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1070 lines
36 KiB
Plaintext
1070 lines
36 KiB
Plaintext
==================================
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NUT Open Container Format 20061104
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==================================
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Intro:
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======
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NUT is a Free multimedia container format for storage of audio, video,
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subtitles and related user defined streams, it provides exact timestamps for
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synchronization and seeking, is simple, has low overhead and can recover
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in case of errors in the stream
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other common multimedia container formats are AVI, OGG, Matroska, MP4, MOV
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ASF, MPEG-PS, MPEG-TS
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Features / goals:
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(supported by the format, not necessarily by a specific implementation)
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Simple
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use the same encoding for nearly all fields
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simple decoding, so slow CPUs (and embedded systems) can handle it
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Extendible
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no limit for the possible values of all fields (using universal vlc)
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allow adding of new headers in the future
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allow adding more fields at the end of headers
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Compact
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~0.2% overhead, for normal bitrates
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index is <100kb per hour
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a usual header for a file is about 100 bytes (audio + video headers together)
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a packet header is about ~1-5 bytes
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Error resistant
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seeking / playback without an index
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headers & index can be repeated
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damaged files can be played back with minimal data loss and fast
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resync times
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The spec is frozen. All files following spec will be compatible unless the
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spec is unfrozen.
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Definitions:
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============
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MUST the specific part must be done to conform to this standard
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SHOULD it is recommended to be done that way, but not strictly required
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keyframe
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A keyframe is a frame from which you can start decoding, a more
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exact definition is below
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The nth frame is a keyframe if and only if frames n, n+1, ... in
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presentation order (that are all frames with a pts >= frame[n].pts) can
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be decoded successfully without reference to frames prior n in storage
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order (that are all frames with a dts < frame[n].dts)
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if no such frames exist (for example due to use of overlapped transforms
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like the MDCT in an audio codec) then the definition shall be extended
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by dropping n out of the set of frames which must be decodable, if this
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is still insufficient then n+1 shall be dropped, and so on until there is
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a keyframe
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every frame which is marked as a keyframe MUST be a keyframe according to
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the definition above, a muxer MUST mark every frame it knows is a keyframe
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as such, a muxer SHOULD NOT analyze future frames to determine the
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keyframe status of the current frame but instead just set the frame as
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non keyframe
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(FIXME maybe move somewhere else?)
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pts
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presentation time of the first frame/sample that is completed by decoding
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the coded frame.
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dts
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of a frame is the time when it is input into a synchronous 1-in-1-out
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decoder
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Syntax:
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=======
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Since NUT heavily uses variable length fields, the simplest way to describe it
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is using a pseudocode approach.
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Conventions:
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============
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The data types have a name, used in the bitstream syntax description, a short
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text description and a pseudocode (functional) definition, optional notes may
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follow:
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name (text description)
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functional definition
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[Optional notes]
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The bitstream syntax elements have a tagname and a functional definition, they
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are presented in a bottom up approach, again optional notes may follow and
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are reproduced in the tag description:
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name: (optional note)
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functional definition
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[Optional notes]
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The in-depth tag description follows the bitstream syntax.
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The functional definition has a C-like syntax.
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Type definitions:
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=================
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f(n) (n fixed bits in big-endian order)
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u(n) (unsigned number encoded in n bits in MSB-first order)
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v (variable length value, unsigned)
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value=0
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do{
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more_data u(1)
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data u(7)
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value= 128*value + data
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}while(more_data)
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s (variable length value, signed)
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temp v
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temp++
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if(temp&1) value= -(temp>>1)
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else value= (temp>>1)
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b (binary data or string, to be use in vb, see below)
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for(i=0; i<length; i++){
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data[i] u(8)
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}
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[Note: strings MUST be encoded in UTF-8]
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[Note: the character NUL (U+0000) is not legal within
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or at the end of a string.]
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vb (variable length binary data or string)
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length v
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value b
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t (v coded universal timestamp)
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tmp v
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id= tmp % time_base_count
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value= (tmp / time_base_count) * time_base[id]
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Bitstream syntax:
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=================
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file:
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file_id_string
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while(!eof){
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if(next_byte == 'N'){
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packet_header
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switch(startcode){
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case main_startcode: main_header; break;
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case stream_startcode:stream_header; break;
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case info_startcode: info_packet; break;
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case index_startcode: index; break;
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case syncpoint_startcode: syncpoint; break;
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}
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packet_footer
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}else
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frame
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}
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the structure of an undamaged file should look like the following, but
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demuxers should be flexible and be able to deal with damaged headers so the
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above is a better loop in practice (not to mention it is simpler)
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note, demuxers MUST be able to deal with new and unknown headers
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file:
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file_id_string
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while(!eof){
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packet_header, main_header, packet_footer
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reserved_headers
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for(i=0; i<stream_count; i++){
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packet_header, stream_header, packet_footer
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reserved_headers
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}
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while(next_code == info_startcode){
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packet_header, info_packet, packet_footer
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reserved_headers
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}
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if(next_code == index_startcode){
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packet_header, index_packet, packet_footer
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}
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if (!eof) while(next_code != main_startcode){
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if(next_code == syncpoint_startcode){
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packet_header, syncpoint, packet_footer
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}
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frame
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reserved_headers
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}
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}
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Common elements:
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----------------
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reserved_bytes:
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for(i=0; i<forward_ptr - length_of_non_reserved; i++)
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reserved u(8)
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[a demuxer MUST ignore any reserved bytes
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a muxer MUST NOT write any reserved bytes, as this would make it
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impossible to add new fields at the end of packets in the future
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in a compatible way]
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packet_header
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startcode f(64)
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forward_ptr v
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if(forward_ptr > 4096)
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header_checksum u(32)
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packet_footer
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checksum u(32)
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reserved_headers
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while(next_byte == 'N' && next_code != main_startcode
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&& next_code != stream_startcode
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&& next_code != info_startcode
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&& next_code != index_startcode
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&& next_code != syncpoint_startcode){
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packet_header
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reserved_bytes
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packet_footer
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}
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Headers:
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main_header:
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version v
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stream_count v
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max_distance v
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time_base_count v
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for(i=0; i<time_base_count; i++)
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time_base_num v
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time_base_denom v
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time_base[i]= time_base_num/time_base_denom
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tmp_pts=0
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tmp_mul=1
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tmp_stream=0
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for(i=0; i<256; ){
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tmp_flag v
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tmp_fields v
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if(tmp_fields>0) tmp_pts s
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if(tmp_fields>1) tmp_mul v
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if(tmp_fields>2) tmp_stream v
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if(tmp_fields>3) tmp_size v
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else tmp_size=0
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if(tmp_fields>4) tmp_res v
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else tmp_res=0
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if(tmp_fields>5) count v
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else count= tmp_mul - tmp_size
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for(j=6; j<tmp_fields; j++){
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tmp_reserved[i] v
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}
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for(j=0; j<count && i<256; j++, i++){
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if (i == 'N') {
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flags[i]= FLAG_INVALID;
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j--;
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continue;
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}
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flags[i]= tmp_flag;
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stream_id[i]= tmp_stream;
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data_size_mul[i]= tmp_mul;
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data_size_lsb[i]= tmp_size + j;
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pts_delta[i]= tmp_pts;
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reserved_count[i]= tmp_res;
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}
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}
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reserved_bytes
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stream_header:
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stream_id v
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stream_class v
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fourcc vb
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time_base_id v
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msb_pts_shift v
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max_pts_distance v
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decode_delay v
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stream_flags v
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codec_specific_data vb
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if(stream_class == video){
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width v
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height v
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sample_width v
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sample_height v
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colorspace_type v
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}else if(stream_class == audio){
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samplerate_num v
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samplerate_denom v
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channel_count v
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}
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reserved_bytes
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Basic Packets:
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frame:
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frame_code f(8)
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frame_flags= flags[frame_code]
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if(frame_flags&FLAG_CODED){
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coded_flags v
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frame_flags ^= coded_flags
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}
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if(frame_flags&FLAG_STREAM_ID){
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stream_id v
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}
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if(frame_flags&FLAG_CODED_PTS){
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coded_pts v
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}
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if(frame_flags&FLAG_SIZE_MSB){
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data_size_msb v
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}
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if(frame_flags&FLAG_RESERVED)
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reserved_count[frame_code] v
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for(i=0; i<reserved_count[frame_code]; i++)
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reserved v
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if(frame_flags&FLAG_CHECKSUM){
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checksum u(32)
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}
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data
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index:
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max_pts t
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syncpoints v
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for(i=0; i<syncpoints; i++){
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syncpoint_pos_div16 v
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}
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for(i=0; i<stream_count; i++){
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last_pts= -1
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for(j=0; j<syncpoints; ){
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x v
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type= x & 1
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x>>=1
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n=j
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if(type){
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flag= x & 1
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x>>=1
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while(x--)
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has_keyframe[n++][i]=flag
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has_keyframe[n++][i]=!flag;
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}else{
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while(x != 1){
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has_keyframe[n++][i]=x&1;
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x>>=1;
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}
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}
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for(; j<n && j<syncpoints; j++){
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if (!has_keyframe[j][i]) continue
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A v
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if(!A){
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A v
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B v
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eor_pts[j][i] = last_pts + A + B
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}else
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B=0
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keyframe_pts[j][i] = last_pts + A
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last_pts += A + B
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}
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}
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}
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reserved_bytes
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index_ptr u(64)
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info_packet:
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stream_id_plus1 v
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chapter_id s (Note due to a typo this was v
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until 2006-11-04)
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chapter_start t
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chapter_len v
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count v
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for(i=0; i<count; i++){
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name vb
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value s
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if (value==-1){
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type= "UTF-8"
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value vb
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}else if (value==-2){
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type vb
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value vb
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}else if (value==-3){
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type= "s"
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value s
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}else if (value==-4){
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type= "t"
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value t
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}else if (value<-4){
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type= "r"
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value.den= -value-4
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value.num s
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}else{
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type= "v"
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}
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}
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reserved_bytes
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syncpoint:
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global_key_pts t
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back_ptr_div16 v
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reserved_bytes
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Complete definition:
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Tag description:
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----------------
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file_id_string
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"nut/multimedia container\0"
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the very first thing in every nut file, useful for identifying nut
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files
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*_startcode (f(64))
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all startcodes start with 'N'
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main_startcode (f(64))
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0x7A561F5F04ADULL + (((uint64_t)('N'<<8) + 'M')<<48)
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stream_startcode (f(64))
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0x11405BF2F9DBULL + (((uint64_t)('N'<<8) + 'S')<<48)
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syncpoint_startcode (f(64))
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0xE4ADEECA4569ULL + (((uint64_t)('N'<<8) + 'K')<<48)
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index_startcode (f(64))
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0xDD672F23E64EULL + (((uint64_t)('N'<<8) + 'X')<<48)
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info_startcode (f(64))
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0xAB68B596BA78ULL + (((uint64_t)('N'<<8) + 'I')<<48)
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version (v)
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NUT version. The current value is 3. All lower values are pre-freeze
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stream_count (v)
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number of streams in this file
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time_base_count (v)
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number of different time bases in this file
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this MUST NOT be 0
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forward_ptr (v)
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size of the packet data (exactly the distance from the first byte
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after the packet_header to the first byte of the next packet)
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every nut packet contains a forward_ptr immediately after its startcode
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with the exception of frame_code based packets, the forward pointer
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can be used to skip over the packet without decoding its contents
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max_distance (v)
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max distance between startcodes. If p1 and p2 are the byte
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positions of the first byte of two consecutive startcodes, then
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p2-p1 MUST be less than or equal to max_distance unless the entire
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span from p1 to p2 comprises a single packet or a syncpoint
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followed by a single frame. This imposition places efficient upper
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bounds on seek operations and allows for the detection of damaged
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frame headers, should a chain of frame headers pass max_distance
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without encountering any startcode.
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syncpoints SHOULD be placed immediately before a keyframe if the
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previous frame of the same stream was a non-keyframe, unless such
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non-keyframe - keyframe transitions are very frequent
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SHOULD be set to <=32768
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if the stored value is >65536 then max_distance MUST be set to 65536
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This is also half the max frame size without a checksum after the
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frameheader.
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max_pts_distance (v)
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max absolute difference of pts of new frame from last_pts in the
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timebase of the stream, without a checksum after the frameheader.
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A frame header MUST include a checksum if abs(pts-last_pts) is
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strictly greater than max_pts_distance.
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Note that last_pts is not necessarily the pts of the last frame
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on the same stream, as it is altered by syncpoint timestamps.
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SHOULD NOT be higher than 1/timebase
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stream_id (v)
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Stream identifier
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stream_id MUST be < stream_count
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stream_class (v)
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0 video
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1 audio
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2 subtitles
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3 userdata
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Note: the remaining values are reserved and MUST NOT be used
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a demuxer MUST ignore streams with reserved classes
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fourcc (vb)
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identification for the codec
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example: "H264"
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MUST contain 2 or 4 bytes, note, this might be increased in the future
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if needed
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the id values used are the same as in avi, so if a codec uses a specific
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fourcc in avi then the same fourcc MUST be used here
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time_base_num (v) / time_base_denom (v) = time_base
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the length of a timer tick in seconds, this MUST be equal to the 1/fps
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if FLAG_FIXED_FPS is set
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time_base_num and time_base_denom MUST NOT be 0
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time_base_num and time_base_denom MUST be relatively prime
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time_base_denom MUST be < 2^31
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examples:
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fps time_base_num time_base_denom
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30 1 30
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29.97 1001 30000
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23.976 1001 24000
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There MUST NOT be 2 identical timebases in a file.
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There SHOULD NOT be more timebases than streams.
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time_base_id (v)
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index into the time_base table
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MUST be < time_base_count
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convert_ts
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To switch from 2 different timebases, the following calculation is
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defined:
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ln = from_time_base_num*to_time_base_denom
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sn = from_timestamp
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d1 = from_time_base_denom
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d2 = to_time_base_num
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timestamp = (ln/d1*sn + ln%d1*sn/d1)/d2
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Note: this calculation MUST be done with unsigned 64 bit integers, and
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is equivalent to (ln*sn)/(d1*d2) but this would require a 96bit integer
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compare_ts
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Compares timestamps from 2 different timebases,
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if a is before b then compare_ts(a, b) = -1
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if a is after b then compare_ts(a, b) = 1
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else compare_ts(a, b) = 0
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Care must be taken that this is done exactly with no rounding errors,
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simply casting to float or double and doing the obvious
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a*timebase > b*timebase is not compliant or correct, neither is the
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same with integers, and
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a*a_timebase.num*b_timebase.den > b*b_timebase.num*a_timebase.den
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will overflow. One possible implementation which shouldn't overflow
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within the range of legal timestamps and timebases is:
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if (convert_ts(a, a_timebase, b_timebase) < b) return -1;
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if (convert_ts(b, b_timebase, a_timebase) < a) return 1;
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return 0;
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msb_pts_shift (v)
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amount of bits in lsb_pts
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MUST be <16
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decode_delay (v)
|
|
size of the reordering buffer used to convert pts to dts
|
|
codecs which don't support b frames normally use 0
|
|
mpeg1/mpeg2 style codecs with b frames use 1
|
|
h264 style b pyramid uses 2
|
|
h264 and future codecs might need values >2
|
|
audio codecs generally use 0 (we aren't aware of any which doesn't
|
|
but its theoretically possible that one exists which needs it >0)
|
|
decode_delay MUST NOT be set higher than necessary for a codec.
|
|
|
|
stream_flags (v)
|
|
Bit Name Description
|
|
1 FLAG_FIXED_FPS indicates that the fps is fixed
|
|
|
|
codec_specific_data (vb)
|
|
private global data for a codec (could be huffman tables or ...)
|
|
if a codec has a global header it SHOULD be placed in here instead of
|
|
at the start of every keyframe
|
|
the exact format is specified in the codec spec
|
|
for H.264 the NAL units MUST be formatted as in a bytestream
|
|
(with 00 00 01 prefixes)
|
|
codec_specific_data SHOULD contain exactly the essential global packets
|
|
needed to decode a stream, more specifically it SHOULD NOT contain packets
|
|
which contain only non essential metadata like author, title, ...
|
|
it also MUST NOT contain normal packets which cause the reference decoder
|
|
to generate any specific decoded samples
|
|
the encoder name and version, shall be considered essential as it is very
|
|
usefull to workaround possible encoder bugs
|
|
The global headers MUST consist of the normal
|
|
sequence of header packets required for codec initialization, in the
|
|
order defined in the codec spec. An implementation MAY strip metadata and
|
|
other redundant information not necessary for correct playback from the
|
|
global headers as long as no incorrect values are stored and as long as
|
|
the striped result is not less valid per codec spec as before striping
|
|
|
|
frame_code (f(8))
|
|
frame_code is an 8-bit field which exists before every frame, it can
|
|
store part of the size of the frame, the stream number, the timestamp
|
|
and some flags amongst other things, what is not directly stored
|
|
in it but is needed is stored in various fields immediately after it
|
|
the values stored in it can be found in the main header
|
|
the value 78 ('N') is forbidden to ensure that the byte is always
|
|
different from the first byte of any startcode
|
|
a muxer SHOULD mark 0x00 and 0xFF as invalid to improve error
|
|
detection
|
|
|
|
flags[frame_code], frame_flags (v)
|
|
Bit Name Description
|
|
0 FLAG_KEY if set, frame is keyframe
|
|
1 FLAG_EOR if set, stream has no relevance on
|
|
presentation. (EOR)
|
|
3 FLAG_CODED_PTS if set, coded_pts is in the frame header
|
|
4 FLAG_STREAM_ID if set, stream_id is coded in the frame header
|
|
5 FLAG_SIZE_MSB if set, data_size_msb is at frame header,
|
|
otherwise data_size_msb is 0
|
|
6 FLAG_CHECKSUM if set then the frame header contains a checksum
|
|
7 FLAG_RESERVED if set, reserved_count is coded in the frame header
|
|
12 FLAG_CODED if set, coded_flags are stored in the frame header.
|
|
13 FLAG_INVALID if set, frame_code is invalid.
|
|
|
|
EOR frames MUST be zero-length and must be set keyframe.
|
|
All streams SHOULD end with EOR, where the pts of the EOR indicates the
|
|
end presentation time of the final frame.
|
|
An EOR set stream is unset by the first content frames.
|
|
EOR can only be unset in streams with zero decode_delay .
|
|
FLAG_CHECKSUM MUST be set if the frame's data_size is strictly greater than
|
|
2*max_distance or the difference abs(pts-last_pts) is strictly greater than
|
|
max_pts_distance (where pts represents this frame's pts and last_pts is
|
|
defined as below).
|
|
|
|
last_pts
|
|
the timestamp of the last frame with the same stream_id as the current
|
|
if there is no such frame between the last syncpoint and the current
|
|
frame then the syncpoint timestamp is used, see global_key_pts
|
|
|
|
stream_id[frame_code] (v)
|
|
if FLAG_STREAM_ID is not set then this is the stream number for the
|
|
frame following this frame_code
|
|
if FLAG_STREAM_ID is set then this value has no meaning
|
|
MUST be <250
|
|
|
|
data_size_mul[frame_code] (v)
|
|
if FLAG_SIZE_MSB is set then data_size_msb which is stored after the
|
|
frame code is multiplied with it and forms the more significant part
|
|
of the size of the following frame
|
|
if FLAG_SIZE_MSB is not set then this field has no meaning
|
|
MUST be <16384
|
|
|
|
data_size_lsb[frame_code] (v)
|
|
the less significant part of the size of the following frame
|
|
this added together with data_size_mul*data_size_msb is the size of
|
|
the following frame
|
|
MUST be <16384
|
|
|
|
pts_delta[frame_code] (s)
|
|
MUST be <16384 and >-16384
|
|
if FLAG_CODED_PTS is set in the flags of the current frame then this
|
|
value MUST be ignored, if FLAG_CODED_PTS is not set then pts_delta is the
|
|
difference between the current pts and last_pts
|
|
|
|
reserved_count[frame_code] (v)
|
|
MUST be <256
|
|
|
|
data_size
|
|
the size of the following frame
|
|
data_size= data_size_lsb + data_size_msb*data_size_mul;
|
|
|
|
coded_pts (v)
|
|
if coded_pts < (1<<msb_pts_shift) then it is an lsb
|
|
pts, otherwise it is a full pts + (1<<msb_pts_shift)
|
|
lsb pts is converted to a full pts by:
|
|
mask = (1<<msb_pts_shift)-1;
|
|
delta = last_pts - mask/2
|
|
pts = ((pts_lsb-delta)&mask) + delta
|
|
|
|
lsb_pts
|
|
least significant bits of the pts in time_base precision
|
|
Example: IBBP display order
|
|
keyframe pts=0 -> pts=0
|
|
frame lsb_pts=3 -> pts=3
|
|
frame lsb_pts=1 -> pts=1
|
|
frame lsb_pts=2 -> pts=2
|
|
...
|
|
keyframe msb_pts=257 -> pts=257
|
|
frame lsb_pts=255 -> pts=255
|
|
frame lsb_pts=0 -> pts=256
|
|
frame lsb_pts=4 -> pts=260
|
|
frame lsb_pts=2 -> pts=258
|
|
frame lsb_pts=3 -> pts=259
|
|
all pts's of keyframes of a single stream MUST be monotone
|
|
|
|
dts
|
|
decoding timestamp
|
|
the dts of a frame is the timestamp of the first sample which is
|
|
output by a decoder when it is fed with the frame, note that the
|
|
data output is not necessarily what is coded in the frame, but may
|
|
be data from previous frames
|
|
dts is calculated by using a decode_delay+1 sized buffer for each
|
|
stream, into which the current pts is inserted and the element with
|
|
the smallest value is removed, this is then the current dts
|
|
this buffer is initialized with decode_delay -1 elements
|
|
|
|
Pts of all frames in all streams MUST be bigger or equal to dts of all
|
|
previous frames in all streams, compared in common timebase. (EOR
|
|
frames are NOT exempt from this rule)
|
|
Dts of all frames MUST be bigger or equal to dts of all previous frames
|
|
in the same stream
|
|
|
|
width (v) / height (v)
|
|
width and height of the video in pixels
|
|
MUST be set to the coded width/height, MUST NOT be 0
|
|
|
|
sample_width (v) /sample_height (v) (aspect ratio)
|
|
sample_width is the horizontal distance between samples
|
|
sample_width and sample_height MUST be relatively prime if not zero
|
|
both MUST be 0 if unknown otherwise both MUST be non zero
|
|
|
|
colorspace_type (v)
|
|
0 unknown
|
|
1 ITU Rec 624 / ITU Rec 601 Y range: 16..235 Cb/Cr range: 16..240
|
|
2 ITU Rec 709 Y range: 16..235 Cb/Cr range: 16..240
|
|
17 ITU Rec 624 / ITU Rec 601 Y range: 0..255 Cb/Cr range: 0..255
|
|
18 ITU Rec 709 Y range: 0..255 Cb/Cr range: 0..255
|
|
|
|
samplerate_num (v) / samplerate_denom (v) = samplerate
|
|
the number of samples per second, MUST NOT be 0
|
|
|
|
crc32 checksum
|
|
Generator polynomial is 0x104C11DB7. Starting value is zero.
|
|
|
|
checksum (u(32))
|
|
crc32 checksum
|
|
checksum is calculated for the area pointed to by forward_ptr not
|
|
including the checksum itself (from first byte after the
|
|
packet_header until last byte before the checksum).
|
|
for frame headers the checksum contains the framecode byte and all
|
|
following bytes up to the checksum itself
|
|
|
|
header_checksum (u(32))
|
|
checksum over the startcode and forward pointer
|
|
|
|
Syncpoint tags:
|
|
---------------
|
|
|
|
back_ptr_div16 (v)
|
|
back_ptr = back_ptr_div16 * 16 + 15
|
|
back_ptr must point to a position within 16 bytes of a syncpoint
|
|
startcode. This syncpoint MUST be the closest syncpoint such that at
|
|
least one keyframe with a pts lower or equal to the original syncpoint's
|
|
global_key_pts for all streams lies between it and the current syncpoint.
|
|
|
|
A stream where EOR is set is to be ignored for back_ptr.
|
|
|
|
global_key_pts (t)
|
|
After a syncpoint, last_pts of each stream is to be set to:
|
|
last_pts[i] = convert_ts(global_key_pts, time_base[id], time_base[i])
|
|
|
|
global_key_pts MUST be bigger or equal to dts of all past frames across
|
|
all streams, and smaller or equal to pts of all future frames.
|
|
|
|
Index tags:
|
|
-----------
|
|
|
|
max_pts (t)
|
|
The highest pts in the entire file
|
|
|
|
syncpoints (v)
|
|
number of indexed syncpoints
|
|
|
|
syncpoint_pos_div16 (v)
|
|
offset from beginning of file to up to 15 bytes before the syncpoint
|
|
referred to in this index entry. Relative to position of last
|
|
syncpoint.
|
|
|
|
has_keyframe
|
|
indicates whether this stream has a keyframe between this syncpoint and
|
|
the last syncpoint.
|
|
|
|
keyframe_pts
|
|
The pts of the first keyframe for this stream in the region between the
|
|
2 syncpoints, in the stream's timebase. (EOR frames are also keyframes)
|
|
|
|
eor_pts
|
|
Coded only if EOR is set at the position of the syncpoint. The pts of
|
|
that EOR. EOR is unset by the first keyframe after it.
|
|
|
|
index_ptr (u(64))
|
|
Length in bytes of the entire index, from the first byte of the
|
|
startcode until the last byte of the checksum.
|
|
Note: A demuxer can use this to find the index when it is written at
|
|
EOF, as index_ptr will always be 12 bytes before the end of file if
|
|
there is an index at all.
|
|
|
|
|
|
Info tags:
|
|
----------
|
|
|
|
stream_id_plus1 (v)
|
|
Stream this info packet applies to. If zero, packet applies to whole
|
|
file.
|
|
|
|
chapter_id (s)
|
|
Id of chapter this packet applies to. If zero, packet applies to whole
|
|
file. Positive chapter_id's are real chapters and MUST NOT overlap.
|
|
Negative chapter_id indicate a sub region of file and not a real
|
|
chapter. chapter_id MUST be unique to the region it represents.
|
|
chapter_id n MUST not be used unless there are at least n chapters in the
|
|
file
|
|
|
|
chapter_start (t)
|
|
timestamp of start of chapter
|
|
|
|
chapter_len (v)
|
|
Length of chapter in same timebase of chapter_start.
|
|
|
|
count (v)
|
|
number of name/value pairs in this info packet
|
|
|
|
type
|
|
for example: "UTF8" -> string or "JPEG" -> JPEG image
|
|
"v" -> unsigned integer
|
|
"s" -> signed integer
|
|
"r" -> rational
|
|
Note: nonstandard fields should be prefixed by "X-"
|
|
Note: MUST be less than 6 byte long (might be increased to 64 later)
|
|
|
|
info packet types
|
|
the name of the info entry, valid names are
|
|
"Author"
|
|
"Description"
|
|
"Copyright"
|
|
"Encoder"
|
|
the name & version of the software used for encoding
|
|
"Title"
|
|
"Cover" (allowed types are "PNG" and "JPEG")
|
|
image of the (CD, DVD, VHS, ..) cover (preferably PNG or JPEG)
|
|
"Source"
|
|
"DVD", "VCD", "CD", "MD", "FM radio", "VHS", "TV", "LD"
|
|
Optional: appended PAL, NTSC, SECAM, ... in parentheses
|
|
"SourceContainer"
|
|
"nut", "mkv", "mov", "avi", "ogg", "rm", "mpeg-ps", "mpeg-ts", "raw"
|
|
"SourceCodecTag"
|
|
the source codec id like a fourcc which was used to store a specific
|
|
stream in its SourceContainer
|
|
"CaptureDevice"
|
|
"BT878", "BT848", "webcam", ... (more exact names are fine too)
|
|
"CreationTime"
|
|
"2003-01-20 20:13:15Z", ...
|
|
(ISO 8601 format, see http://www.cl.cam.ac.uk/~mgk25/iso-time.html)
|
|
Note: do not forget the timezone
|
|
"Keywords"
|
|
"Language"
|
|
ISO 639 and ISO 3166 for language/country code
|
|
something like "eng" (US English), can be 0 if unknown
|
|
and "multi" if several languages
|
|
see http://www.loc.gov/standards/iso639-2/englangn.html
|
|
and http://www.din.de/gremien/nas/nabd/iso3166ma/codlstp1/en_listp1.html
|
|
the language code
|
|
"Disposition"
|
|
"original", "dub" (translated), "comment", "lyrics", "karaoke"
|
|
Note: if someone needs some others, please tell us about them, so we
|
|
can add them to the official standard (if they are sane)
|
|
Note: nonstandard fields should be prefixed by "X-"
|
|
Note: names of fields SHOULD be in English if a word with the same
|
|
meaning exists in English
|
|
Note: MUST be less than 64 bytes long
|
|
|
|
value
|
|
value of this name/type pair
|
|
|
|
stuffing
|
|
0x80 can be placed in front of any type v entry for stuffing purposes
|
|
except the forward_ptr and all fields in the frame header where a
|
|
maximum of 8 stuffing bytes per field are allowed
|
|
|
|
|
|
Structure:
|
|
----------
|
|
|
|
the headers MUST be in exactly the following order (to simplify demuxer design)
|
|
main header
|
|
stream_header (id=0)
|
|
stream_header (id=1)
|
|
...
|
|
stream_header (id=n)
|
|
|
|
headers may be repeated, but if they are, then they MUST all be repeated
|
|
together and repeated headers MUST be identical
|
|
|
|
Each set of repeated headers not at the beginning or end of the file SHOULD
|
|
be stored at the earliest possible position after 2^x where x is
|
|
an integer and the file end, so the headers may be repeated at 4102 if that is
|
|
the closest position after 2^12=4096 at which the headers can be placed
|
|
|
|
Note: this allows an implementation reading the file to locate backup
|
|
headers in O(log filesize) time as opposed to O(filesize)
|
|
|
|
headers MUST be placed at least at the start of the file and immediately before
|
|
the index or at the file end if there is no index
|
|
headers MUST be repeated at least twice (so they exist three times in a file)
|
|
|
|
there MUST be a sync point immediately before the first frame after any headers
|
|
|
|
|
|
Index:
|
|
------
|
|
|
|
Note: with realtime streaming, there is no end, so no index there either
|
|
Index MAY only be repeated after main headers.
|
|
If an index is written anywhere in the file, it MUST be written at end of
|
|
file as well.
|
|
|
|
|
|
Info:
|
|
-----
|
|
|
|
If a info packet is stored anywhere then a muxer MUST also store an identical
|
|
info packet after every main-stream-header set
|
|
|
|
If a demuxer has seen several info packets with the same chapter_id and
|
|
stream_id then it MUST ignore all but the one with the highest position in
|
|
the file
|
|
|
|
demuxers SHOULD NOT search the whole file for info packets
|
|
|
|
demuxer (non-normative):
|
|
------------------------
|
|
|
|
in the absence of a valid header at the beginning, players SHOULD search for
|
|
backup headers starting at offset 2^x; for each x players SHOULD end their
|
|
search at a particular offset when any startcode is found (including syncpoint)
|
|
|
|
|
|
Seeking without an index (non-normative):
|
|
-----------------------------------------
|
|
A. backward seeking
|
|
1. perform a binary search on the syncpoint timestamps finding the one
|
|
which is largest and <= the target timestamp
|
|
B. forward seeking
|
|
1a. perform a binary search on the syncpoint timestamps finding the one
|
|
which is smallest and >= the target timestamp
|
|
1b. perform a binary search on the syncpoint back pointers finding the
|
|
smallest one which has a back ptr >= the position of what was found in 1.
|
|
2. follow the back pointer to the corresponding syncpoint
|
|
|
|
Seeking with an index (non-normative):
|
|
--------------------------------------
|
|
The demuxer only has to find the appropriate keyframe in the index and
|
|
start demuxing from the previous syncpoint
|
|
|
|
Note, more complicated seeking methods exist which are capable of quickly
|
|
seeking to the optimal point in the presence of an index even if only a
|
|
subset of all streams is active
|
|
|
|
A muxer SHOULD place syncpoints so that that simple low complexity seeking
|
|
works with fine granularity, that is syncpoints should be placed prior
|
|
to keyframes instead of non keyframes and with high enough frequency
|
|
(once per second unless there are no keyframes between this and the previous
|
|
syncpoint)
|
|
|
|
encoders SHOULD place keyframes so that the number of points where all
|
|
streams have a keyframe at the same time is maximized, this ensures that
|
|
seeking (complicated or not) does not need to demux and decode significant
|
|
amounts of data to reach a point where a presentable frame for each stream
|
|
is available after seeking
|
|
|
|
|
|
Semantic requirements:
|
|
======================
|
|
|
|
If more than one stream of a given stream class is present, each one SHOULD
|
|
have info tags specifying disposition, and if applicable, language.
|
|
It often highly improves usability and is therefore strongly encouraged.
|
|
|
|
A demuxer MUST NOT demux a stream which contains more than one stream, or which
|
|
is wrapped in a structure to facilitate more than one stream or otherwise
|
|
duplicate the role of a container. any such file is to be considered invalid.
|
|
for example vorbis in ogg in nut is invalid, as is
|
|
mpegvideo+mpegaudio in mpeg-ps/ts in nut or dvvideo + dvaudio in dv in nut
|
|
|
|
|
|
|
|
Sample code (Public Domain, & untested):
|
|
========================================
|
|
|
|
typedef BufferContext{
|
|
uint8_t *buf;
|
|
uint8_t *buf_ptr;
|
|
}BufferContext;
|
|
|
|
static inline uint64_t get_bytes(BufferContext *bc, int count){
|
|
uint64_t val=0;
|
|
|
|
assert(count>0 && count<9);
|
|
|
|
for(i=0; i<count; i++){
|
|
val <<=8;
|
|
val += *(bc->buf_ptr++);
|
|
}
|
|
|
|
return val;
|
|
}
|
|
|
|
static inline void put_bytes(BufferContext *bc, int count, uint64_t val){
|
|
uint64_t val=0;
|
|
|
|
assert(count>0 && count<9);
|
|
|
|
for(i=count-1; i>=0; i--){
|
|
*(bc->buf_ptr++)= val >> (8*i);
|
|
}
|
|
|
|
return val;
|
|
}
|
|
|
|
static inline uint64_t get_v(BufferContext *bc){
|
|
uint64_t val= 0;
|
|
|
|
for(; space_left(bc) > 0; ){
|
|
int tmp= *(bc->buf_ptr++);
|
|
if(tmp&0x80)
|
|
val= (val<<7) + tmp - 0x80;
|
|
else
|
|
return (val<<7) + tmp;
|
|
}
|
|
|
|
return -1;
|
|
}
|
|
|
|
static inline int put_v(BufferContext *bc, uint64_t val){
|
|
int i;
|
|
|
|
if(space_left(bc) < 9) return -1;
|
|
|
|
val &= 0x7FFFFFFFFFFFFFFFULL; // FIXME can only encode up to 63 bits currently
|
|
for(i=7; ; i+=7){
|
|
if(val>>i == 0) break;
|
|
}
|
|
|
|
for(i-=7; i>0; i-=7){
|
|
*(bc->buf_ptr++)= 0x80 | (val>>i);
|
|
}
|
|
*(bc->buf_ptr++)= val&0x7F;
|
|
|
|
return 0;
|
|
}
|
|
|
|
static int64_t get_dts(int64_t pts, int64_t *pts_cache, int delay, int reset){
|
|
if(reset) memset(pts_cache, -1, delay*sizeof(int64_t));
|
|
|
|
while(delay--){
|
|
int64_t t= pts_cache[delay];
|
|
if(t < pts){
|
|
pts_cache[delay]= pts;
|
|
pts= t;
|
|
}
|
|
}
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return pts;
|
|
}
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Authors:
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|
========
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Folks from the MPlayer developers mailing list (http://www.mplayerhq.hu/).
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Authors in alphabetical order: (FIXME! Tell us if we left you out)
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Beregszaszi, Alex (alex@fsn.hu)
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|
Bunkus, Moritz (moritz@bunkus.org)
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|
Diedrich, Tobias (ranma+mplayer@tdiedrich.de)
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|
Felker, Rich (dalias@aerifal.cx)
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|
Franz, Fabian (FabianFranz@gmx.de)
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|
Gereoffy, Arpad (arpi@thot.banki.hu)
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|
Hess, Andreas (jaska@gmx.net)
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|
Niedermayer, Michael (michaelni@gmx.at)
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Shimon, Oded (ods15@ods15.dyndns.org)
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