GstMpeg4Parser
For more details about the structures, you can refer to the specifications: ISO-IEC-14496-2_2004_MPEG4_VISUAL.pdf
Functions
gst_h263_parse
GstMpeg4ParseResult gst_h263_parse (GstMpeg4Packet * packet, guint8 * data, guint offset, gsize size)
Parses data and fills packet with the information of the next packet found.
Note that the type of the packet is meaningless in this case.
Parameters:
packet
–
The GstMpeg4Packet to fill
data
–
The data to parse
offset
–
offset from which to start the parsing
size
–
The size of the data to parse
gst_mpeg4_parse
GstMpeg4ParseResult gst_mpeg4_parse (GstMpeg4Packet * packet, gboolean skip_user_data, GstMpeg4VideoObjectPlane * vop, guint8 * data, guint offset, gsize size)
Parses data and fills packet with the information of the next packet found.
Parameters:
packet
–
The GstMpeg4Packet to fill
vop
–
The last parsed GstMpeg4VideoObjectPlane or NULL if you do not need to detect the resync codes.
data
–
The data to parse
offset
–
offset from which to start the parsing
size
–
The size of the data to parse
gst_mpeg4_parse_group_of_vop
GstMpeg4ParseResult gst_mpeg4_parse_group_of_vop (GstMpeg4GroupOfVOP * gov, guint8 * data, gsize size)
Parses data containing the group of video object plane packet, and fills the gov structure.
Parameters:
gov
–
The GstMpeg4GroupOfVOP structure to fill
data
–
The data to parse
size
–
The size of the data to parse
gst_mpeg4_parse_video_object_layer
GstMpeg4ParseResult gst_mpeg4_parse_video_object_layer (GstMpeg4VideoObjectLayer * vol, GstMpeg4VisualObject * vo, guint8 * data, gsize size)
Parses data containing the video object layer packet, and fills the vol structure.
Parameters:
vol
–
The GstMpeg4VideoObjectLayer structure to fill
vo
–
The GstMpeg4VisualObject currently being parsed or NULL
data
–
The data to parse
size
–
The size of the data to parse
gst_mpeg4_parse_video_object_plane
GstMpeg4ParseResult gst_mpeg4_parse_video_object_plane (GstMpeg4VideoObjectPlane * vop, GstMpeg4SpriteTrajectory * sprite_trajectory, GstMpeg4VideoObjectLayer * vol, guint8 * data, gsize size)
Parses data containing the video object plane packet, and fills the vol structure.
Parameters:
vop
–
The GstMpeg4VideoObjectPlane currently being parsed
sprite_trajectory
–
A GstMpeg4SpriteTrajectory to fill or NULL
vol
–
The GstMpeg4VideoObjectLayer structure to fill
data
–
The data to parse
size
–
The size of the data to parse
gst_mpeg4_parse_video_packet_header
GstMpeg4ParseResult gst_mpeg4_parse_video_packet_header (GstMpeg4VideoPacketHdr * videopackethdr, GstMpeg4VideoObjectLayer * vol, GstMpeg4VideoObjectPlane * vop, GstMpeg4SpriteTrajectory * sprite_trajectory, guint8 * data, gsize size)
Parsers data containing the video packet header and fills the videopackethdr structure
Parameters:
videopackethdr
–
The GstMpeg4VideoPacketHdr structure to fill
vol
–
The last parsed GstMpeg4VideoObjectLayer, will be updated with the information found during the parsing
vop
–
The last parsed GstMpeg4VideoObjectPlane, will be updated with the information found during the parsing
sprite_trajectory
–
A GstMpeg4SpriteTrajectory to fill or NULL with the information found during the parsing
data
–
The data to parse, should be set after the resync marker.
size
–
The size of the data to parse
No description available
gst_mpeg4_parse_video_plane_short_header
GstMpeg4ParseResult gst_mpeg4_parse_video_plane_short_header (GstMpeg4VideoPlaneShortHdr * shorthdr, guint8 * data, gsize size)
Parameters:
shorthdr
–
data
–
size
–
No description available
gst_mpeg4_parse_visual_object
GstMpeg4ParseResult gst_mpeg4_parse_visual_object (GstMpeg4VisualObject * vo, GstMpeg4VideoSignalType * signal_type, guint8 * data, gsize size)
Parses data containing the visual object packet, and fills the vo structure.
Parameters:
vo
–
The GstMpeg4VisualObject structure to fill
signal_type
–
The GstMpeg4VideoSignalType to fill or NULL
data
–
The data to parse, should contain the vo_start_code but not the start code prefix
size
–
The size of the data to parse
gst_mpeg4_parse_visual_object_sequence
GstMpeg4ParseResult gst_mpeg4_parse_visual_object_sequence (GstMpeg4VisualObjectSequence * vos, guint8 * data, gsize size)
Parses data containing the visual object sequence packet, and fills the vos structure.
Parameters:
vos
–
The GstMpeg4VisualObjectSequence structure to fill
data
–
The data to parse, should contain the visual_object_sequence_start_code but not the start code prefix
size
–
The size of the data to parse
Structures
GstMpeg4GroupOfVOP
struct _GstMpeg4GroupOfVOP {
guint8 hours;
guint8 minutes;
guint8 seconds;
guint8 closed;
guint8 broken_link;
};
The group of video object plane structure as defined in: 6.2.4 Group of Video Object Plane
Fields
hours
(guint8)
–
minutes
(guint8)
–
seconds
(guint8)
–
closed
(guint8)
–
broken_link
(guint8)
–
GstMpeg4Packet
struct _GstMpeg4Packet
{
const guint8 *data;
guint offset;
gsize size;
guint marker_size;
GstMpeg4StartCode type;
};
A structure that contains the type of a packet, its offset and its size
Fields
data
(guint8 *)
–
the data containing packet starting at offset
offset
(guint)
–
offset of the start of the packet (without the 3 bytes startcode), but including the GstMpeg4StartCode byte.
marker_size
(guint)
–
The size in bit of the resync marker.
type
(GstMpeg4StartCode)
–
the type of the packet that start at offset
GstMpeg4SpriteTrajectory
struct _GstMpeg4SpriteTrajectory {
guint16 vop_ref_points[63]; /* Defined as "du" in 6.2.5.4 */
guint16 sprite_ref_points[63]; /* Defined as "dv" in 6.2.5.4 */
};
The sprite trajectory structure as defined in: 7.8.4 Sprite reference point decoding and 6.2.5.4 Sprite coding
Fields
vop_ref_points
(guint16[63] )
–
sprite_ref_points
(guint16[63] )
–
GstMpeg4VideoObjectLayer
struct _GstMpeg4VideoObjectLayer {
guint8 random_accessible_vol;
guint8 video_object_type_indication;
guint8 is_object_layer_identifier;
/* if is_object_layer_identifier */
guint8 verid;
guint8 priority;
GstMpeg4AspectRatioInfo aspect_ratio_info;
guint8 par_width;
guint8 par_height;
guint8 control_parameters;
/* if control_parameters */
GstMpeg4ChromaFormat chroma_format;
guint8 low_delay;
guint8 vbv_parameters;
/* if vbv_parameters */
guint16 first_half_bitrate;
guint16 latter_half_bitrate;
guint16 first_half_vbv_buffer_size;
guint16 latter_half_vbv_buffer_size;
guint16 first_half_vbv_occupancy;
guint16 latter_half_vbv_occupancy;
/* Computed values */
guint32 bit_rate;
guint32 vbv_buffer_size;
GstMpeg4VideoObjectLayerShape shape;
/* if shape == GST_MPEG4_GRAYSCALE && verid =! 1 */
guint8 shape_extension;
guint16 vop_time_increment_resolution;
guint8 vop_time_increment_bits;
guint8 fixed_vop_rate;
/* if fixed_vop_rate */
guint16 fixed_vop_time_increment;
guint16 width;
guint16 height;
guint8 interlaced;
guint8 obmc_disable;
GstMpeg4SpriteEnable sprite_enable;
/* if vol->sprite_enable == SPRITE_GMG or SPRITE_STATIC*/
/* if vol->sprite_enable != GST_MPEG4_SPRITE_GMG */
guint16 sprite_width;
guint16 sprite_height;
guint16 sprite_left_coordinate;
guint16 sprite_top_coordinate;
guint8 no_of_sprite_warping_points;
guint8 sprite_warping_accuracy;
guint8 sprite_brightness_change;
/* if vol->sprite_enable != GST_MPEG4_SPRITE_GMG */
guint8 low_latency_sprite_enable;
/* if shape != GST_MPEG4_RECTANGULAR */
guint8 sadct_disable;
guint8 not_8_bit;
/* if no_8_bit */
guint8 quant_precision;
guint8 bits_per_pixel;
/* if shape == GRAYSCALE */
guint8 no_gray_quant_update;
guint8 composition_method;
guint8 linear_composition;
guint8 quant_type;
/* if quant_type */
guint8 load_intra_quant_mat;
guint8 intra_quant_mat[64];
guint8 load_non_intra_quant_mat;
guint8 non_intra_quant_mat[64];
guint8 quarter_sample;
guint8 complexity_estimation_disable;
guint8 resync_marker_disable;
guint8 data_partitioned;
guint8 reversible_vlc;
guint8 newpred_enable;
guint8 reduced_resolution_vop_enable;
guint8 scalability;
guint8 enhancement_type;
GstMpeg4VideoPlaneShortHdr short_hdr;
};
The video object layer structure as defined in: 6.2.3 Video Object Layer
Fields
random_accessible_vol
(guint8)
–
video_object_type_indication
(guint8)
–
is_object_layer_identifier
(guint8)
–
verid
(guint8)
–
priority
(guint8)
–
aspect_ratio_info
(GstMpeg4AspectRatioInfo)
–
par_width
(guint8)
–
par_height
(guint8)
–
control_parameters
(guint8)
–
chroma_format
(GstMpeg4ChromaFormat)
–
low_delay
(guint8)
–
vbv_parameters
(guint8)
–
first_half_bitrate
(guint16)
–
latter_half_bitrate
(guint16)
–
first_half_vbv_buffer_size
(guint16)
–
latter_half_vbv_buffer_size
(guint16)
–
first_half_vbv_occupancy
(guint16)
–
latter_half_vbv_occupancy
(guint16)
–
bit_rate
(guint32)
–
vbv_buffer_size
(guint32)
–
shape
(GstMpeg4VideoObjectLayerShape)
–
shape_extension
(guint8)
–
vop_time_increment_resolution
(guint16)
–
vop_time_increment_bits
(guint8)
–
fixed_vop_rate
(guint8)
–
fixed_vop_time_increment
(guint16)
–
width
(guint16)
–
height
(guint16)
–
interlaced
(guint8)
–
obmc_disable
(guint8)
–
sprite_enable
(GstMpeg4SpriteEnable)
–
sprite_width
(guint16)
–
sprite_height
(guint16)
–
sprite_left_coordinate
(guint16)
–
sprite_top_coordinate
(guint16)
–
no_of_sprite_warping_points
(guint8)
–
sprite_warping_accuracy
(guint8)
–
sprite_brightness_change
(guint8)
–
low_latency_sprite_enable
(guint8)
–
sadct_disable
(guint8)
–
not_8_bit
(guint8)
–
quant_precision
(guint8)
–
bits_per_pixel
(guint8)
–
no_gray_quant_update
(guint8)
–
composition_method
(guint8)
–
linear_composition
(guint8)
–
quant_type
(guint8)
–
load_intra_quant_mat
(guint8)
–
intra_quant_mat
(guint8[64] )
–
load_non_intra_quant_mat
(guint8)
–
non_intra_quant_mat
(guint8[64] )
–
quarter_sample
(guint8)
–
complexity_estimation_disable
(guint8)
–
resync_marker_disable
(guint8)
–
data_partitioned
(guint8)
–
reversible_vlc
(guint8)
–
newpred_enable
(guint8)
–
reduced_resolution_vop_enable
(guint8)
–
scalability
(guint8)
–
enhancement_type
(guint8)
–
short_hdr
(GstMpeg4VideoPlaneShortHdr)
–
GstMpeg4VideoObjectPlane
struct _GstMpeg4VideoObjectPlane {
GstMpeg4VideoObjectCodingType coding_type;
guint8 modulo_time_base;
guint16 time_increment;
guint8 coded;
/* if newpred_enable */
guint16 id;
guint8 id_for_prediction_indication;
guint16 id_for_prediction;
guint16 width;
guint16 height;
guint16 horizontal_mc_spatial_ref;
guint16 vertical_mc_spatial_ref;
guint8 rounding_type;
/*if vol->shape != GST_MPEG4_RECTANGULAR */
guint8 background_composition;
guint8 change_conv_ratio_disable;
guint8 constant_alpha;
guint8 constant_alpha_value;
guint8 reduced_resolution;
guint8 intra_dc_vlc_thr;
guint8 top_field_first;
guint8 alternate_vertical_scan_flag;
guint16 quant;
guint8 fcode_forward;
guint8 fcode_backward;
guint8 shape_coding_type;
guint8 load_backward_shape;
guint8 ref_select_code;
/* Computed macroblock information */
guint16 mb_height;
guint16 mb_width;
guint mb_num;
/* The size of the header */
guint size;
};
The Video object plane structure as defined in: 6.2.5 Video Object Plane and Video Plane with Short Header
Fields
coding_type
(GstMpeg4VideoObjectCodingType)
–
modulo_time_base
(guint8)
–
time_increment
(guint16)
–
coded
(guint8)
–
id
(guint16)
–
id_for_prediction_indication
(guint8)
–
id_for_prediction
(guint16)
–
width
(guint16)
–
height
(guint16)
–
horizontal_mc_spatial_ref
(guint16)
–
vertical_mc_spatial_ref
(guint16)
–
rounding_type
(guint8)
–
background_composition
(guint8)
–
change_conv_ratio_disable
(guint8)
–
constant_alpha
(guint8)
–
constant_alpha_value
(guint8)
–
reduced_resolution
(guint8)
–
intra_dc_vlc_thr
(guint8)
–
top_field_first
(guint8)
–
alternate_vertical_scan_flag
(guint8)
–
quant
(guint16)
–
fcode_forward
(guint8)
–
fcode_backward
(guint8)
–
shape_coding_type
(guint8)
–
load_backward_shape
(guint8)
–
ref_select_code
(guint8)
–
mb_height
(guint16)
–
mb_width
(guint16)
–
mb_num
(guint)
–
size
(guint)
–
GstMpeg4VideoPacketHdr
struct _GstMpeg4VideoPacketHdr {
guint8 header_extension_code;
guint16 macroblock_number;
guint16 quant_scale;
guint size;
};
The video packet header structure as defined in: 6.2.5.2 Video Plane with Short Header
Fields
header_extension_code
(guint8)
–
macroblock_number
(guint16)
–
quant_scale
(guint16)
–
size
(guint)
–
Size of the header in bit.
GstMpeg4VideoPlaneShortHdr
struct _GstMpeg4VideoPlaneShortHdr {
guint8 temporal_reference;
guint8 split_screen_indicator;
guint8 document_camera_indicator;
guint8 full_picture_freeze_release;
guint8 source_format;
guint8 picture_coding_type;
guint8 vop_quant;
guint8 pei;
guint8 psupp;
/* Gob layer specific fields */
guint8 gob_header_empty;
guint8 gob_number;
guint8 gob_frame_id;
guint8 quant_scale;
/* Computed
* If all the values are set to 0, then it is reserved
* Table 6-25 -- Parameters Defined by source_format Field
*/
guint16 vop_width;
guint16 vop_height;
guint16 num_macroblocks_in_gob;
guint8 num_gobs_in_vop;
/* The size in bits */
guint size;
};
The video plane short header structure as defined in: 6.2.5.2 Video Plane with Short Header
Fields
temporal_reference
(guint8)
–
split_screen_indicator
(guint8)
–
document_camera_indicator
(guint8)
–
full_picture_freeze_release
(guint8)
–
source_format
(guint8)
–
picture_coding_type
(guint8)
–
vop_quant
(guint8)
–
pei
(guint8)
–
psupp
(guint8)
–
gob_header_empty
(guint8)
–
gob_number
(guint8)
–
gob_frame_id
(guint8)
–
quant_scale
(guint8)
–
vop_width
(guint16)
–
vop_height
(guint16)
–
num_macroblocks_in_gob
(guint16)
–
num_gobs_in_vop
(guint8)
–
size
(guint)
–
GstMpeg4VideoSignalType
struct _GstMpeg4VideoSignalType {
guint8 type;
guint8 format;
guint8 range;
guint8 color_description;
guint8 color_primaries;
guint8 transfer_characteristics;
guint8 matrix_coefficients;
};
The video signal type structure as defined in: 6.2.2 Visual Object Sequence and Visual Object.
Fields
type
(guint8)
–
format
(guint8)
–
range
(guint8)
–
color_description
(guint8)
–
color_primaries
(guint8)
–
transfer_characteristics
(guint8)
–
matrix_coefficients
(guint8)
–
GstMpeg4VisualObject
struct _GstMpeg4VisualObject {
guint8 is_identifier;
/* If is_identifier */
guint8 verid;
guint8 priority;
GstMpeg4VisualObjectType type;
};
The visual object structure as defined in: 6.2.2 Visual Object Sequence and Visual Object
Fields
is_identifier
(guint8)
–
verid
(guint8)
–
priority
(guint8)
–
type
(GstMpeg4VisualObjectType)
–
GstMpeg4VisualObjectSequence
struct _GstMpeg4VisualObjectSequence {
guint8 profile_and_level_indication;
/* Computed according to:
* Table G.1 — FLC table for profile_and_level_indication */
GstMpeg4Level level;
GstMpeg4Profile profile;
};
The visual object sequence structure as defined in: 6.2.2 Visual Object Sequence and Visual Object
Fields
profile_and_level_indication
(guint8)
–
level
(GstMpeg4Level)
–
profile
(GstMpeg4Profile)
–
Enumerations
GstMpeg4AspectRatioInfo
typedef enum {
GST_MPEG4_SQUARE = 0x01,
GST_MPEG4_625_TYPE_4_3 = 0x02,
GST_MPEG4_525_TYPE_4_3 = 0x03,
GST_MPEG4_625_TYPE_16_9 = 0x04,
GST_MPEG4_525_TYPE_16_9 = 0x05,
GST_MPEG4_EXTENDED_PAR = 0x0f,
} GstMpeg4AspectRatioInfo;
Defines the different pixel aspect ratios as defined in: Table 6-12 -- Meaning of pixel aspect ratio
Members
GST_MPEG4_SQUARE
(1)
–
1:1 square
GST_MPEG4_625_TYPE_4_3
(2)
–
12:11 (625-type for 4:3 picture)
GST_MPEG4_525_TYPE_4_3
(3)
–
10:11 (525-type for 4:3 picture)
GST_MPEG4_625_TYPE_16_9
(4)
–
16:11 (625-type stretched for 16:9 picture)
GST_MPEG4_525_TYPE_16_9
(5)
–
40:33 (525-type stretched for 16:9 picture)
GST_MPEG4_EXTENDED_PAR
(15)
–
Extended par
GstMpeg4ChromaFormat
typedef enum {
/* Other value are reserved */
GST_MPEG4_CHROMA_4_2_0 = 0x01
} GstMpeg4ChromaFormat;
The chroma format in use as defined in: Table 6-13 -- Meaning of chroma_format
Members
GST_MPEG4_CHROMA_4_2_0
(1)
–
GstMpeg4Level
typedef enum {
GST_MPEG4_LEVEL0,
GST_MPEG4_LEVEL1,
GST_MPEG4_LEVEL2,
GST_MPEG4_LEVEL3,
GST_MPEG4_LEVEL3b,
GST_MPEG4_LEVEL4,
GST_MPEG4_LEVEL5,
GST_MPEG4_LEVEL_RESERVED
} GstMpeg4Level;
Different levels as defined in: 9- Profiles and levels
It is computed using: Table G.1 — FLC table for profile_and_level_indication
Members
GST_MPEG4_LEVEL0
(0)
–
GST_MPEG4_LEVEL1
(1)
–
GST_MPEG4_LEVEL2
(2)
–
GST_MPEG4_LEVEL3
(3)
–
GST_MPEG4_LEVEL3b
(4)
–
GST_MPEG4_LEVEL4
(5)
–
GST_MPEG4_LEVEL5
(6)
–
GST_MPEG4_LEVEL_RESERVED
(7)
–
GstMpeg4ParseResult
typedef enum {
GST_MPEG4_PARSER_OK,
GST_MPEG4_PARSER_BROKEN_DATA,
GST_MPEG4_PARSER_NO_PACKET,
GST_MPEG4_PARSER_NO_PACKET_END,
GST_MPEG4_PARSER_ERROR,
} GstMpeg4ParseResult;
Result type of any parsing function.
Members
GST_MPEG4_PARSER_OK
(0)
–
The parsing went well
GST_MPEG4_PARSER_BROKEN_DATA
(1)
–
The bitstream was broken
GST_MPEG4_PARSER_NO_PACKET
(2)
–
There was no packet in the buffer
GST_MPEG4_PARSER_NO_PACKET_END
(3)
–
There was no packet end in the buffer
GST_MPEG4_PARSER_ERROR
(4)
–
GstMpeg4Profile
typedef enum {
GST_MPEG4_PROFILE_CORE,
GST_MPEG4_PROFILE_MAIN,
GST_MPEG4_PROFILE_N_BIT,
GST_MPEG4_PROFILE_SIMPLE,
GST_MPEG4_PROFILE_HYBRID,
GST_MPEG4_PROFILE_RESERVED,
GST_MPEG4_PROFILE_SIMPLE_FBA,
GST_MPEG4_PROFILE_CORE_STUDIO,
GST_MPEG4_PROFILE_SIMPLE_STUDIO,
GST_MPEG4_PROFILE_CORE_SCALABLE,
GST_MPEG4_PROFILE_ADVANCED_CORE,
GST_MPEG4_PROFILE_ADVANCED_SIMPLE,
GST_MPEG4_PROFILE_SIMPLE_SCALABLE,
GST_MPEG4_PROFILE_SCALABLE_TEXTURE,
GST_MPEG4_PROFILE_SIMPLE_FACE_ANIMATION,
GST_MPEG4_PROFILE_BASIC_ANIMATED_TEXTURE,
GST_MPEG4_PROFILE_ADVANCED_REALTIME_SIMPLE,
GST_MPEG4_PROFILE_ADVANCED_SCALABLE_TEXTURE,
GST_MPEG4_PROFILE_FINE_GRANULARITY_SCALABLE,
GST_MPEG4_PROFILE_ADVANCED_CODING_EFFICIENCY
} GstMpeg4Profile;
Different defined profiles as defined in: 9- Profiles and levels
It is computed using: Table G.1 — FLC table for profile_and_level_indication
Members
GST_MPEG4_PROFILE_CORE
(0)
–
GST_MPEG4_PROFILE_MAIN
(1)
–
GST_MPEG4_PROFILE_N_BIT
(2)
–
GST_MPEG4_PROFILE_SIMPLE
(3)
–
GST_MPEG4_PROFILE_HYBRID
(4)
–
GST_MPEG4_PROFILE_RESERVED
(5)
–
GST_MPEG4_PROFILE_SIMPLE_FBA
(6)
–
GST_MPEG4_PROFILE_CORE_STUDIO
(7)
–
GST_MPEG4_PROFILE_SIMPLE_STUDIO
(8)
–
GST_MPEG4_PROFILE_CORE_SCALABLE
(9)
–
GST_MPEG4_PROFILE_ADVANCED_CORE
(10)
–
GST_MPEG4_PROFILE_ADVANCED_SIMPLE
(11)
–
GST_MPEG4_PROFILE_SIMPLE_SCALABLE
(12)
–
GST_MPEG4_PROFILE_SCALABLE_TEXTURE
(13)
–
GST_MPEG4_PROFILE_SIMPLE_FACE_ANIMATION
(14)
–
GST_MPEG4_PROFILE_BASIC_ANIMATED_TEXTURE
(15)
–
GST_MPEG4_PROFILE_ADVANCED_REALTIME_SIMPLE
(16)
–
GST_MPEG4_PROFILE_ADVANCED_SCALABLE_TEXTURE
(17)
–
GST_MPEG4_PROFILE_FINE_GRANULARITY_SCALABLE
(18)
–
GST_MPEG4_PROFILE_ADVANCED_CODING_EFFICIENCY
(19)
–
GstMpeg4SpriteEnable
typedef enum {
GST_MPEG4_SPRITE_UNUSED,
GST_MPEG4_SPRITE_STATIC,
GST_MPEG4_SPRITE_GMG
} GstMpeg4SpriteEnable;
Indicates the usage of static sprite coding or global motion compensation (GMC) as defined in: Table V2 - 2 -- Meaning of sprite_enable codewords
Members
GST_MPEG4_SPRITE_UNUSED
(0)
–
GST_MPEG4_SPRITE_STATIC
(1)
–
GST_MPEG4_SPRITE_GMG
(2)
–
GstMpeg4StartCode
typedef enum
{
GST_MPEG4_VIDEO_OBJ_FIRST = 0x00,
GST_MPEG4_VIDEO_OBJ_LAST = 0x1f,
GST_MPEG4_VIDEO_LAYER_FIRST = 0x20,
GST_MPEG4_VIDEO_LAYER_LAST = 0x2f,
GST_MPEG4_VISUAL_OBJ_SEQ_START = 0xb0,
GST_MPEG4_VISUAL_OBJ_SEQ_END = 0xb1,
GST_MPEG4_USER_DATA = 0xb2,
GST_MPEG4_GROUP_OF_VOP = 0xb3,
GST_MPEG4_VIDEO_SESSION_ERR = 0xb4,
GST_MPEG4_VISUAL_OBJ = 0xb5,
GST_MPEG4_VIDEO_OBJ_PLANE = 0xb6,
GST_MPEG4_FBA = 0xba,
GST_MPEG4_FBA_PLAN = 0xbb,
GST_MPEG4_MESH = 0xbc,
GST_MPEG4_MESH_PLAN = 0xbd,
GST_MPEG4_STILL_TEXTURE_OBJ = 0xbe,
GST_MPEG4_TEXTURE_SPATIAL = 0xbf,
GST_MPEG4_TEXTURE_SNR_LAYER = 0xc0,
GST_MPEG4_TEXTURE_TILE = 0xc1,
GST_MPEG4_SHAPE_LAYER = 0xc2,
GST_MPEG4_STUFFING = 0xc3,
GST_MPEG4_SYSTEM_FIRST = 0xc6,
GST_MPEG4_SYSTEM_LAST = 0xff,
GST_MPEG4_RESYNC = 0xfff
} GstMpeg4StartCode;
Defines the different startcodes present in the bitstream as defined in: Table 6-3 — Start code values
Members
GST_MPEG4_VIDEO_OBJ_FIRST
(0)
–
GST_MPEG4_VIDEO_OBJ_LAST
(31)
–
GST_MPEG4_VIDEO_LAYER_FIRST
(32)
–
GST_MPEG4_VIDEO_LAYER_LAST
(47)
–
GST_MPEG4_VISUAL_OBJ_SEQ_START
(176)
–
GST_MPEG4_VISUAL_OBJ_SEQ_END
(177)
–
GST_MPEG4_USER_DATA
(178)
–
GST_MPEG4_GROUP_OF_VOP
(179)
–
GST_MPEG4_VIDEO_SESSION_ERR
(180)
–
GST_MPEG4_VISUAL_OBJ
(181)
–
GST_MPEG4_VIDEO_OBJ_PLANE
(182)
–
GST_MPEG4_FBA
(186)
–
GST_MPEG4_FBA_PLAN
(187)
–
GST_MPEG4_MESH
(188)
–
GST_MPEG4_MESH_PLAN
(189)
–
GST_MPEG4_STILL_TEXTURE_OBJ
(190)
–
GST_MPEG4_TEXTURE_SPATIAL
(191)
–
GST_MPEG4_TEXTURE_SNR_LAYER
(192)
–
GST_MPEG4_TEXTURE_TILE
(193)
–
GST_MPEG4_SHAPE_LAYER
(194)
–
GST_MPEG4_STUFFING
(195)
–
GST_MPEG4_SYSTEM_FIRST
(198)
–
GST_MPEG4_SYSTEM_LAST
(255)
–
GST_MPEG4_RESYNC
(4095)
–
GstMpeg4VideoObjectCodingType
typedef enum {
GST_MPEG4_I_VOP = 0x0,
GST_MPEG4_P_VOP = 0x1,
GST_MPEG4_B_VOP = 0x2,
GST_MPEG4_S_VOP = 0x3
} GstMpeg4VideoObjectCodingType;
The vop coding types as defined in: Table 6-20 -- Meaning of vop_coding_type
Members
GST_MPEG4_I_VOP
(0)
–
intra-coded (I)
GST_MPEG4_P_VOP
(1)
–
predictive-coded (P)
GST_MPEG4_B_VOP
(2)
–
bidirectionally-predictive-coded (B)
GST_MPEG4_S_VOP
(3)
–
sprite (S)
GstMpeg4VideoObjectLayerShape
typedef enum {
GST_MPEG4_RECTANGULAR,
GST_MPEG4_BINARY,
GST_MPEG4_BINARY_ONLY,
GST_MPEG4_GRAYSCALE
} GstMpeg4VideoObjectLayerShape;
The different video object layer shapes as defined in: Table 6-16 — Video Object Layer shape type
Members
GST_MPEG4_RECTANGULAR
(0)
–
GST_MPEG4_BINARY
(1)
–
GST_MPEG4_BINARY_ONLY
(2)
–
GST_MPEG4_GRAYSCALE
(3)
–
GstMpeg4VisualObjectType
typedef enum {
GST_MPEG4_VIDEO_ID = 0x01,
GST_MPEG4_STILL_TEXTURE_ID = 0x02,
GST_MPEG4_STILL_MESH_ID = 0x03,
GST_MPEG4_STILL_FBA_ID = 0x04,
GST_MPEG4_STILL_3D_MESH_ID = 0x05,
/*... reserved */
} GstMpeg4VisualObjectType;
Defines the different visual object types as defined in: Table 6-5 -- Meaning of visual object type
Members
GST_MPEG4_VIDEO_ID
(1)
–
GST_MPEG4_STILL_TEXTURE_ID
(2)
–
GST_MPEG4_STILL_MESH_ID
(3)
–
GST_MPEG4_STILL_FBA_ID
(4)
–
GST_MPEG4_STILL_3D_MESH_ID
(5)
–
The results of the search are