mediasdkjpeg-man.md

SDK Developer Reference for JPEG/Motion JPEG

Media SDK API Version 1.30

LEGAL DISCLAIMER

Optimization Notice

• Overview
  • Document Conventions
  • Acronyms and Abbreviations
• Architecture & Programming Guide
  • Decoding Procedure
  • Encoding Procedure
• Structure Reference Extension
  • mfxInfoMFX
  • mfxExtJPEGQuantTables
  • mfxExtJPEGHuffmanTables
• Enumerator Reference Extension
  • CodecFormatFourCC
  • CodecProfile
  • ChromaFormatIdc
  • Rotation
  • ExtendedBufferID
  • JPEG Color Format
  • JPEG Scan Type

Overview

Intel® Media Software Development Kit – SDK is a software development library that exposes the media acceleration capabilities of Intel platforms for decoding, encoding and video processing. The API library covers a wide range of Intel platforms.

This document describes the extension to the SDK for JPEG* processing.

Document Conventions

The SDK uses the Verdana typeface for normal prose. With the exception of section headings and the table of contents, all code-related items appear in the Courier New typeface.

Acronyms and Abbreviations

SDK	Intel® Media Software Development Kit
API	Application Programming Interface
DECODE	Video decoding
EXIF*	A image file format used by digital cameras
JFIF*	A image file format used by digital cameras
JPEG*	A picture compression algorithm
Motion JPEG	A motion picture compression algorithm utilizing JPEG
NV12	A YCbCr 4:2:0 color format for raw video frames
RGB4	A RGB color format for raw photo pictures, or RGB32

Architecture & Programming Guide

The SDK extension for JPEG*/motion JPEG requires the application to use an additional include file, mfxjpeg.h, in addition to the regular SDK include files. No additional library is required at link time.

Include these files:
#include “mfxvideo.h”       /* SDK functions in C */
#include “mfxvideo++.h”     /* Optional for C++ development */
#include “mfxjpeg.h”        /* JPEG development */
Link this library:
    libmfx.so              /* The SDK dispatcher library */

The SDK extends the codec identifier MFX_CODEC_JPEG for JPEG and motion JPEG processing.

Decoding Procedure

The application can use the same decoding procedures for JPEG/motion JPEG decoding, as illustrated in Figure 1. See the SDK API Reference Manual for the description of the decoding procedures.

Figure 1: Pseudo Code of the JPEG Decoding Procedure

// optional; retrieve initialization parameters
MFXVideoDECODE_DecodeHeader(…);
// decoder initialization
MFXVideoDECODE_Init(…);
// single frame/picture decoding
MFXVideoDECODE_DecodeFrameAsync(…);
MFXVideoCORE_SyncOperation(…);
// optional; retrieve meta-data
MFXVideoDECODE_GetUserData(…);
// close down
MFXVideoDECODE_Close(…);

DECODE supports JPEG baseline profile decoding as follows:

• DCT-based process
• Source image: 8-bit samples within each component
• Sequential
• Huffman coding: 2 AC and 2 DC tables
• 3 loadable quantization matrixes
• Interleaved and non-interleaved scans
• Single and multiple scans
• chroma subsampling ratios:
  • Chroma 4:0:0 (grey image)
  • Chroma 4:1:1
  • Chroma 4:2:0
  • Chroma horizontal 4:2:2
  • Chroma vertical 4:2:2
  • Chroma 4:4:4
• 3 channels images

The MFXVideoDECODE_Query function will return MFX_ERR_UNSUPPORTED if the input bitstream contains unsupported features.

For still picture JPEG decoding, the input can be any JPEG bitstreams that conform to the ITU-T* Recommendation T.81, with an EXIF* or JFIF* header. For motion JPEG decoding, the input can be any JPEG bitstreams that conform to the ITU-T Recommendation T.81.

Unlike other SDK decoders, JPEG one supports three different output color formats - NV12, YUY2 and RGB32. This support sometimes requires internal color conversion and more complicated initialization. The color format of input bitstream is described by JPEGChromaFormat and JPEGColorFormat fields in mfxInfoMFX structure. The MFXVideoDECODE_DecodeHeader function usually fills them in. But if JPEG bitstream does not contains color format information, application should provide it. Output color format is described by general SDK parameters - FourCC and ChromaFormat fields in mfxFrameInfo structure.

Motion JPEG supports interlaced content by compressing each field (a half-height frame) individually. This behavior is incompatible with the rest SDK transcoding pipeline, where SDK requires that fields be in odd and even lines of the same frame surface.) The decoding procedure is modified as follows:

• The application calls the MFXVideoDECODE_DecodeHeader function, with the first field JPEG bitstream, to retrieve initialization parameters.
• The application initializes the SDK JPEG decoder with the following settings:
  • Set the PicStruct field of the mfxVideoParam structure with proper interlaced type, MFX_PICSTRUCT_TFF or MFX_PICSTRUCT_BFF, from motion JPEG header.
  • Double the Height field of the mfxVideoParam structure as the value returned by the MFXVideoDECODE_DecodeHeader function describes only the first field. The actual frame surface should contain both fields.
• During decoding, application sends both fields for decoding together in the same mfxBitstream. Application also should set DataFlag in mfxBitstream structure to MFX_BITSTREAM_COMPLETE_FRAME. The SDK decodes both fields and combines them into odd and even lines as in the SDK convention.

SDK supports JPEG picture rotation, in multiple of 90 degrees, as part of the decoding operation. By default, the MFXVideoDECODE_DecodeHeader function returns the Rotation parameter so that after rotation, the pixel at the first row and first column is at the top left. The application can overwrite the default rotation before calling MFXVideoDECODE_Init.

The application may specify Huffman and quantization tables during decoder initialization by attaching mfxExtJPEGQuantTables and mfxExtJPEGHuffmanTables buffers to mfxVideoParam structure. In this case, decoder ignores tables from bitstream and uses specified by application. The application can also retrieve these tables by attaching the same buffers to mfxVideoParam and calling MFXVideoDECODE_GetVideoParam or MFXVideoDECODE_DecodeHeader functions.

Encoding Procedure

The application can use the same encoding procedures for JPEG/motion JPEG encoding, as illustratedin Figure 12. See the SDK API Reference Manual for the description of the encoding procedures.

Figure 2: Pseudo Code of the JPEG encoding Procedure

// encoder initialization
MFXVideoENCODE_Init (…);
// single frame/picture encoding
MFXVideoENCODE_EncodeFrameAsync (…);
MFXVideoCORE_SyncOperation(…);
// close down
MFXVideoENCODE_Close(…);

ENCODE supports JPEG baseline profile encoding as follows:

• DCT-based process
• Source image: 8-bit samples within each component
• Sequential
• Huffman coding: 2 AC and 2 DC tables
• 3 loadable quantization matrixes
• Interleaved and non-interleaved scans
• Single and multiple scans
• chroma subsampling ratios:
  • Chroma 4:0:0 (grey image)
  • Chroma 4:1:1
  • Chroma 4:2:0
  • Chroma horizontal 4:2:2
  • Chroma vertical 4:2:2
  • Chroma 4:4:4
• 3 channels images

The application may specify Huffman and quantization tables during encoder initialization by attaching mfxExtJPEGQuantTables and mfxExtJPEGHuffmanTables buffers to mfxVideoParam structure. If the application does not define tables then the SDK encoder uses tables recommended in ITU-T* Recommendation T.81. If the application does not define quantization table it has to specify Quality parameter in mfxInfoMFX structure. In this case, the SDK encoder scales default quantization table according to specified Quality parameter.

The application should properly configured chroma sampling format and color format. FourCC and ChromaFormat fields in mfxFrameInfo structure are used for this. For example, to encode 4:2:2 vertically sampled YCbCr picture, the application should set FourCC to MFX_FOURCC_YUY2 and ChromaFormat to MFX_CHROMAFORMAT_YUV422V. To encode 4:4:4 sampled RGB picture, the application should set FourCC to MFX_FOURCC_RGB4 and ChromaFormat to MFX_CHROMAFORMAT_YUV444.

The SDK encoder supports different sets of chroma sampling and color formats on different platforms. The application has to call MFXVideoENCODE_Query function to check if required color format is supported on given platform and then initialize encoder with proper values of FourCC and ChromaFormat in mfxFrameInfo structure.

The application should not define number of scans and number of components. They are derived by the SDK encoder from Interleaved flag in mfxInfoMFX structure and from chroma type. If interleaved coding is specified then one scan is encoded that contains all image components. Otherwise, number of scans is equal to number of components. The SDK encoder uses next component IDs - “1” for luma (Y), “2” for chroma Cb (U) and “3” for chroma Cr (V).

The application should allocate big enough buffer to hold encoded picture. Roughly, its upper limit may be calculated using next equation:

BufferSizeInKB = 4 + (Width * Height * BytesPerPx + 1023) / 1024;

where Width and Height are weight and height of the picture in pixel, BytesPerPx is number of byte for one pixel. It equals to 1 for monochrome picture, 1.5 for NV12 and YV12 color formats, 2 for YUY2 color format, and 3 for RGB32 color format (alpha channel is not encoded).

Structure Reference Extension

mfxInfoMFX

Definition

typedef struct {
    mfxU32  reserved[7];

    mfxU16  reserved4;
    mfxU16  BRCParamMultiplier;

    mfxFrameInfo    FrameInfo;
    mfxU32  CodecId;
    mfxU16  CodecProfile;
    mfxU16  CodecLevel;
    mfxU16  NumThread;

    union {
        struct {   /* MPEG-2/H.264 Encoding Options */
      ...
        };
        struct {   /* H.264, MPEG-2 and VC-1 Decoding Options */
      ...
        };
        struct {   /* JPEG Decoding Options */
            mfxU16  JPEGChromaFormat;
            mfxU16  Rotation;
            mfxU16  JPEGColorFormat;
            mfxU16  InterleavedDec;
            mfxU8   SamplingFactorH[4];
            mfxU8   SamplingFactorV[4];
            mfxU16  reserved3[5];
        };
        struct {   /* JPEG Encoding Options */
            mfxU16  Interleaved;
            mfxU16  Quality;
            mfxU16  RestartInterval;
            mfxU16  reserved5[10];
        };
    };
} mfxInfoMFX;

Description

The mfxInfoMFX structure is extended to include JPEG* decoding options. Other fields remain unchanged. See the SDK API Reference Manual for additional structure descriptions.

Members

JPEGChromaFormat	Specify the chroma sampling format that has been used to encode JPEG picture. See the ChromaFormat enumerator in SDK API Reference Manual for details.
Rotation	Rotation option of the output JPEG picture; see the Rotation enumerator for details.
JPEGColorFormat	Specify the color format that has been used to encode JPEG picture. See the JPEG Color Format enumerator for details.
InterleavedDec	Specify JPEG scan type for decoder. See the JPEG Scan Type enumerator for details.
Interleaved	Non-interleaved or interleaved scans. If it is equal to MFX_SCANTYPE_INTERLEAVED then the image is encoded as interleaved, all components are encoded in one scan. See the JPEG Scan Type enumerator for details.
Quality	Specifies the image quality if the application does not specified quantization table. This is the value from 1 to 100 inclusive. “100” is the best quality.
RestartInterval	Specifies the number of MCU in the restart interval. “0” means no restart interval.
SamplingFactorH, SamplingFactorV	Sampling factor.

Remarks

The application must specify the JPEG initialization parameters before rotation.

Change History

The JPEG decoding options are available since SDK API 1.3. Encoding options since SDK API 1.5.

The SDK API 1.6 added JPEGColorFormat field.

The SDK API 1.7 added InterleavedDec field.

The SDK API 1.19 added SamplingFactorH and SamplingFactorV fields.

mfxExtJPEGQuantTables

Definition

typedef struct {
    mfxExtBuffer    Header;

    mfxU16  reserved[7];
    mfxU16  NumTable;

    mfxU16    Qm[4][64];
} mfxExtJPEGQuantTables;

Description

The structure specifies quantization tables. The application may specify up to 4 quantization tables. The SDK encoder assigns ID to each table. That ID is equal to table index in Qm array. Table “0” is used for encoding of Y component, table “1” for U component and table “2” for V component. The application may specify fewer tables than number of components in the image. If two tables are specified, then table “1” is used for both U and V components. If only one table is specified then it is used for all components in the image. Table below illustrate this behavior.

table ID> number of tables˅	0	1	2
1	Y, U, V
2	Y	U, V
3	Y	U	V

Members

Header.BufferId	Must be MFX_EXTBUFF_JPEG_QT
NumTable	Number of quantization tables defined in Qmarray.
Qm	Quantization table values.

Change History

This structure is available since SDK API 1.5.

mfxExtJPEGHuffmanTables

Definition

typedef struct {
    mfxExtBuffer    Header;

    mfxU16  reserved[2];
    mfxU16  NumDCTable;
    mfxU16  NumACTable;

    struct {
        mfxU8   Bits[16];
        mfxU8   Values[12];
    } DCTables[4];

    struct {
        mfxU8   Bits[16];
        mfxU8   Values[162];
    } ACTables[4];
} mfxExtJPEGHuffmanTables;

Description

The structure specifies Huffman tables. The application may specify up to 2 quantization table pairs for baseline process. The SDK encoder assigns ID to each table. That ID is equal to table index in DCTables and ACTables arrays. Table “0” is used for encoding of Y component, table “1” for U and V component. The application may specify only one table in this case it will be used for all components in the image. Table below illustrate this behavior.

table ID> number of tables˅	0	1
1	Y, U, V
2	Y	U, V

Members

Header.BufferId	Must be MFX_EXTBUFF_JPEG_HUFFMAN.
NumDCTable	Number of DC quantization table in DCTable array.
NumACTable	Number of AC quantization table in ACTable array.
Bits	Number of codes for each code length.
Values	List of the 8-bit symbol values.

Change History

This structure is available since SDK API 1.5.

Enumerator Reference Extension

CodecFormatFourCC

Description

Additional CodecFormatFourCC enumerator itemizes the JPEG* codec. See the SDK API Reference Manual for additional enumerator definitions.

Name/Description

MFX_CODEC_JPEG	JPEG codec

CodecProfile

Description

Additional CodecProfile enumerator itemizes the supported JPEG profile. See the SDK API Reference Manual for additional enumerator definitions.

Name/Description

MFX_PROFILE_JPEG_BASELINE	JPEG baseline profile

ChromaFormatIdc

Description

Additional ChromaFormatIdc enumerator itemizes the JPEG* color-sampling formats. See the SDK API Reference Manual for additional enumerator definitions.

Name/Description

MFX_CHROMAFORMAT_JPEG_SAMPLING	Color sampling specified via mfxInfoMFX::SamplingFactorH and SamplingFactorV

Available since SDK API 1.19.

Rotation

Description

The Rotation enumerator itemizes the JPEG rotation options.

Name/Description

MFX_ROTATION_0	No rotation
MFX_ROTATION_90	90 degree rotation
MFX_ROTATION_180	180 degree rotation
MFX_ROTATION_270	270 degree rotation

ExtendedBufferID

Description

Additional ExtendedBufferID were added for JPEG support. See the SDK API Reference Manual for additional enumerator definitions.

Name/Description

MFX_EXTBUFF_JPEG_QT	This extended buffer defines quantization tables for JPEG encoder.
MFX_EXTBUFF_JPEG_HUFFMAN	This extended buffer defines Huffman tables for JPEG encoder.

JPEG Color Format

Description

This enumerator itemizes the JPEG color format options.

Name/Description

MFX_JPEG_COLORFORMAT_UNKNOWN	Unknown color format. The SDK decoder tries to determine color format from available in bitstream information. If such information is not present, then MFX_JPEG_COLORFORMAT_YCbCr color format is assumed.
MFX_JPEG_COLORFORMAT_YCbCr	Bitstream contains Y, Cb and Cr components.
MFX_JPEG_COLORFORMAT_RGB	Bitstream contains R, G and B components.

This enumerator is available since SDK API 1.6.

JPEG Scan Type

Description

This enumerator itemizes the JPEG scan types.

Name/Description

MFX_SCANTYPE_UNKNOWN	Unknown scan type.
MFX_SCANTYPE_INTERLEAVED	Interleaved scan.
MFX_SCANTYPE_NONINTERLEAVED	Non-interleaved scan.

This enumerator is available since SDK API 1.7.