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DXVA_MBctrl_P_HostResidDiff_1 structure (dxva.h)

The DXVA_MBctrl_P_HostResidDiff_1 structure is sent once per macroblock by the host decoder to the accelerator to specify macroblock control commands for most nonintra picture cases when using host-based IDCT.

Syntax

typedef struct _DXVA_MBctrl_P_HostResidDiff_1 {
  WORD         wMBaddress;
  WORD         wMBtype;
  DWORD        dwMB_SNL;
  WORD         wPatternCode;
  WORD         wPC_Overflow;
  DWORD        dwReservedBits2;
  DXVA_MVvalue MVector[DXVA_NumMV_OBMC_off_BinPBwith4MV_off];
} DXVA_MBctrl_P_HostResidDiff_1;

Members

wMBaddress

Specifies the macroblock address of the current macroblock in raster scan order. For examples of macroblock addresses see macroblock addresses.

wMBtype

Specifies the type of macroblock being processed. The following bits define the contents of wMBtype.

Bits Description
15 to 12 MvertFieldSel_3 (bit 15, the most significant bit) through MvertFieldSel_0 (bit 12)
Specifies vertical field selection for corresponding motion vectors sent later in the macroblock control command. For frame-based motion with a frame picture structure (for example, for H.261 and H.263), these bits must all be zero. The use of these bits is the same as that specified for the corresponding bits in Section 6.3.17.2 of MPEG-2.
11 Reserved Bit. Must be zero.
10 HostResidDiff
Specifies whether spatial-domain residual difference decoded blocks are sent or whether transform coefficients are sent for off-host IDCT for the current macroblock.
The HostResidDif flag is always equal to 1 in this structure. This flag must be zero if bConfigResidDiffHost is zero. This flag must be 1 if bConfigResidDiffAccelerator is zero.
9 and 8 MotionType
Specifies the motion type in the picture. For example, for frame-based motion with a frame picture structure (as in H.261), bit 9 must be 1 and bit 8 must be zero.
The use of these bits corresponds directly to the use of frame_motion_type or field_motion_type bits in Section 6.3.17.1 and Tables 6-17 and 6-18 of MPEG-2 video when these bits are present in MPEG-2. The use of these bits are further explained in the following Remarks section.
7 and 6 MBscanMethod
This variable has no meaning and these bits should be set to zero in this structure.
5 FieldResidual
Indicates whether the residual difference blocks use a field IDCT structure as specified in MPEG-2.
Must be 1 if the bPicStructure member of DXVA_PictureParameters is 1 or 2. When used for MPEG-2, FieldResidual must be zero if the frame_pred_frame_DCT variable in the MPEG-2 syntax is 1, and must be equal to the dct_type variable in the MPEG-2 syntax if dct_type is present for the macroblock.
4 H261LoopFilter
Specifies whether the H.261 loop filter (Section 3.2.3 of H.261) is active for the current macroblock prediction. The H.261 loop filter is a separable 1/4, 1/2, 1/4 filter applied both horizontally and vertically to all six blocks in an H.261 macroblock, except at block edges where one of the taps would fall outside the block. In such cases, the filter is changed to have coefficients 0, 1, 0. Full arithmetic precision is retained with rounding to 8-bit integers at the output of the 2-D filter process (half-integer or higher values being rounded up).
3 Motion4MV
A variable indicating that forward motion uses a distinct motion vector for each of the four luminance blocks in the macroblock, as used in H.263 Annexes F and J. Motion4MV must be zero if MotionForward is zero or if the bPic4MVallowed member of DXVA_PictureParameters is zero.
2 MotionBackward
Used in the manner specified for the corresponding macroblock_motion_backward variable in MPEG-2. If the bPicBackwardPrediction member of DXVA_PictureParameters is zero, MotionBackward must be zero. The use of this bit is further explained in the following Remarks section.
1 MotionForward
Used for the corresponding macroblock_motion_forward variable in MPEG-2. The use of this bit is further explained in the following Remarks section.
0 IntraMacroblock
Indicates that the macroblock is coded as intra, and no motion vectors are used for the current macroblock. Corresponds to macroblock_intrain MPEG-2. The use of this bit is further explained in the following Remarks section.

dwMB_SNL

Specifies the number of skipped macroblocks to be generated following the current macroblock and indicates the location of the residual difference data for the blocks of the current macroblock. This member contains two variables: MBskipsFollowing in the most significant 8 bits, and MBdataLocation in the least significant 24 bits. MBskipsFollowing indicates the number of skipped macroblocks to be generated following the current macroblock. MBdataLocation is an index into the residual difference block data buffer. This index indicates the location of the residual difference data for the blocks of the current macroblock, expressed as a multiple of 32 bits.

wPatternCode

Indicates whether residual difference data is sent for each block in the current macroblock.

Bit (11-i) of wPatternCode (where bit zero is the least significant bits) indicates whether residual difference data is sent for block i, where i is the index of the block within the macroblock as specified in MPEG-2 figures 6-10, 6-11, and 6-12 (raster-scan order for Y, followed by 4:2:0 blocks of Cb in raster-scan order, followed by 4:2:0 blocks of Cr, followed by 4:2:2 blocks of Cb, followed by 4:2:2 blocks of Cr, followed by 4:4:4 blocks of Cb, followed by 4:4:4 blocks of Cr). The data for the coded blocks (those blocks having bit (11-i) equal to 1) is found in the residual coding buffer in the same indexing order (increasing i). For 4:2:0 MPEG-2 data, the value of wPatternCode corresponds to shifting the decoded value of the CBP (coded block pattern) to the left by six bit positions (those lower bit positions being used for 4:2:2 and 4:4:4 chroma formats).

If the bConfigSpatialResidInterleaved member of DXVA_ConfigPictureDecode is 1, host-based residual differences are sent in a chroma-interleaved form matching that of the YUV pixel format in use. In this case, each Cb and spatially corresponding Cr pair of blocks is treated as a single residual difference structure unit. This does not alter the value or meaning of wPatternCode, but it implies that both members of each pair of Cb and Cr data blocks are sent whenever either of these data blocks has the corresponding bit set in wPatternCode. If the bit in wPatternCode for a particular data block is zero, the corresponding residual difference data values must be sent as zero whenever this pairing necessitates sending a residual difference data block for a block with a wPatternCode bit equal to zero.

wPC_Overflow

Specifies which blocks of the macroblock use overflow residual difference data.

When using host-based residual difference decoding with the bPicOverflowBlocks member of DXVA_PictureParameters equal to 1 and IntraMacroblock equal to zero (the 8-8 overflow method), wPC_Overflow contains the pattern code of the overflow blocks. (The pattern code is specified in the same manner as for wPatternCode.) The data for the coded overflow blocks (those blocks having bit (11-i) equal to 1) is found in the residual coding buffer in the same indexing order (increasing i).

dwReservedBits2

Reserved bits used for packing and alignment. Must be zero.

MVector[DXVA_NumMV_OBMC_off_BinPBwith4MV_off]

An array containing the value of the motion vector(s) for the macroblock, each motion vector is represented by a DXVA_MVvalue structure.

Remarks

Each skipped macroblock specified by MBskipsFollowing must be generated in a manner mathematically equivalent to incrementing the value of wMBaddress and then repeating the same macroblock control command.

The content of a macroblock control command with a nonzero value for MBskipsFollowing is equivalent (except for the value of MBskipsFollowing) to the content of the first of the series of skipped macroblocks. Thus, whenever MBskipsFollowing is not zero, the following structure members and variables must all be equal to zero: Motion4MV, IntraMacroblock, wPatternCode, and wPC_Overflow. Each subsequent skipped macroblock is then generated in the same way as the first, except for incrementing the value of wMBaddress.

MBdataLocation must be zero for the first macroblock in the macroblock control command buffer. For macroblocks other than the first macroblock in the macroblock control command buffer, MBdataLocation may contain any value if wPatternCode is zero. When wPatternCode is zero, decoders are recommended but not required to set this value either to zero or to the same value as in the next macroblock control command.

For more information about how skipped macroblocks are generated, see Generating Skipped Macroblocks.

Valid combinations of IntraMacroblock, MotionForward, MotionBackward, MotionType, MvertFieldSel, and MVector are shown in the tables in First Part of Macroblock Control Command Structure.

Requirements

Requirement Value
Header dxva.h (include Dxva.h)

See also

DXVA_ConfigPictureDecode

DXVA_MBctrl_P_OffHostIDCT_1

DXVA_MVvalue

DXVA_PictureParameters