBitRate(bitRate), mFrameWidth(frameWidth), mFrameHeight(frameHeight), mFrameRate(frameRate) {} VideoCodec(const VideoCodec& copy) { mCodec = copy.mCodec; mBitRate = copy.mBitRate; mFrameWidth = copy.mFrameWidth; mFrameHeight = copy.mFrameHeight; mFrameRate = copy.mFrameRate; } ~VideoCodec() {} video_encoder mCodec; int mBitRate; int mFrameWidth; int mFrameHeight; int mFrameRate; }; struct AudioCodec { AudioCodec(audio_encoder codec, int bitRate, int sampleRate, int channels) : mCodec(codec), mBitRate(bitRate), mSampleRate(sampleRate), mChannels(channels) {} AudioCodec(const AudioCodec& copy) { mCodec = copy.mCodec; mBitRate = copy.mBitRate; mSampleRate = copy.mSampleRate; mChannels = copy.mChannels; } ~AudioCodec() {} audio_encoder mCodec; int mBitRate; int mSampleRate; int mChannels; }; struct CamcorderProfile { CamcorderProfile() : mCameraId(0), mFileFormat(OUTPUT_FORMAT_THREE_GPP), mQuality(CAMCORDER_QUALITY_HIGH), mDuration(0), mVideoCodec(0), mAudioCodec(0) {} CamcorderProfile(const CamcorderProfile& copy) { mCameraId = copy.mCameraId; mFileFormat = copy.mFileFormat; mQuality = copy.mQuality; mDuration = copy.mDuration; mVideoCodec = new VideoCodec(*copy.mVideoCodec); mAudioCodec = new AudioCodec(*copy.mAudioCodec); } ~CamcorderProfile() { delete mVideoCodec; delete mAudioCodec; } int mCameraId; output_format mFileFormat; camcorder_quality mQuality; int mDuration; VideoCodec *mVideoCodec; AudioCodec *mAudioCodec; }; struct VideoEncoderCap { // Ugly constructor VideoEncoderCap(video_encoder codec, int minBitRate, int maxBitRate, int minFrameWidth, int maxFrameWidth, int minFrameHeight, int maxFrameHeight, int minFrameRate, int maxFrameRate) : mCodec(codec), mMinBitRate(minBitRate), mMaxBitRate(maxBitRate), mMinFrameWidth(minFrameWidth), mMaxFrameWidth(maxFrameWidth), mMinFrameHeight(minFrameHeight), mMaxFrameHeight(maxFrameHeight), mMinFrameRate(minFrameRate), mMaxFrameRate(maxFrameRate) {} ~VideoEncoderCap() {} video_encoder mCodec; int mMinBitRate, mMaxBitRate; int mMinFrameWidth, mMaxFrameWidth; int mMinFrameHeight, mMaxFrameHeight; int mMinFrameRate, mMaxFrameRate; }; struct AudioEncoderCap { // Ugly constructor AudioEncoderCap(audio_encoder codec, int minBitRate, int maxBitRate, int minSampleRate, int maxSampleRate, int minChannels, int maxChannels) : mCodec(codec), mMinBitRate(minBitRate), mMaxBitRate(maxBitRate), mMinSampleRate(minSampleRate), mMaxSampleRate(maxSampleRate), mMinChannels(minChannels), mMaxChannels(maxChannels) {} ~AudioEncoderCap() {} audio_encoder mCodec; int mMinBitRate, mMaxBitRate; int mMinSampleRate, mMaxSampleRate; int mMinChannels, mMaxChannels; }; struct VideoDecoderCap { VideoDecoderCap(video_decoder codec): mCodec(codec) {} ~VideoDecoderCap() {} video_decoder mCodec; }; struct AudioDecoderCap { AudioDecoderCap(audio_decoder codec): mCodec(codec) {} ~AudioDecoderCap() {} audio_decoder mCodec; }; struct NameToTagMap { const char* name; int tag; }; struct ImageEncodingQualityLevels { int mCameraId; Vector<int> mLevels; }; struct ExportVideoProfile { ExportVideoProfile(int codec, int profile, int level) :mCodec(codec),mProfile(profile),mLevel(level) {} ~ExportVideoProfile() {} int mCodec; int mProfile; int mLevel; }; struct VideoEditorCap { VideoEditorCap(int inFrameWidth, int inFrameHeight, int outFrameWidth, int outFrameHeight, int frames) : mMaxInputFrameWidth(inFrameWidth), mMaxInputFrameHeight(inFrameHeight), mMaxOutputFrameWidth(outFrameWidth), mMaxOutputFrameHeight(outFrameHeight), mMaxPrefetchYUVFrames(frames) {} ~VideoEditorCap() {} int mMaxInputFrameWidth; int mMaxInputFrameHeight; int mMaxOutputFrameWidth; int mMaxOutputFrameHeight; int mMaxPrefetchYUVFrames; }; int getCamcorderProfileIndex(int cameraId, camcorder_quality quality) const; void initRequiredProfileRefs(const Vector<int>& cameraIds); int getRequiredProfileRefIndex(int cameraId); // Debug static void logVideoCodec(const VideoCodec& codec); static void logAudioCodec(const AudioCodec& codec); static void logVideoEncoderCap(const VideoEncoderCap& cap); static void logAudioEncoderCap(const AudioEncoderCap& cap); static void logVideoDecoderCap(const VideoDecoderCap& cap); static void logAudioDecoderCap(const AudioDecoderCap& cap); static void logVideoEditorCap(const VideoEditorCap& cap); // If the xml configuration file does exist, use the settings // from the xml static MediaProfiles* createInstanceFromXmlFile(const char *xml); static output_format createEncoderOutputFileFormat(const char **atts); static VideoCodec* createVideoCodec(const char **atts, MediaProfiles *profiles); static AudioCodec* createAudioCodec(const char **atts, MediaProfiles *profiles); static AudioDecoderCap* createAudioDecoderCap(const char **atts); static VideoDecoderCap* createVideoDecoderCap(const char **atts); static VideoEncoderCap* createVideoEncoderCap(const char **atts); static AudioEncoderCap* createAudioEncoderCap(const char **atts); static VideoEditorCap* createVideoEditorCap( const char **atts, MediaProfiles *profiles); static ExportVideoProfile* createExportVideoProfile(const char **atts); static CamcorderProfile* createCamcorderProfile( int cameraId, const char **atts, Vector<int>& cameraIds); static int getCameraId(const char **atts); void addStartTimeOffset(int cameraId, const char **atts); ImageEncodingQualityLevels* findImageEncodingQualityLevels(int cameraId) const; void addImageEncodingQualityLevel(int cameraId, const char** atts); // Customized element tag handler for parsing the xml configuration file. static void startElementHandler(void *userData, const char *name, const char **atts); // If the xml configuration file does not exist, use hard-coded values static MediaProfiles* createDefaultInstance(); static CamcorderProfile *createDefaultCamcorderQcifProfile(camcorder_quality quality); static CamcorderProfile *createDefaultCamcorderCifProfile(camcorder_quality quality); static void createDefaultCamcorderLowProfiles( MediaProfiles::CamcorderProfile **lowProfile, MediaProfiles::CamcorderProfile **lowSpecificProfile); static void createDefaultCamcorderHighProfiles( MediaProfiles::CamcorderProfile **highProfile, MediaProfiles::CamcorderProfile **highSpecificProfile); static CamcorderProfile *createDefaultCamcorderTimeLapseQcifProfile(camcorder_quality quality); static CamcorderProfile *createDefaultCamcorderTimeLapse480pProfile(camcorder_quality quality); static void createDefaultCamcorderTimeLapseLowProfiles( MediaProfiles::CamcorderProfile **lowTimeLapseProfile, MediaProfiles::CamcorderProfile **lowSpecificTimeLapseProfile); static void createDefaultCamcorderTimeLapseHighProfiles( MediaProfiles::CamcorderProfile **highTimeLapseProfile, MediaProfiles::CamcorderProfile **highSpecificTimeLapseProfile); static void createDefaultCamcorderProfiles(MediaProfiles *profiles); static void createDefaultVideoEncoders(MediaProfiles *profiles); static void createDefaultAudioEncoders(MediaProfiles *profiles); static void createDefaultVideoDecoders(MediaProfiles *profiles); static void createDefaultAudioDecoders(MediaProfiles *profiles); static void createDefaultEncoderOutputFileFormats(MediaProfiles *profiles); static void createDefaultImageEncodingQualityLevels(MediaProfiles *profiles); static void createDefaultImageDecodingMaxMemory(MediaProfiles *profiles); static void createDefaultVideoEditorCap(MediaProfiles *profiles); static void createDefaultExportVideoProfiles(MediaProfiles *profiles); static VideoEncoderCap* createDefaultH263VideoEncoderCap(); static VideoEncoderCap* createDefaultM4vVideoEncoderCap(); static AudioEncoderCap* createDefaultAmrNBEncoderCap(); static int findTagForName(const NameToTagMap *map, size_t nMappings, const char *name); /** * Check on existing profiles with the following criteria: * 1. Low quality profile must have the lowest video * resolution product (width x height) * 2. High quality profile must have the highest video * resolution product (width x height) * * and add required low/high quality camcorder/timelapse * profiles if they are not found. This allows to remove * duplicate profile definitions in the media_profiles.xml * file. */ void checkAndAddRequiredProfilesIfNecessary(); // Mappings from name (for instance, codec name) to enum value static const NameToTagMap sVideoEncoderNameMap[]; static const NameToTagMap sAudioEncoderNameMap[]; static const NameToTagMap sFileFormatMap[]; static const NameToTagMap sVideoDecoderNameMap[]; static const NameToTagMap sAudioDecoderNameMap[]; static const NameToTagMap sCamcorderQualityNameMap[]; static bool sIsInitialized; static MediaProfiles *sInstance; static Mutex sLock; int mCurrentCameraId; Vector<CamcorderProfile*> mCamcorderProfiles; Vector<AudioEncoderCap*> mAudioEncoders; Vector<VideoEncoderCap*> mVideoEncoders; Vector<AudioDecoderCap*> mAudioDecoders; Vector<VideoDecoderCap*> mVideoDecoders; Vector<output_format> mEncoderOutputFileFormats; Vector<ImageEncodingQualityLevels *> mImageEncodingQualityLevels; KeyedVector<int, int> mStartTimeOffsets; typedef struct { bool mHasRefProfile; // Refers to an existing profile int mRefProfileIndex; // Reference profile index int mResolutionProduct; // width x height } RequiredProfileRefInfo; // Required low and high profiles typedef struct { RequiredProfileRefInfo mRefs[kNumRequiredProfiles]; int mCameraId; } RequiredProfiles; RequiredProfiles *mRequiredProfileRefs; Vector<int> mCameraIds; VideoEditorCap* mVideoEditorCap; Vector<ExportVideoProfile*> mVideoEditorExportProfiles; }; }; // namespace android #endif // ANDROID_MEDIAPROFILES_H