videoencoder/VideoEncoderDef.h - platform/hardware/intel/common/libmix - Git at Google

 /*
 * Copyright (c) 2009-2011 Intel Corporation.  All rights reserved.
 *
 * 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 __VIDEO_ENCODER_DEF_H__
 #define __VIDEO_ENCODER_DEF_H__

 #include <stdint.h>

 #define STRING_TO_FOURCC(format) ((uint32_t)(((format)[0])|((format)[1]<<8)|((format)[2]<<16)|((format)[3]<<24)))

 typedef int32_t Encode_Status;

 // Video encode error code
 enum {
     ENCODE_INVALID_SURFACE = -11,
     ENCODE_NO_REQUEST_DATA = -10,
     ENCODE_WRONG_STATE = -9,
     ENCODE_NOTIMPL = -8,
     ENCODE_NO_MEMORY = -7,
     ENCODE_NOT_INIT = -6,
     ENCODE_DRIVER_FAIL = -5,
     ENCODE_INVALID_PARAMS = -4,
     ENCODE_NOT_SUPPORTED = -3,
     ENCODE_NULL_PTR = -2,
     ENCODE_FAIL = -1,
     ENCODE_SUCCESS = 0,
     ENCODE_ALREADY_INIT = 1,
     ENCODE_SLICESIZE_OVERFLOW = 2,
     ENCODE_BUFFER_TOO_SMALL = 3, // The buffer passed to encode is too small to contain encoded data
     ENCODE_DEVICE_BUSY = 4,
     ENCODE_DATA_NOT_READY = 5,
 };

 typedef enum {
     OUTPUT_EVERYTHING = 0,  //Output whatever driver generates
     OUTPUT_CODEC_DATA = 1,
     OUTPUT_FRAME_DATA = 2, //Equal to OUTPUT_EVERYTHING when no header along with the frame data
     OUTPUT_ONE_NAL = 4,
     OUTPUT_ONE_NAL_WITHOUT_STARTCODE = 8,
     OUTPUT_LENGTH_PREFIXED = 16,
     OUTPUT_CODEDBUFFER = 32,
     OUTPUT_NALULENGTHS_PREFIXED = 64,
     OUTPUT_BUFFER_LAST
 } VideoOutputFormat;

 typedef enum {
     RAW_FORMAT_NONE = 0,
     RAW_FORMAT_YUV420 = 1,
     RAW_FORMAT_YUV422 = 2,
     RAW_FORMAT_YUV444 = 4,
     RAW_FORMAT_NV12 = 8,
     RAW_FORMAT_RGBA = 16,
     RAW_FORMAT_OPAQUE = 32,
     RAW_FORMAT_PROTECTED = 0x80000000,
     RAW_FORMAT_LAST
 } VideoRawFormat;

 typedef enum {
     RATE_CONTROL_NONE = 1,
     RATE_CONTROL_CBR = 2,
     RATE_CONTROL_VBR = 4,
     RATE_CONTROL_VCM = 8,
     RATE_CONTROL_LAST
 } VideoRateControl;

 typedef enum {
     PROFILE_MPEG2SIMPLE = 0,
     PROFILE_MPEG2MAIN,
     PROFILE_MPEG4SIMPLE,
     PROFILE_MPEG4ADVANCEDSIMPLE,
     PROFILE_MPEG4MAIN,
     PROFILE_H264BASELINE,
     PROFILE_H264MAIN,
     PROFILE_H264HIGH,
     PROFILE_VC1SIMPLE,
     PROFILE_VC1MAIN,
     PROFILE_VC1ADVANCED,
     PROFILE_H263BASELINE
 } VideoProfile;

 typedef enum {
     AVC_DELIMITER_LENGTHPREFIX = 0,
     AVC_DELIMITER_ANNEXB
 } AVCDelimiterType;

 typedef enum {
     VIDEO_ENC_NONIR,       // Non intra refresh
     VIDEO_ENC_CIR, 		// Cyclic intra refresh
     VIDEO_ENC_AIR, 		// Adaptive intra refresh
     VIDEO_ENC_BOTH,
     VIDEO_ENC_LAST
 } VideoIntraRefreshType;

 enum VideoBufferSharingMode {
     BUFFER_SHARING_NONE = 1, //Means non shared buffer mode
     BUFFER_SHARING_CI = 2,
     BUFFER_SHARING_V4L2 = 4,
     BUFFER_SHARING_SURFACE = 8,
     BUFFER_SHARING_USRPTR = 16,
     BUFFER_SHARING_GFXHANDLE = 32,
     BUFFER_SHARING_KBUFHANDLE = 64,
     BUFFER_LAST
 };

 typedef enum {
     FTYPE_UNKNOWN = 0, // Unknown
     FTYPE_I = 1, // General I-frame type
     FTYPE_P = 2, // General P-frame type
     FTYPE_B = 3, // General B-frame type
     FTYPE_SI = 4, // H.263 SI-frame type
     FTYPE_SP = 5, // H.263 SP-frame type
     FTYPE_EI = 6, // H.264 EI-frame type
     FTYPE_EP = 7, // H.264 EP-frame type
     FTYPE_S = 8, // MPEG-4 S-frame type
     FTYPE_IDR = 9, // IDR-frame type
 }FrameType;

 //function call mode
 #define FUNC_BLOCK        0xFFFFFFFF
 #define FUNC_NONBLOCK        0

 // Output buffer flag
 #define ENCODE_BUFFERFLAG_ENDOFFRAME       0x00000001
 #define ENCODE_BUFFERFLAG_PARTIALFRAME     0x00000002
 #define ENCODE_BUFFERFLAG_SYNCFRAME        0x00000004
 #define ENCODE_BUFFERFLAG_CODECCONFIG      0x00000008
 #define ENCODE_BUFFERFLAG_DATACORRUPT      0x00000010
 #define ENCODE_BUFFERFLAG_DATAINVALID      0x00000020
 #define ENCODE_BUFFERFLAG_SLICEOVERFOLOW   0x00000040
 #define ENCODE_BUFFERFLAG_ENDOFSTREAM     0x00000080
 #define ENCODE_BUFFERFLAG_NSTOPFRAME        0x00000100

 typedef struct {
     uint8_t *data;
     uint32_t bufferSize; //buffer size
     uint32_t dataSize; //actual size
     uint32_t offset; //buffer offset
     uint32_t remainingSize;
     int flag; //Key frame, Codec Data etc
     VideoOutputFormat format; //output format
     int64_t timeStamp; //reserved
     FrameType type;
     void *priv; //indicate corresponding input data
 } VideoEncOutputBuffer;

 typedef struct {
     uint8_t *data;
     uint32_t size;
     bool bufAvailable; //To indicate whether this buffer can be reused
     int64_t timeStamp; //reserved
     FrameType type; //frame type expected to be encoded
     int flag; // flag to indicate buffer property
     void *priv; //indicate corresponding input data
 } VideoEncRawBuffer;

 struct VideoEncSurfaceBuffer {
     VASurfaceID surface;
     uint8_t *usrptr;
     uint32_t index;
     bool bufAvailable;
     VideoEncSurfaceBuffer *next;
 };

 struct CirParams {
     uint32_t cir_num_mbs;

     CirParams &operator=(const CirParams &other) {
         if (this == &other) return *this;

         this->cir_num_mbs = other.cir_num_mbs;
         return *this;
     }
 };

 struct AirParams {
     uint32_t airMBs;
     uint32_t airThreshold;
     uint32_t airAuto;

     AirParams &operator=(const AirParams &other) {
         if (this == &other) return *this;

         this->airMBs= other.airMBs;
         this->airThreshold= other.airThreshold;
         this->airAuto = other.airAuto;
         return *this;
     }
 };

 struct VideoFrameRate {
     uint32_t frameRateNum;
     uint32_t frameRateDenom;

     VideoFrameRate &operator=(const VideoFrameRate &other) {
         if (this == &other) return *this;

         this->frameRateNum = other.frameRateNum;
         this->frameRateDenom = other.frameRateDenom;
         return *this;
     }
 };

 struct VideoResolution {
     uint32_t width;
     uint32_t height;

     VideoResolution &operator=(const VideoResolution &other) {
         if (this == &other) return *this;

         this->width = other.width;
         this->height = other.height;
         return *this;
     }
 };

 struct VideoRateControlParams {
     uint32_t bitRate;
     uint32_t initQP;
     uint32_t minQP;
     uint32_t maxQP;
     uint32_t I_minQP;
     uint32_t I_maxQP;
     uint32_t windowSize;
     uint32_t targetPercentage;
     uint32_t disableFrameSkip;
     uint32_t disableBitsStuffing;
     uint32_t enableIntraFrameQPControl;
     uint32_t temporalFrameRate;
     uint32_t temporalID;

     VideoRateControlParams &operator=(const VideoRateControlParams &other) {
         if (this == &other) return *this;

         this->bitRate = other.bitRate;
         this->initQP = other.initQP;
         this->minQP = other.minQP;
         this->maxQP = other.maxQP;
         this->I_minQP = other.I_minQP;
         this->I_maxQP = other.I_maxQP;
         this->windowSize = other.windowSize;
         this->targetPercentage = other.targetPercentage;
         this->disableFrameSkip = other.disableFrameSkip;
         this->disableBitsStuffing = other.disableBitsStuffing;
         this->enableIntraFrameQPControl = other.enableIntraFrameQPControl;
         this->temporalFrameRate = other.temporalFrameRate;
         this->temporalID = other.temporalID;

         return *this;
     }
 };

 struct SliceNum {
     uint32_t iSliceNum;
     uint32_t pSliceNum;

     SliceNum &operator=(const SliceNum &other) {
         if (this == &other) return *this;

         this->iSliceNum = other.iSliceNum;
         this->pSliceNum= other.pSliceNum;
         return *this;
     }
 };

 typedef struct {
     uint32_t realWidth;
     uint32_t realHeight;
     uint32_t lumaStride;
     uint32_t chromStride;
     uint32_t format;
 } ExternalBufferAttrib;

 struct Cropping {
     uint32_t LeftOffset;
     uint32_t RightOffset;
     uint32_t TopOffset;
     uint32_t BottomOffset;

     Cropping &operator=(const Cropping &other) {
         if (this == &other) return *this;

         this->LeftOffset = other.LeftOffset;
         this->RightOffset = other.RightOffset;
         this->TopOffset = other.TopOffset;
         this->BottomOffset = other.BottomOffset;
         return *this;
     }
 };

 struct SamplingAspectRatio {
     uint16_t SarWidth;
     uint16_t SarHeight;

     SamplingAspectRatio &operator=(const SamplingAspectRatio &other) {
         if (this == &other) return *this;

         this->SarWidth = other.SarWidth;
         this->SarHeight = other.SarHeight;
         return *this;
     }
 };

 enum VideoParamConfigType {
     VideoParamsTypeStartUnused = 0x01000000,
     VideoParamsTypeCommon,
     VideoParamsTypeAVC,
     VideoParamsTypeH263,
     VideoParamsTypeMP4,
     VideoParamsTypeVC1,
     VideoParamsTypeUpSteamBuffer,
     VideoParamsTypeUsrptrBuffer,
     VideoParamsTypeHRD,
     VideoParamsTypeStoreMetaDataInBuffers,
     VideoParamsTypeProfileLevel,
     VideoParamsTypeVP8,
     VideoParamsTypeTemporalLayer,

     VideoConfigTypeFrameRate,
     VideoConfigTypeBitRate,
     VideoConfigTypeResolution,
     VideoConfigTypeIntraRefreshType,
     VideoConfigTypeAIR,
     VideoConfigTypeCyclicFrameInterval,
     VideoConfigTypeAVCIntraPeriod,
     VideoConfigTypeNALSize,
     VideoConfigTypeIDRRequest,
     VideoConfigTypeSliceNum,
     VideoConfigTypeVP8,
     VideoConfigTypeVP8ReferenceFrame,
     VideoConfigTypeCIR,
     VideoConfigTypeVP8MaxFrameSizeRatio,
     VideoConfigTypeTemperalLayerBitrateFramerate,

     VideoParamsConfigExtension
 };

 struct VideoParamConfigSet {
     VideoParamConfigType type;
     uint32_t size;

     VideoParamConfigSet &operator=(const VideoParamConfigSet &other) {
         if (this == &other) return *this;
         this->type = other.type;
         this->size = other.size;
         return *this;
     }
 };

 struct VideoParamsCommon : VideoParamConfigSet {

     VAProfile profile;
     uint8_t level;
     VideoRawFormat rawFormat;
     VideoResolution resolution;
     VideoFrameRate frameRate;
     int32_t intraPeriod;
     VideoRateControl rcMode;
     VideoRateControlParams rcParams;
     VideoIntraRefreshType refreshType;
     int32_t cyclicFrameInterval;
     AirParams airParams;
     CirParams cirParams;
     uint32_t disableDeblocking;
     bool syncEncMode;
     //CodedBuffer properties
     uint32_t codedBufNum;
     uint32_t numberOfLayer;
     uint32_t nPeriodicity;
     uint32_t nLayerID[32];

     VideoParamsCommon() {
         type = VideoParamsTypeCommon;
         size = sizeof(VideoParamsCommon);
     }

     VideoParamsCommon &operator=(const VideoParamsCommon &other) {
         if (this == &other) return *this;

         VideoParamConfigSet::operator=(other);
         this->profile = other.profile;
         this->level = other.level;
         this->rawFormat = other.rawFormat;
         this->resolution = other.resolution;
         this->frameRate = other.frameRate;
         this->intraPeriod = other.intraPeriod;
         this->rcMode = other.rcMode;
         this->rcParams = other.rcParams;
         this->refreshType = other.refreshType;
         this->cyclicFrameInterval = other.cyclicFrameInterval;
         this->airParams = other.airParams;
         this->disableDeblocking = other.disableDeblocking;
         this->syncEncMode = other.syncEncMode;
         this->codedBufNum = other.codedBufNum;
         this->numberOfLayer = other.numberOfLayer;
         return *this;
     }
 };

 struct VideoParamsAVC : VideoParamConfigSet {
     uint32_t basicUnitSize;  //for rate control
     uint8_t VUIFlag;
     int32_t maxSliceSize;
     uint32_t idrInterval;
     uint32_t ipPeriod;
     uint32_t refFrames;
     SliceNum sliceNum;
     AVCDelimiterType delimiterType;
     Cropping crop;
     SamplingAspectRatio SAR;
     uint32_t refIdx10ActiveMinus1;
     uint32_t refIdx11ActiveMinus1;
     bool bFrameMBsOnly;
     bool bMBAFF;
     bool bEntropyCodingCABAC;
     bool bWeightedPPrediction;
     uint32_t weightedBipredicitonMode;
     bool bConstIpred ;
     bool bDirect8x8Inference;
     bool bDirectSpatialTemporal;
     uint32_t cabacInitIdc;

     VideoParamsAVC() {
         type = VideoParamsTypeAVC;
         size = sizeof(VideoParamsAVC);
     }

     VideoParamsAVC &operator=(const VideoParamsAVC &other) {
         if (this == &other) return *this;

         VideoParamConfigSet::operator=(other);
         this->basicUnitSize = other.basicUnitSize;
         this->VUIFlag = other.VUIFlag;
         this->maxSliceSize = other.maxSliceSize;
         this->idrInterval = other.idrInterval;
         this->ipPeriod = other.ipPeriod;
         this->refFrames = other.refFrames;
         this->sliceNum = other.sliceNum;
         this->delimiterType = other.delimiterType;
         this->crop.LeftOffset = other.crop.LeftOffset;
         this->crop.RightOffset = other.crop.RightOffset;
         this->crop.TopOffset = other.crop.TopOffset;
         this->crop.BottomOffset = other.crop.BottomOffset;
         this->SAR.SarWidth = other.SAR.SarWidth;
         this->SAR.SarHeight = other.SAR.SarHeight;

         this->refIdx10ActiveMinus1 = other.refIdx10ActiveMinus1;
         this->refIdx11ActiveMinus1 = other.refIdx11ActiveMinus1;
         this->bFrameMBsOnly = other.bFrameMBsOnly;
         this->bMBAFF = other.bMBAFF;
         this->bEntropyCodingCABAC = other.bEntropyCodingCABAC;
         this->bWeightedPPrediction = other.bWeightedPPrediction;
         this->weightedBipredicitonMode = other.weightedBipredicitonMode;
         this->bConstIpred = other.bConstIpred;
         this->bDirect8x8Inference = other.bDirect8x8Inference;
         this->bDirectSpatialTemporal = other.bDirectSpatialTemporal;
         this->cabacInitIdc = other.cabacInitIdc;
         return *this;
     }
 };

 struct VideoParamsUpstreamBuffer : VideoParamConfigSet {

     VideoParamsUpstreamBuffer() {
         type = VideoParamsTypeUpSteamBuffer;
         size = sizeof(VideoParamsUpstreamBuffer);
     }

     VideoBufferSharingMode bufferMode;
     intptr_t *bufList;
     uint32_t bufCnt;
     ExternalBufferAttrib *bufAttrib;
     void *display;
 };

 struct VideoParamsUsrptrBuffer : VideoParamConfigSet {

     VideoParamsUsrptrBuffer() {
         type = VideoParamsTypeUsrptrBuffer;
         size = sizeof(VideoParamsUsrptrBuffer);
     }

     //input
     uint32_t width;
     uint32_t height;
     uint32_t format;
     uint32_t expectedSize;

     //output
     uint32_t actualSize;
     uint32_t stride;
     uint8_t *usrPtr;
 };

 struct VideoParamsHRD : VideoParamConfigSet {

     VideoParamsHRD() {
         type = VideoParamsTypeHRD;
         size = sizeof(VideoParamsHRD);
     }

     uint32_t bufferSize;
     uint32_t initBufferFullness;
 };

 struct VideoParamsStoreMetaDataInBuffers : VideoParamConfigSet {

     VideoParamsStoreMetaDataInBuffers() {
         type = VideoParamsTypeStoreMetaDataInBuffers;
         size = sizeof(VideoParamsStoreMetaDataInBuffers);
     }

     bool isEnabled;
 };

 struct VideoParamsProfileLevel : VideoParamConfigSet {

     VideoParamsProfileLevel() {
         type = VideoParamsTypeProfileLevel;
         size = sizeof(VideoParamsProfileLevel);
     }

     VAProfile profile;
     uint32_t level;
     bool isSupported;
 };

 struct VideoParamsTemporalLayer : VideoParamConfigSet {

     VideoParamsTemporalLayer() {
         type = VideoParamsTypeTemporalLayer;
         size = sizeof(VideoParamsTemporalLayer);
     }

     uint32_t numberOfLayer;
     uint32_t nPeriodicity;
     uint32_t nLayerID[32];
 };


 struct VideoConfigFrameRate : VideoParamConfigSet {

     VideoConfigFrameRate() {
         type = VideoConfigTypeFrameRate;
         size = sizeof(VideoConfigFrameRate);
     }

     VideoFrameRate frameRate;
 };

 struct VideoConfigBitRate : VideoParamConfigSet {

     VideoConfigBitRate() {
         type = VideoConfigTypeBitRate;
         size = sizeof(VideoConfigBitRate);
     }

     VideoRateControlParams rcParams;
 };

 struct VideoConfigAVCIntraPeriod : VideoParamConfigSet {

     VideoConfigAVCIntraPeriod() {
         type = VideoConfigTypeAVCIntraPeriod;
         size = sizeof(VideoConfigAVCIntraPeriod);
     }

     uint32_t idrInterval;  //How many Intra frame will have a IDR frame
     uint32_t intraPeriod;
     uint32_t ipPeriod;
 };

 struct VideoConfigNALSize : VideoParamConfigSet {

     VideoConfigNALSize() {
         type = VideoConfigTypeNALSize;
         size = sizeof(VideoConfigNALSize);
     }

     uint32_t maxSliceSize;
 };

 struct VideoConfigResolution : VideoParamConfigSet {

     VideoConfigResolution() {
         type = VideoConfigTypeResolution;
         size = sizeof(VideoConfigResolution);
     }

     VideoResolution resolution;
 };

 struct VideoConfigIntraRefreshType : VideoParamConfigSet {

     VideoConfigIntraRefreshType() {
         type = VideoConfigTypeIntraRefreshType;
         size = sizeof(VideoConfigIntraRefreshType);
     }

     VideoIntraRefreshType refreshType;
 };

 struct VideoConfigCyclicFrameInterval : VideoParamConfigSet {

     VideoConfigCyclicFrameInterval() {
         type = VideoConfigTypeCyclicFrameInterval;
         size = sizeof(VideoConfigCyclicFrameInterval);
     }

     int32_t cyclicFrameInterval;
 };

 struct VideoConfigCIR : VideoParamConfigSet {

     VideoConfigCIR() {
         type = VideoConfigTypeCIR;
         size = sizeof(VideoConfigCIR);
     }

     CirParams cirParams;
 };

 struct VideoConfigAIR : VideoParamConfigSet {

     VideoConfigAIR() {
         type = VideoConfigTypeAIR;
         size = sizeof(VideoConfigAIR);
     }

     AirParams airParams;
 };

 struct VideoConfigSliceNum : VideoParamConfigSet {

     VideoConfigSliceNum() {
         type = VideoConfigTypeSliceNum;
         size = sizeof(VideoConfigSliceNum);
     }

     SliceNum sliceNum;
 };

 struct VideoParamsVP8 : VideoParamConfigSet {

         uint32_t profile;
         uint32_t error_resilient;
         uint32_t num_token_partitions;
         uint32_t kf_auto;
         uint32_t kf_min_dist;
         uint32_t kf_max_dist;
         uint32_t min_qp;
         uint32_t max_qp;
         uint32_t init_qp;
         uint32_t rc_undershoot;
         uint32_t rc_overshoot;
         uint32_t hrd_buf_size;
         uint32_t hrd_buf_initial_fullness;
         uint32_t hrd_buf_optimal_fullness;
         uint32_t max_frame_size_ratio;

         VideoParamsVP8() {
                 type = VideoParamsTypeVP8;
                 size = sizeof(VideoParamsVP8);
         }
 };

 struct VideoConfigVP8 : VideoParamConfigSet {

         uint32_t force_kf;
         uint32_t refresh_entropy_probs;
         uint32_t value;
         unsigned char sharpness_level;

         VideoConfigVP8 () {
                 type = VideoConfigTypeVP8;
                 size = sizeof(VideoConfigVP8);
         }
 };

 struct VideoConfigVP8ReferenceFrame : VideoParamConfigSet {

         uint32_t no_ref_last;
         uint32_t no_ref_gf;
         uint32_t no_ref_arf;
         uint32_t refresh_last;
         uint32_t refresh_golden_frame;
         uint32_t refresh_alternate_frame;

         VideoConfigVP8ReferenceFrame () {
                 type = VideoConfigTypeVP8ReferenceFrame;
                 size = sizeof(VideoConfigVP8ReferenceFrame);
         }
 };

 struct VideoConfigVP8MaxFrameSizeRatio : VideoParamConfigSet {

     VideoConfigVP8MaxFrameSizeRatio() {
         type = VideoConfigTypeVP8MaxFrameSizeRatio;
         size = sizeof(VideoConfigVP8MaxFrameSizeRatio);
     }

     uint32_t max_frame_size_ratio;
 };

 struct VideoConfigTemperalLayerBitrateFramerate : VideoParamConfigSet {

        VideoConfigTemperalLayerBitrateFramerate() {
                 type = VideoConfigTypeTemperalLayerBitrateFramerate;
                 size = sizeof(VideoConfigTemperalLayerBitrateFramerate);
         }

         uint32_t nLayerID;
         uint32_t bitRate;
         uint32_t frameRate;
 };

 #endif /*  __VIDEO_ENCODER_DEF_H__ */
	/*
	* Copyright (c) 2009-2011 Intel Corporation. All rights reserved.
	*
	* 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 __VIDEO_ENCODER_DEF_H__
	#define __VIDEO_ENCODER_DEF_H__

	#include <stdint.h>

	#define STRING_TO_FOURCC(format) ((uint32_t)(((format)[0])\|((format)[1]<<8)\|((format)[2]<<16)\|((format)[3]<<24)))

	typedef int32_t Encode_Status;

	// Video encode error code
	enum {
	ENCODE_INVALID_SURFACE = -11,
	ENCODE_NO_REQUEST_DATA = -10,
	ENCODE_WRONG_STATE = -9,
	ENCODE_NOTIMPL = -8,
	ENCODE_NO_MEMORY = -7,
	ENCODE_NOT_INIT = -6,
	ENCODE_DRIVER_FAIL = -5,
	ENCODE_INVALID_PARAMS = -4,
	ENCODE_NOT_SUPPORTED = -3,
	ENCODE_NULL_PTR = -2,
	ENCODE_FAIL = -1,
	ENCODE_SUCCESS = 0,
	ENCODE_ALREADY_INIT = 1,
	ENCODE_SLICESIZE_OVERFLOW = 2,
	ENCODE_BUFFER_TOO_SMALL = 3, // The buffer passed to encode is too small to contain encoded data
	ENCODE_DEVICE_BUSY = 4,
	ENCODE_DATA_NOT_READY = 5,
	};

	typedef enum {
	OUTPUT_EVERYTHING = 0, //Output whatever driver generates
	OUTPUT_CODEC_DATA = 1,
	OUTPUT_FRAME_DATA = 2, //Equal to OUTPUT_EVERYTHING when no header along with the frame data
	OUTPUT_ONE_NAL = 4,
	OUTPUT_ONE_NAL_WITHOUT_STARTCODE = 8,
	OUTPUT_LENGTH_PREFIXED = 16,
	OUTPUT_CODEDBUFFER = 32,
	OUTPUT_NALULENGTHS_PREFIXED = 64,
	OUTPUT_BUFFER_LAST
	} VideoOutputFormat;

	typedef enum {
	RAW_FORMAT_NONE = 0,
	RAW_FORMAT_YUV420 = 1,
	RAW_FORMAT_YUV422 = 2,
	RAW_FORMAT_YUV444 = 4,
	RAW_FORMAT_NV12 = 8,
	RAW_FORMAT_RGBA = 16,
	RAW_FORMAT_OPAQUE = 32,
	RAW_FORMAT_PROTECTED = 0x80000000,
	RAW_FORMAT_LAST
	} VideoRawFormat;

	typedef enum {
	RATE_CONTROL_NONE = 1,
	RATE_CONTROL_CBR = 2,
	RATE_CONTROL_VBR = 4,
	RATE_CONTROL_VCM = 8,
	RATE_CONTROL_LAST
	} VideoRateControl;

	typedef enum {
	PROFILE_MPEG2SIMPLE = 0,
	PROFILE_MPEG2MAIN,
	PROFILE_MPEG4SIMPLE,
	PROFILE_MPEG4ADVANCEDSIMPLE,
	PROFILE_MPEG4MAIN,
	PROFILE_H264BASELINE,
	PROFILE_H264MAIN,
	PROFILE_H264HIGH,
	PROFILE_VC1SIMPLE,
	PROFILE_VC1MAIN,
	PROFILE_VC1ADVANCED,
	PROFILE_H263BASELINE
	} VideoProfile;

	typedef enum {
	AVC_DELIMITER_LENGTHPREFIX = 0,
	AVC_DELIMITER_ANNEXB
	} AVCDelimiterType;

	typedef enum {
	VIDEO_ENC_NONIR, // Non intra refresh
	VIDEO_ENC_CIR, // Cyclic intra refresh
	VIDEO_ENC_AIR, // Adaptive intra refresh
	VIDEO_ENC_BOTH,
	VIDEO_ENC_LAST
	} VideoIntraRefreshType;

	enum VideoBufferSharingMode {
	BUFFER_SHARING_NONE = 1, //Means non shared buffer mode
	BUFFER_SHARING_CI = 2,
	BUFFER_SHARING_V4L2 = 4,
	BUFFER_SHARING_SURFACE = 8,
	BUFFER_SHARING_USRPTR = 16,
	BUFFER_SHARING_GFXHANDLE = 32,
	BUFFER_SHARING_KBUFHANDLE = 64,
	BUFFER_LAST
	};

	typedef enum {
	FTYPE_UNKNOWN = 0, // Unknown
	FTYPE_I = 1, // General I-frame type
	FTYPE_P = 2, // General P-frame type
	FTYPE_B = 3, // General B-frame type
	FTYPE_SI = 4, // H.263 SI-frame type
	FTYPE_SP = 5, // H.263 SP-frame type
	FTYPE_EI = 6, // H.264 EI-frame type
	FTYPE_EP = 7, // H.264 EP-frame type
	FTYPE_S = 8, // MPEG-4 S-frame type
	FTYPE_IDR = 9, // IDR-frame type
	}FrameType;

	//function call mode
	#define FUNC_BLOCK 0xFFFFFFFF
	#define FUNC_NONBLOCK 0

	// Output buffer flag
	#define ENCODE_BUFFERFLAG_ENDOFFRAME 0x00000001
	#define ENCODE_BUFFERFLAG_PARTIALFRAME 0x00000002
	#define ENCODE_BUFFERFLAG_SYNCFRAME 0x00000004
	#define ENCODE_BUFFERFLAG_CODECCONFIG 0x00000008
	#define ENCODE_BUFFERFLAG_DATACORRUPT 0x00000010
	#define ENCODE_BUFFERFLAG_DATAINVALID 0x00000020
	#define ENCODE_BUFFERFLAG_SLICEOVERFOLOW 0x00000040
	#define ENCODE_BUFFERFLAG_ENDOFSTREAM 0x00000080
	#define ENCODE_BUFFERFLAG_NSTOPFRAME 0x00000100

	typedef struct {
	uint8_t *data;
	uint32_t bufferSize; //buffer size
	uint32_t dataSize; //actual size
	uint32_t offset; //buffer offset
	uint32_t remainingSize;
	int flag; //Key frame, Codec Data etc
	VideoOutputFormat format; //output format
	int64_t timeStamp; //reserved
	FrameType type;
	void *priv; //indicate corresponding input data
	} VideoEncOutputBuffer;

	typedef struct {
	uint8_t *data;
	uint32_t size;
	bool bufAvailable; //To indicate whether this buffer can be reused
	int64_t timeStamp; //reserved
	FrameType type; //frame type expected to be encoded
	int flag; // flag to indicate buffer property
	void *priv; //indicate corresponding input data
	} VideoEncRawBuffer;

	struct VideoEncSurfaceBuffer {
	VASurfaceID surface;
	uint8_t *usrptr;
	uint32_t index;
	bool bufAvailable;
	VideoEncSurfaceBuffer *next;
	};

	struct CirParams {
	uint32_t cir_num_mbs;

	CirParams &operator=(const CirParams &other) {
	if (this == &other) return *this;

	this->cir_num_mbs = other.cir_num_mbs;
	return *this;
	}
	};

	struct AirParams {
	uint32_t airMBs;
	uint32_t airThreshold;
	uint32_t airAuto;

	AirParams &operator=(const AirParams &other) {
	if (this == &other) return *this;

	this->airMBs= other.airMBs;
	this->airThreshold= other.airThreshold;
	this->airAuto = other.airAuto;
	return *this;
	}
	};

	struct VideoFrameRate {
	uint32_t frameRateNum;
	uint32_t frameRateDenom;

	VideoFrameRate &operator=(const VideoFrameRate &other) {
	if (this == &other) return *this;

	this->frameRateNum = other.frameRateNum;
	this->frameRateDenom = other.frameRateDenom;
	return *this;
	}
	};

	struct VideoResolution {
	uint32_t width;
	uint32_t height;

	VideoResolution &operator=(const VideoResolution &other) {
	if (this == &other) return *this;

	this->width = other.width;
	this->height = other.height;
	return *this;
	}
	};

	struct VideoRateControlParams {
	uint32_t bitRate;
	uint32_t initQP;
	uint32_t minQP;
	uint32_t maxQP;
	uint32_t I_minQP;
	uint32_t I_maxQP;
	uint32_t windowSize;
	uint32_t targetPercentage;
	uint32_t disableFrameSkip;
	uint32_t disableBitsStuffing;
	uint32_t enableIntraFrameQPControl;
	uint32_t temporalFrameRate;
	uint32_t temporalID;

	VideoRateControlParams &operator=(const VideoRateControlParams &other) {
	if (this == &other) return *this;

	this->bitRate = other.bitRate;
	this->initQP = other.initQP;
	this->minQP = other.minQP;
	this->maxQP = other.maxQP;
	this->I_minQP = other.I_minQP;
	this->I_maxQP = other.I_maxQP;
	this->windowSize = other.windowSize;
	this->targetPercentage = other.targetPercentage;
	this->disableFrameSkip = other.disableFrameSkip;
	this->disableBitsStuffing = other.disableBitsStuffing;
	this->enableIntraFrameQPControl = other.enableIntraFrameQPControl;
	this->temporalFrameRate = other.temporalFrameRate;
	this->temporalID = other.temporalID;

	return *this;
	}
	};

	struct SliceNum {
	uint32_t iSliceNum;
	uint32_t pSliceNum;

	SliceNum &operator=(const SliceNum &other) {
	if (this == &other) return *this;

	this->iSliceNum = other.iSliceNum;
	this->pSliceNum= other.pSliceNum;
	return *this;
	}
	};

	typedef struct {
	uint32_t realWidth;
	uint32_t realHeight;
	uint32_t lumaStride;
	uint32_t chromStride;
	uint32_t format;
	} ExternalBufferAttrib;

	struct Cropping {
	uint32_t LeftOffset;
	uint32_t RightOffset;
	uint32_t TopOffset;
	uint32_t BottomOffset;

	Cropping &operator=(const Cropping &other) {
	if (this == &other) return *this;

	this->LeftOffset = other.LeftOffset;
	this->RightOffset = other.RightOffset;
	this->TopOffset = other.TopOffset;
	this->BottomOffset = other.BottomOffset;
	return *this;
	}
	};

	struct SamplingAspectRatio {
	uint16_t SarWidth;
	uint16_t SarHeight;

	SamplingAspectRatio &operator=(const SamplingAspectRatio &other) {
	if (this == &other) return *this;

	this->SarWidth = other.SarWidth;
	this->SarHeight = other.SarHeight;
	return *this;
	}
	};

	enum VideoParamConfigType {
	VideoParamsTypeStartUnused = 0x01000000,
	VideoParamsTypeCommon,
	VideoParamsTypeAVC,
	VideoParamsTypeH263,
	VideoParamsTypeMP4,
	VideoParamsTypeVC1,
	VideoParamsTypeUpSteamBuffer,
	VideoParamsTypeUsrptrBuffer,
	VideoParamsTypeHRD,
	VideoParamsTypeStoreMetaDataInBuffers,
	VideoParamsTypeProfileLevel,
	VideoParamsTypeVP8,
	VideoParamsTypeTemporalLayer,

	VideoConfigTypeFrameRate,
	VideoConfigTypeBitRate,
	VideoConfigTypeResolution,
	VideoConfigTypeIntraRefreshType,
	VideoConfigTypeAIR,
	VideoConfigTypeCyclicFrameInterval,
	VideoConfigTypeAVCIntraPeriod,
	VideoConfigTypeNALSize,
	VideoConfigTypeIDRRequest,
	VideoConfigTypeSliceNum,
	VideoConfigTypeVP8,
	VideoConfigTypeVP8ReferenceFrame,
	VideoConfigTypeCIR,
	VideoConfigTypeVP8MaxFrameSizeRatio,
	VideoConfigTypeTemperalLayerBitrateFramerate,

	VideoParamsConfigExtension
	};

	struct VideoParamConfigSet {
	VideoParamConfigType type;
	uint32_t size;

	VideoParamConfigSet &operator=(const VideoParamConfigSet &other) {
	if (this == &other) return *this;
	this->type = other.type;
	this->size = other.size;
	return *this;
	}
	};

	struct VideoParamsCommon : VideoParamConfigSet {

	VAProfile profile;
	uint8_t level;
	VideoRawFormat rawFormat;
	VideoResolution resolution;
	VideoFrameRate frameRate;
	int32_t intraPeriod;
	VideoRateControl rcMode;
	VideoRateControlParams rcParams;
	VideoIntraRefreshType refreshType;
	int32_t cyclicFrameInterval;
	AirParams airParams;
	CirParams cirParams;
	uint32_t disableDeblocking;
	bool syncEncMode;
	//CodedBuffer properties
	uint32_t codedBufNum;
	uint32_t numberOfLayer;
	uint32_t nPeriodicity;
	uint32_t nLayerID[32];

	VideoParamsCommon() {
	type = VideoParamsTypeCommon;
	size = sizeof(VideoParamsCommon);
	}

	VideoParamsCommon &operator=(const VideoParamsCommon &other) {
	if (this == &other) return *this;

	VideoParamConfigSet::operator=(other);
	this->profile = other.profile;
	this->level = other.level;
	this->rawFormat = other.rawFormat;
	this->resolution = other.resolution;
	this->frameRate = other.frameRate;
	this->intraPeriod = other.intraPeriod;
	this->rcMode = other.rcMode;
	this->rcParams = other.rcParams;
	this->refreshType = other.refreshType;
	this->cyclicFrameInterval = other.cyclicFrameInterval;
	this->airParams = other.airParams;
	this->disableDeblocking = other.disableDeblocking;
	this->syncEncMode = other.syncEncMode;
	this->codedBufNum = other.codedBufNum;
	this->numberOfLayer = other.numberOfLayer;
	return *this;
	}
	};

	struct VideoParamsAVC : VideoParamConfigSet {
	uint32_t basicUnitSize; //for rate control
	uint8_t VUIFlag;
	int32_t maxSliceSize;
	uint32_t idrInterval;
	uint32_t ipPeriod;
	uint32_t refFrames;
	SliceNum sliceNum;
	AVCDelimiterType delimiterType;
	Cropping crop;
	SamplingAspectRatio SAR;
	uint32_t refIdx10ActiveMinus1;
	uint32_t refIdx11ActiveMinus1;
	bool bFrameMBsOnly;
	bool bMBAFF;
	bool bEntropyCodingCABAC;
	bool bWeightedPPrediction;
	uint32_t weightedBipredicitonMode;
	bool bConstIpred ;
	bool bDirect8x8Inference;
	bool bDirectSpatialTemporal;
	uint32_t cabacInitIdc;

	VideoParamsAVC() {
	type = VideoParamsTypeAVC;
	size = sizeof(VideoParamsAVC);
	}

	VideoParamsAVC &operator=(const VideoParamsAVC &other) {
	if (this == &other) return *this;

	VideoParamConfigSet::operator=(other);
	this->basicUnitSize = other.basicUnitSize;
	this->VUIFlag = other.VUIFlag;
	this->maxSliceSize = other.maxSliceSize;
	this->idrInterval = other.idrInterval;
	this->ipPeriod = other.ipPeriod;
	this->refFrames = other.refFrames;
	this->sliceNum = other.sliceNum;
	this->delimiterType = other.delimiterType;
	this->crop.LeftOffset = other.crop.LeftOffset;
	this->crop.RightOffset = other.crop.RightOffset;
	this->crop.TopOffset = other.crop.TopOffset;
	this->crop.BottomOffset = other.crop.BottomOffset;
	this->SAR.SarWidth = other.SAR.SarWidth;
	this->SAR.SarHeight = other.SAR.SarHeight;

	this->refIdx10ActiveMinus1 = other.refIdx10ActiveMinus1;
	this->refIdx11ActiveMinus1 = other.refIdx11ActiveMinus1;
	this->bFrameMBsOnly = other.bFrameMBsOnly;
	this->bMBAFF = other.bMBAFF;
	this->bEntropyCodingCABAC = other.bEntropyCodingCABAC;
	this->bWeightedPPrediction = other.bWeightedPPrediction;
	this->weightedBipredicitonMode = other.weightedBipredicitonMode;
	this->bConstIpred = other.bConstIpred;
	this->bDirect8x8Inference = other.bDirect8x8Inference;
	this->bDirectSpatialTemporal = other.bDirectSpatialTemporal;
	this->cabacInitIdc = other.cabacInitIdc;
	return *this;
	}
	};

	struct VideoParamsUpstreamBuffer : VideoParamConfigSet {

	VideoParamsUpstreamBuffer() {
	type = VideoParamsTypeUpSteamBuffer;
	size = sizeof(VideoParamsUpstreamBuffer);
	}

	VideoBufferSharingMode bufferMode;
	intptr_t *bufList;
	uint32_t bufCnt;
	ExternalBufferAttrib *bufAttrib;
	void *display;
	};

	struct VideoParamsUsrptrBuffer : VideoParamConfigSet {

	VideoParamsUsrptrBuffer() {
	type = VideoParamsTypeUsrptrBuffer;
	size = sizeof(VideoParamsUsrptrBuffer);
	}

	//input
	uint32_t width;
	uint32_t height;
	uint32_t format;
	uint32_t expectedSize;

	//output
	uint32_t actualSize;
	uint32_t stride;
	uint8_t *usrPtr;
	};

	struct VideoParamsHRD : VideoParamConfigSet {

	VideoParamsHRD() {
	type = VideoParamsTypeHRD;
	size = sizeof(VideoParamsHRD);
	}

	uint32_t bufferSize;
	uint32_t initBufferFullness;
	};

	struct VideoParamsStoreMetaDataInBuffers : VideoParamConfigSet {

	VideoParamsStoreMetaDataInBuffers() {
	type = VideoParamsTypeStoreMetaDataInBuffers;
	size = sizeof(VideoParamsStoreMetaDataInBuffers);
	}

	bool isEnabled;
	};

	struct VideoParamsProfileLevel : VideoParamConfigSet {

	VideoParamsProfileLevel() {
	type = VideoParamsTypeProfileLevel;
	size = sizeof(VideoParamsProfileLevel);
	}

	VAProfile profile;
	uint32_t level;
	bool isSupported;
	};

	struct VideoParamsTemporalLayer : VideoParamConfigSet {

	VideoParamsTemporalLayer() {
	type = VideoParamsTypeTemporalLayer;
	size = sizeof(VideoParamsTemporalLayer);
	}

	uint32_t numberOfLayer;
	uint32_t nPeriodicity;
	uint32_t nLayerID[32];
	};


	struct VideoConfigFrameRate : VideoParamConfigSet {

	VideoConfigFrameRate() {
	type = VideoConfigTypeFrameRate;
	size = sizeof(VideoConfigFrameRate);
	}

	VideoFrameRate frameRate;
	};

	struct VideoConfigBitRate : VideoParamConfigSet {

	VideoConfigBitRate() {
	type = VideoConfigTypeBitRate;
	size = sizeof(VideoConfigBitRate);
	}

	VideoRateControlParams rcParams;
	};

	struct VideoConfigAVCIntraPeriod : VideoParamConfigSet {

	VideoConfigAVCIntraPeriod() {
	type = VideoConfigTypeAVCIntraPeriod;
	size = sizeof(VideoConfigAVCIntraPeriod);
	}

	uint32_t idrInterval; //How many Intra frame will have a IDR frame
	uint32_t intraPeriod;
	uint32_t ipPeriod;
	};

	struct VideoConfigNALSize : VideoParamConfigSet {

	VideoConfigNALSize() {
	type = VideoConfigTypeNALSize;
	size = sizeof(VideoConfigNALSize);
	}

	uint32_t maxSliceSize;
	};

	struct VideoConfigResolution : VideoParamConfigSet {

	VideoConfigResolution() {
	type = VideoConfigTypeResolution;
	size = sizeof(VideoConfigResolution);
	}

	VideoResolution resolution;
	};

	struct VideoConfigIntraRefreshType : VideoParamConfigSet {

	VideoConfigIntraRefreshType() {
	type = VideoConfigTypeIntraRefreshType;
	size = sizeof(VideoConfigIntraRefreshType);
	}

	VideoIntraRefreshType refreshType;
	};

	struct VideoConfigCyclicFrameInterval : VideoParamConfigSet {

	VideoConfigCyclicFrameInterval() {
	type = VideoConfigTypeCyclicFrameInterval;
	size = sizeof(VideoConfigCyclicFrameInterval);
	}

	int32_t cyclicFrameInterval;
	};

	struct VideoConfigCIR : VideoParamConfigSet {

	VideoConfigCIR() {
	type = VideoConfigTypeCIR;
	size = sizeof(VideoConfigCIR);
	}

	CirParams cirParams;
	};

	struct VideoConfigAIR : VideoParamConfigSet {

	VideoConfigAIR() {
	type = VideoConfigTypeAIR;
	size = sizeof(VideoConfigAIR);
	}

	AirParams airParams;
	};

	struct VideoConfigSliceNum : VideoParamConfigSet {

	VideoConfigSliceNum() {
	type = VideoConfigTypeSliceNum;
	size = sizeof(VideoConfigSliceNum);
	}

	SliceNum sliceNum;
	};

	struct VideoParamsVP8 : VideoParamConfigSet {

	uint32_t profile;
	uint32_t error_resilient;
	uint32_t num_token_partitions;
	uint32_t kf_auto;
	uint32_t kf_min_dist;
	uint32_t kf_max_dist;
	uint32_t min_qp;
	uint32_t max_qp;
	uint32_t init_qp;
	uint32_t rc_undershoot;
	uint32_t rc_overshoot;
	uint32_t hrd_buf_size;
	uint32_t hrd_buf_initial_fullness;
	uint32_t hrd_buf_optimal_fullness;
	uint32_t max_frame_size_ratio;

	VideoParamsVP8() {
	type = VideoParamsTypeVP8;
	size = sizeof(VideoParamsVP8);
	}
	};

	struct VideoConfigVP8 : VideoParamConfigSet {

	uint32_t force_kf;
	uint32_t refresh_entropy_probs;
	uint32_t value;
	unsigned char sharpness_level;

	VideoConfigVP8 () {
	type = VideoConfigTypeVP8;
	size = sizeof(VideoConfigVP8);
	}
	};

	struct VideoConfigVP8ReferenceFrame : VideoParamConfigSet {

	uint32_t no_ref_last;
	uint32_t no_ref_gf;
	uint32_t no_ref_arf;
	uint32_t refresh_last;
	uint32_t refresh_golden_frame;
	uint32_t refresh_alternate_frame;

	VideoConfigVP8ReferenceFrame () {
	type = VideoConfigTypeVP8ReferenceFrame;
	size = sizeof(VideoConfigVP8ReferenceFrame);
	}
	};

	struct VideoConfigVP8MaxFrameSizeRatio : VideoParamConfigSet {

	VideoConfigVP8MaxFrameSizeRatio() {
	type = VideoConfigTypeVP8MaxFrameSizeRatio;
	size = sizeof(VideoConfigVP8MaxFrameSizeRatio);
	}

	uint32_t max_frame_size_ratio;
	};

	struct VideoConfigTemperalLayerBitrateFramerate : VideoParamConfigSet {

	VideoConfigTemperalLayerBitrateFramerate() {
	type = VideoConfigTypeTemperalLayerBitrateFramerate;
	size = sizeof(VideoConfigTemperalLayerBitrateFramerate);
	}

	uint32_t nLayerID;
	uint32_t bitRate;
	uint32_t frameRate;
	};

	#endif /* __VIDEO_ENCODER_DEF_H__ */