/* ------------------------------------------------------------------ * Copyright (C) 1998-2009 PacketVideo * * 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 _MP4ENC_API_H_ #define _MP4ENC_API_H_ #include #ifndef _PV_TYPES_ #define _PV_TYPES_ typedef unsigned char UChar; typedef char Char; typedef unsigned int UInt; typedef int Int; typedef unsigned short UShort; typedef short Short; typedef unsigned int Bool; typedef uint32_t ULong; #define PV_CODEC_INIT 0 #define PV_CODEC_STOP 1 #endif #define PV_TRUE 1 #define PV_FALSE 0 typedef enum { SHORT_HEADER, SHORT_HEADER_WITH_ERR_RES, H263_MODE, H263_MODE_WITH_ERR_RES, DATA_PARTITIONING_MODE, COMBINE_MODE_NO_ERR_RES, COMBINE_MODE_WITH_ERR_RES } MP4EncodingMode; typedef enum { CONSTANT_Q, CBR_1, VBR_1, CBR_2, VBR_2, CBR_LOWDELAY } MP4RateControlType; typedef enum { PASS1, PASS2 } PassNum; typedef enum { PV_OFF, PV_ON } ParamEncMode; /* {SPL0, SPL1, SPL2, SPL3, CPL1, CPL2, CPL2, CPL2} , SPL0: Simple Profile@Level0 , CPL1: Core Profile@Level1 */ /* {SSPL0, SSPL1, SSPL2, SSPL2, CSPL1, CSPL2, CSPL3, CSPL3} , SSPL0: Simple Scalable Profile@Level0, CPL1: Core Scalable Profile@Level1 */ typedef enum { /* Non-scalable profile */ SIMPLE_PROFILE_LEVEL0 = 0, SIMPLE_PROFILE_LEVEL1, SIMPLE_PROFILE_LEVEL2, SIMPLE_PROFILE_LEVEL3, CORE_PROFILE_LEVEL1, CORE_PROFILE_LEVEL2, /* Scalable profile */ SIMPLE_SCALABLE_PROFILE_LEVEL0 = 6, SIMPLE_SCALABLE_PROFILE_LEVEL1, SIMPLE_SCALABLE_PROFILE_LEVEL2, CORE_SCALABLE_PROFILE_LEVEL1 = 10, CORE_SCALABLE_PROFILE_LEVEL2, CORE_SCALABLE_PROFILE_LEVEL3 } ProfileLevelType; typedef struct tagMP4HintTrack { UChar MTB; UChar LayerID; UChar CodeType; UChar RefSelCode; } MP4HintTrack; typedef struct tagvideoEncControls { void *videoEncoderData; Int videoEncoderInit; } VideoEncControls; typedef struct tagvideoEncFrameIO { UChar *yChan; /* pointer to Y */ UChar *uChan; /* pointer to U */ UChar *vChan; /* pointer to V */ Int height; /* height for Y */ Int pitch; /* stride for Y */ ULong timestamp; /* modulo timestamp in millisecond*/ } VideoEncFrameIO ; /** @brief Encoding options structure */ typedef struct tagvideoEncOptions { /** @brief Sets the encoding mode, defined by the above enumaration. If there are conflicts between the encoding mode * and subsequent encoding options, encoding mode take precedent over encoding options. */ MP4EncodingMode encMode; /** @brief Sets the number of bytes per packet, only used in DATA_PARTITIONING_MODE or COMBINE_MODE_WITH_ERR_RES mode. * The resync marker will be inserted as often as the size of the packet.*/ Int packetSize; /** @brief Selects MPEG-4/H.263 profile and level, if specified other encoding options must conform with it. */ ProfileLevelType profile_level; /** @brief Enables reversible variable length code (RVLC) mode. Normally it is set to PV_OFF.*/ ParamEncMode rvlcEnable; /** @brief Set the frequency of GOB header interval */ Int gobHeaderInterval; /** @brief Sets the number of bitstream layers: 1 is base only: 2 is base + enhancement */ Int numLayers; /** @brief Sets the number of ticks per second used for timing information encoded in MPEG4 bitstream.*/ Int timeIncRes; /** @brief Sets the number of ticks in time increment resolution between 2 source frames (equivalent to source frame rate). */ Int tickPerSrc; /** @brief Specifies encoded heights in pixels, height[n] represents the n-th layer's height. */ Int encHeight[2]; /** @brief Specifies encoded widths in pixels, width[n] represents the n-th layer's width.*/ Int encWidth[2]; /** @brief Specifies target frame rates in frames per second, frameRate[n] represents the n-th layer's target frame rate.*/ float encFrameRate[2]; /** @brief Specifies target bit rates in bits per second unit, bitRate[n] represents the n-th layer's target bit rate. */ Int bitRate[2]; /** @brief Specifies default quantization parameters for I-Vop. Iquant[n] represents the n-th layer default quantization parameter. The default is Iquant[0]=12.*/ Int iQuant[2]; /** @brief Specifies default quantization parameters for P-Vop. Pquant[n] represents the n-th layer default quantization parameter. The default is Pquant[0]=10.*/ Int pQuant[2]; /** @brief specifies quantization mode (H263 mode or MPEG mode) of the encoded base and enhance layer (if any). * In Simple and Simple Scalable profile, we use only H263 mode.*/ Int quantType[2]; /** @brief Sets rate control algorithm, one of (CONSTANT_Q, CBR_1, or VBR_1). * CONSTANT_Q uses the default quantization values to encode the sequence. * CBR_1 (constant bit rate) controls the output at a desired bit rate * VBR_1 (variable bit rate) gives better picture quality at the expense of bit rate fluctuation * Note: type=CONSTANT_Q produces sequences with arbitrary bit rate. * type=CBR_1 produces sequences suitable for streaming. * type=VBR_1 produces sequences suitable for download. */ MP4RateControlType rcType; /** @brief Sets the VBV buffer size (in the unit of second delay) used to prevent buffer overflow and underflow * on the decoder side. This function is redundant to PVSetVBVSize. Either one of them is used at a time. */ float vbvDelay; /** @brief Specifies whether frame skipping is permitted or not. When rate control type is set to CONSTANT_Q * frame skipping is automatically banned. In CBR_1 and VBR_1 rate control, frame skipping is allowed by default. * However, users can force no frame skipping with this flag, but buffer constraint may be violated.*/ ParamEncMode noFrameSkipped; /** @brief Sets the maximum number of P-frames between two I-frames. I-frame mode is periodically forced * if no I-frame is encoded after the specified period to add error resiliency and help resynchronize in case of errors. * If scene change detection can add additional I-frame if new scenes are detected. * intraPeriod is the I frame interval in terms of second. * intraPeriod =0 indicates I-frame encoding only; * intraPeriod = -1 indicates I-frame followed by all P-frames; (default) * intraPeriod = N, indicates the number of P-frames between 2 I-frames.*/ Int intraPeriod; /** @brief Specifies the number Intra MBs to be refreshed in a P-frame. */ Int numIntraMB; /** * @brief Specifies whether the scene change detection (SCD) is enabled or disabled. * With SCD enable, when a new scene is detected, I-Vop mode will be used for the first frame of * the new scene resulting in better picture quality. An insertion of an I-VOP resets the intraPeriod * specified by the IntraPeriodAPI().*/ ParamEncMode sceneDetect; /** @brief Specifies the search range of motion estimation search. Larger value implies * larger search range, better motion vector match, but more complexity. * If searchRange=n, the motion vector search is in the range of [-n,n-1] pixels. * If half-pel mode is on, the range is [-n, (n-1)+1/2] pixels. The default value is 16.*/ Int searchRange; /** @brief Turns on/off 8x8 block motion estimation and compensation. * If on, four motion vectors may be used for motion estimation and compensation of a macroblock, * otherwise one motion vector per macroblock is used. When the 8x8 MV is off, the total encoding complexity * is less but the image quality is also worse. Therefore, it can be used in complexity limited environment.*/ ParamEncMode mv8x8Enable; /** @brief Set the threshold for using intra DC VLC. * Value must range from 0-7.*/ Int intraDCVlcTh; /** @brief This flag turns on the use of AC prediction */ Bool useACPred; } VideoEncOptions; #ifdef __cplusplus extern "C" { #endif /* API's */ /* Always start with this one !!*/ /** * @brief Gets default encoding options. This way users only have to set relevant encoding options and leave the one * they are unsure of. * @encOption Pointer to VideoEncOption structure. * @encUseCase This value determines the set of default encoding options, for example, different encoding options * are assigned to streaming use-case as compared to download use-case. It can be project dependent too. * @return true for correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVGetDefaultEncOption(VideoEncOptions *encOption, Int encUseCase); /** * @brief Verifies the consistency of encoding parameters, allocates memory needed and set necessary internal variables. * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @return true for correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVInitVideoEncoder(VideoEncControls *encCtrl, VideoEncOptions *encOption); /* acquiring encoder info APIs */ /** * @brief This function returns VOL header. It has to be called before the frame is encoded. If so, * then the VOL Header is passed back to the application. Then all frames that are encoded do not contain the VOL Header. * If you do not call the API then the VOL Header is passed within the first frame that is encoded. * The behavior is unknown if it is called after the first frame is encoded. It is mainly used for MP4 file format authoring. * @param encCtrl is video encoder control structure that is always passed as input in all APIs. * @param volHeader is the Buffer for VOL header. * @param size is the size of VOL header in bytes. * @param layer is the layer of the requested VOL header. * @return true for correct operation; false if error happens. */ OSCL_IMPORT_REF Bool PVGetVolHeader(VideoEncControls *encCtrl, UChar *volHeader, Int *size, Int layer); /** * @brief This function returns the profile and level in H.263 coding when the encoding parameters are set * @param encCtrl is video encoder control structure that is always passed as input in all APIs. * @param profileID is the pointer of the profile ID. Right now we only support profile 0 * @param levelID is the pointer of the level ID that could be 10-70. * @return true for correct operation; false if error happens. */ OSCL_IMPORT_REF Bool PVGetH263ProfileLevelID(VideoEncControls *encCtrl, Int *profileID, Int *levelID); /** * @brief This function returns the profile and level of MPEG4 when the encoding parameters are set * @param encCtrl is video encoder control structure that is always passed as input in all APIs. * @param profile_level is the pointer of the profile enumeration * @param nLayer is the index of the layer of interest * @return true for correct operation; false if error happens. */ OSCL_IMPORT_REF Bool PVGetMPEG4ProfileLevelID(VideoEncControls *encCtrl, Int *profile_level, Int nLayer); /** * @brief This function returns maximum frame size in bytes * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @param maxVideoFrameSize is the pointer of the maximum frame size * @return true for correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVGetMaxVideoFrameSize(VideoEncControls *encCtrl, Int *maxVideoFrameSize); #ifndef LIMITED_API /** * @brief This function returns the total amount of memory (in bytes) allocated by the encoder library. * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @return true for correct operation; false if error happens */ OSCL_IMPORT_REF Int PVGetEncMemoryUsage(VideoEncControls *encCtrl); /** * @brief This function is used by PVAuthor to get the size of the VBV buffer. * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @param VBVSize is the pointer of The size of the VBV buffer in bytes. * @return true for correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVGetVBVSize(VideoEncControls *encCtrl, Int *VBVSize); #endif /** * @brief This function encodes a frame in YUV 4:2:0 format from the *video_in input frame and put the result in YUV * for reconstructed frame and bstream for MPEG4 bitstream. The application is required to allocate memory for * bitstream buffer.The size of the input bitstream memory and the returned output buffer are specified in the * size field. The encoded layer is specified by the nLayer field. If the current frame is not encoded, size=0 and nLayer=-1. * Note: If the allocated buffer size is too small to fit a bitstream of a frame, then those extra bits will be left out * which can cause syntactic error at the decoder side. * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @param vid_in is the pointer to VideoEncFrameIO structure containing the YUV input data * @param vid_out is the pointer to VideoEncFrameIO structure containing the reconstructed YUV output data after encoding * @param nextModTime is the timestamp encoder expects from the next input * @param bstream is the pointer to MPEG4 bitstream buffer * @param size is the size of bitstream buffer allocated (input) and size of the encoded bitstream (output). * @param nLayer is the layer of the encoded frame either 0 for base or 1 for enhancement layer. The value -1 indicates skipped frame due to buffer overflow. * @return true newfor correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVEncodeVideoFrame(VideoEncControls *encCtrl, VideoEncFrameIO *vid_in, VideoEncFrameIO *vid_out, ULong *nextModTime, UChar *bstream, Int *size, Int *nLayer); /** * @brief This function is used to query overrun buffer. It is used when PVEncodeVideoFrame.returns size that is * larger than the input size. * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @return Pointer to the overrun buffer. NULL if overrun buffer is not used. */ OSCL_IMPORT_REF UChar* PVGetOverrunBuffer(VideoEncControls *encCtrl); #ifndef NO_SLICE_ENCODE /* This set of APIs are not working. This functionality has been partially replaced by the introduction of overrun buffer. */ /* slice-based coding */ /** * @brief This function sets the input YUV frame and timestamp to be encoded by the slice-based encoding function PVEncodeSlice(). * It also return the memory address the reconstructed frame will be copied to (in advance) and the coded layer number. * The encoder library processes the timestamp and determine if this frame is to be encoded or not. If the current frame * is not encoded, nLayer=-1. For frame-based motion estimation, the motion estimation of the entire frame is also performed * in this function. For MB-based motion estimation, the motion vector is searched while coding each MB in PVEncodeSlice(). * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @param vid_in is the pointer to VideoEncFrameIO structure containing the YUV input data * @param nextModTime is the timestamp encoder expects from the next input if this input is rejected and nLayer is set to -1. * @param nLayer is the layer of the encoded frame either 0 for base or 1 for enhancement layer. The value -1 indicates skipped frame due to buffer overflow. * @return true newfor correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVEncodeFrameSet(VideoEncControls *encCtrl, VideoEncFrameIO *vid_in, ULong *nextModTime, Int *nLayer); /** * @brief This function encodes a GOB (short header mode) or a packet (data partitioning mode or combined mode with resync marker) * and output the reconstructed frame and MPEG4 bitstream. The application is required to allocate memory for the bitstream buffer. * The size of the input bitstream memory and the returned output buffer are specified in the size field. If the buffer size is * smaller than the requested packet size, user has to call PVEncodeSlice again to get the rest of that pending packet before moving * on to the next packet. For the combined mode without resync marker, the function returns when the buffer is full. * The end-of-frame flag indicates the completion of the frame encoding. Next frame must be sent in with PVEncodeFrameSet(). * At the end-of-frame, the next video input address and the next video modulo timestamp will be set. * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @param bstream is the pointer to MPEG4 bitstream buffer. * @param size is the size of bitstream buffer allocated (input) and size of the encoded bitstream (output). * @param endofFrame is a flag indicating the end-of-frame, '1'. Otherwise, '0'. When PVSetNoCurrentFrameSkip is OFF, * end-of-frame '-1' indicates current frame bitstream must be disregarded. * @param vid_out is the pointer to VideoEncFrameIO structure containing the reconstructed YUV output data after encoding * @param nextModTime is the timestamp encoder expects from the next input * @return true newfor correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVEncodeSlice(VideoEncControls *encCtrl, UChar *bstream, Int *size, Int *endofFrame, VideoEncFrameIO *vid_out, ULong *nextModTime); #endif /** * @brief This function returns MP4 file format hint track information. * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @param info is the structure for MP4 hint track information * @return true for correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVGetHintTrack(VideoEncControls *encCtrl, MP4HintTrack *info); #ifndef LIMITED_API /** * @brief updates target frame rates of the encoded base and enhance layer (if any) while encoding operation is ongoing. * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @param frameRate is the pointers to array of target frame rates in frames per second, * frameRate[n] represents the n-th layer's target frame rate. * @return true for correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVUpdateEncFrameRate(VideoEncControls *encCtrl, float *frameRate); /* for 2-way */ /** * @brief updates target bit rates of the encoded base and enhance layer (if any) while encoding operation is ongoing. * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @param bitRate is the pointers to array of target bit rates in bits per second unit, * bitRate[n] represents the n-th layer's target bit rate. * @return true for correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVUpdateBitRate(VideoEncControls *encCtrl, Int *bitRate); /* for 2-way */ /** * @brief updates the INTRA frame refresh interval while encoding operation is ongoing. * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @param aIFramePeriod is a new value of INTRA frame interval in the unit of number of coded frames. * @return true for correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVUpdateIFrameInterval(VideoEncControls *encCtrl, Int aIFramePeriod);/* for 2-way */ /** * @brief specifies the number Intra MBs to be refreshed * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @param numMB is the number of Intra MBs to be refreshed * @return true for correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVUpdateNumIntraMBRefresh(VideoEncControls *encCtrl, Int numMB); /* for 2-way */ /** * @brief This function is called whenever users want the next base frame to be encoded as an I-Vop. * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @return true for correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVIFrameRequest(VideoEncControls *encCtrl); /* for 2-way */ #endif // LIMITED_API /* finishing encoder */ /** * @brief This function frees up all the memory allocated by the encoder library. * @param encCtrl is video encoder control structure that is always passed as input in all APIs * @return true for correct operation; false if error happens */ OSCL_IMPORT_REF Bool PVCleanUpVideoEncoder(VideoEncControls *encCtrl); #ifdef __cplusplus } #endif #endif /* _MP4ENC_API_H_ */