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3194 lines
86 KiB
3194 lines
86 KiB
@chapter Filtergraph description |
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@c man begin FILTERGRAPH DESCRIPTION |
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A filtergraph is a directed graph of connected filters. It can contain |
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cycles, and there can be multiple links between a pair of |
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filters. Each link has one input pad on one side connecting it to one |
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filter from which it takes its input, and one output pad on the other |
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side connecting it to one filter accepting its output. |
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Each filter in a filtergraph is an instance of a filter class |
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registered in the application, which defines the features and the |
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number of input and output pads of the filter. |
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A filter with no input pads is called a "source", and a filter with no |
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output pads is called a "sink". |
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@anchor{Filtergraph syntax} |
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@section Filtergraph syntax |
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A filtergraph has a textual representation, which is |
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recognized by the @option{-filter}/@option{-vf} and @option{-filter_complex} |
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options in @command{avconv} and @option{-vf} in @command{avplay}, and by the |
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@code{avfilter_graph_parse()}/@code{avfilter_graph_parse2()} functions defined in |
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@file{libavfilter/avfilter.h}. |
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A filterchain consists of a sequence of connected filters, each one |
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connected to the previous one in the sequence. A filterchain is |
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represented by a list of ","-separated filter descriptions. |
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A filtergraph consists of a sequence of filterchains. A sequence of |
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filterchains is represented by a list of ";"-separated filterchain |
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descriptions. |
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A filter is represented by a string of the form: |
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[@var{in_link_1}]...[@var{in_link_N}]@var{filter_name}=@var{arguments}[@var{out_link_1}]...[@var{out_link_M}] |
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@var{filter_name} is the name of the filter class of which the |
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described filter is an instance of, and has to be the name of one of |
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the filter classes registered in the program. |
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The name of the filter class is optionally followed by a string |
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"=@var{arguments}". |
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@var{arguments} is a string which contains the parameters used to |
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initialize the filter instance. It may have one of two forms: |
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@itemize |
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@item |
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A ':'-separated list of @var{key=value} pairs. |
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@item |
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A ':'-separated list of @var{value}. In this case, the keys are assumed to be |
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the option names in the order they are declared. E.g. the @code{fade} filter |
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declares three options in this order -- @option{type}, @option{start_frame} and |
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@option{nb_frames}. Then the parameter list @var{in:0:30} means that the value |
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@var{in} is assigned to the option @option{type}, @var{0} to |
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@option{start_frame} and @var{30} to @option{nb_frames}. |
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@end itemize |
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If the option value itself is a list of items (e.g. the @code{format} filter |
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takes a list of pixel formats), the items in the list are usually separated by |
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'|'. |
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The list of arguments can be quoted using the character "'" as initial |
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and ending mark, and the character '\' for escaping the characters |
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within the quoted text; otherwise the argument string is considered |
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terminated when the next special character (belonging to the set |
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"[]=;,") is encountered. |
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The name and arguments of the filter are optionally preceded and |
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followed by a list of link labels. |
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A link label allows to name a link and associate it to a filter output |
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or input pad. The preceding labels @var{in_link_1} |
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... @var{in_link_N}, are associated to the filter input pads, |
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the following labels @var{out_link_1} ... @var{out_link_M}, are |
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associated to the output pads. |
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When two link labels with the same name are found in the |
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filtergraph, a link between the corresponding input and output pad is |
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created. |
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If an output pad is not labelled, it is linked by default to the first |
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unlabelled input pad of the next filter in the filterchain. |
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For example in the filterchain |
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@example |
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nullsrc, split[L1], [L2]overlay, nullsink |
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@end example |
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the split filter instance has two output pads, and the overlay filter |
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instance two input pads. The first output pad of split is labelled |
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"L1", the first input pad of overlay is labelled "L2", and the second |
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output pad of split is linked to the second input pad of overlay, |
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which are both unlabelled. |
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In a complete filterchain all the unlabelled filter input and output |
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pads must be connected. A filtergraph is considered valid if all the |
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filter input and output pads of all the filterchains are connected. |
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Libavfilter will automatically insert @ref{scale} filters where format |
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conversion is required. It is possible to specify swscale flags |
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for those automatically inserted scalers by prepending |
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@code{sws_flags=@var{flags};} |
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to the filtergraph description. |
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Here is a BNF description of the filtergraph syntax: |
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@example |
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@var{NAME} ::= sequence of alphanumeric characters and '_' |
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@var{LINKLABEL} ::= "[" @var{NAME} "]" |
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@var{LINKLABELS} ::= @var{LINKLABEL} [@var{LINKLABELS}] |
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@var{FILTER_ARGUMENTS} ::= sequence of chars (possibly quoted) |
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@var{FILTER} ::= [@var{LINKLABELS}] @var{NAME} ["=" @var{FILTER_ARGUMENTS}] [@var{LINKLABELS}] |
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@var{FILTERCHAIN} ::= @var{FILTER} [,@var{FILTERCHAIN}] |
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@var{FILTERGRAPH} ::= [sws_flags=@var{flags};] @var{FILTERCHAIN} [;@var{FILTERGRAPH}] |
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@end example |
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@c man end FILTERGRAPH DESCRIPTION |
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@chapter Audio Filters |
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@c man begin AUDIO FILTERS |
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When you configure your Libav build, you can disable any of the |
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existing filters using --disable-filters. |
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The configure output will show the audio filters included in your |
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build. |
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Below is a description of the currently available audio filters. |
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@section aformat |
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Convert the input audio to one of the specified formats. The framework will |
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negotiate the most appropriate format to minimize conversions. |
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It accepts the following parameters: |
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@table @option |
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@item sample_fmts |
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A '|'-separated list of requested sample formats. |
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@item sample_rates |
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A '|'-separated list of requested sample rates. |
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@item channel_layouts |
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A '|'-separated list of requested channel layouts. |
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@end table |
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If a parameter is omitted, all values are allowed. |
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Force the output to either unsigned 8-bit or signed 16-bit stereo |
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@example |
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aformat=sample_fmts=u8|s16:channel_layouts=stereo |
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@end example |
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@section amix |
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Mixes multiple audio inputs into a single output. |
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For example |
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@example |
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avconv -i INPUT1 -i INPUT2 -i INPUT3 -filter_complex amix=inputs=3:duration=first:dropout_transition=3 OUTPUT |
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@end example |
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will mix 3 input audio streams to a single output with the same duration as the |
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first input and a dropout transition time of 3 seconds. |
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It accepts the following parameters: |
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@table @option |
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@item inputs |
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The number of inputs. If unspecified, it defaults to 2. |
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@item duration |
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How to determine the end-of-stream. |
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@table @option |
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@item longest |
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The duration of the longest input. (default) |
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@item shortest |
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The duration of the shortest input. |
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@item first |
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The duration of the first input. |
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@end table |
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@item dropout_transition |
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The transition time, in seconds, for volume renormalization when an input |
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stream ends. The default value is 2 seconds. |
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@end table |
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@section anull |
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Pass the audio source unchanged to the output. |
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@section asetpts |
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Change the PTS (presentation timestamp) of the input audio frames. |
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It accepts the following parameters: |
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@table @option |
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@item expr |
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The expression which is evaluated for each frame to construct its timestamp. |
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@end table |
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The expression is evaluated through the eval API and can contain the following |
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constants: |
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@table @option |
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@item FRAME_RATE |
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frame rate, only defined for constant frame-rate video |
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@item PTS |
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the presentation timestamp in input |
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@item E, PI, PHI |
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These are approximated values for the mathematical constants e |
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(Euler's number), pi (Greek pi), and phi (the golden ratio). |
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@item N |
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The number of audio samples passed through the filter so far, starting at 0. |
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@item S |
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The number of audio samples in the current frame. |
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@item SR |
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The audio sample rate. |
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@item STARTPTS |
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The PTS of the first frame. |
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@item PREV_INPTS |
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The previous input PTS. |
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@item PREV_OUTPTS |
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The previous output PTS. |
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@item RTCTIME |
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The wallclock (RTC) time in microseconds. |
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@item RTCSTART |
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The wallclock (RTC) time at the start of the movie in microseconds. |
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@end table |
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Some examples: |
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@example |
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# Start counting PTS from zero |
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asetpts=expr=PTS-STARTPTS |
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# Generate timestamps by counting samples |
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asetpts=expr=N/SR/TB |
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# Generate timestamps from a "live source" and rebase onto the current timebase |
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asetpts='(RTCTIME - RTCSTART) / (TB * 1000000)" |
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@end example |
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@section asettb |
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Set the timebase to use for the output frames timestamps. |
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It is mainly useful for testing timebase configuration. |
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This filter accepts the following parameters: |
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@table @option |
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@item expr |
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The expression which is evaluated into the output timebase. |
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@end table |
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The expression can contain the constants @var{PI}, @var{E}, @var{PHI}, @var{AVTB} (the |
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default timebase), @var{intb} (the input timebase), and @var{sr} (the sample rate, |
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audio only). |
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The default value for the input is @var{intb}. |
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Some examples: |
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@example |
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# Set the timebase to 1/25: |
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settb=1/25 |
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# Set the timebase to 1/10: |
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settb=0.1 |
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# Set the timebase to 1001/1000: |
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settb=1+0.001 |
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# Set the timebase to 2*intb: |
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settb=2*intb |
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# Set the default timebase value: |
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settb=AVTB |
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# Set the timebase to twice the sample rate: |
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asettb=sr*2 |
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@end example |
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@section ashowinfo |
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Show a line containing various information for each input audio frame. |
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The input audio is not modified. |
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The shown line contains a sequence of key/value pairs of the form |
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@var{key}:@var{value}. |
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It accepts the following parameters: |
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@table @option |
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@item n |
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The (sequential) number of the input frame, starting from 0. |
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@item pts |
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The presentation timestamp of the input frame, in time base units; the time base |
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depends on the filter input pad, and is usually 1/@var{sample_rate}. |
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@item pts_time |
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The presentation timestamp of the input frame in seconds. |
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@item fmt |
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The sample format. |
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@item chlayout |
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The channel layout. |
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@item rate |
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The sample rate for the audio frame. |
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@item nb_samples |
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The number of samples (per channel) in the frame. |
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@item checksum |
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The Adler-32 checksum (printed in hexadecimal) of the audio data. For planar |
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audio, the data is treated as if all the planes were concatenated. |
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@item plane_checksums |
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A list of Adler-32 checksums for each data plane. |
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@end table |
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@section asplit |
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Split input audio into several identical outputs. |
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It accepts a single parameter, which specifies the number of outputs. If |
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unspecified, it defaults to 2. |
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For example, |
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@example |
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avconv -i INPUT -filter_complex asplit=5 OUTPUT |
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@end example |
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will create 5 copies of the input audio. |
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@section asyncts |
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Synchronize audio data with timestamps by squeezing/stretching it and/or |
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dropping samples/adding silence when needed. |
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It accepts the following parameters: |
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@table @option |
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@item compensate |
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Enable stretching/squeezing the data to make it match the timestamps. Disabled |
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by default. When disabled, time gaps are covered with silence. |
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@item min_delta |
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The minimum difference between timestamps and audio data (in seconds) to trigger |
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adding/dropping samples. The default value is 0.1. If you get an imperfect |
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sync with this filter, try setting this parameter to 0. |
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@item max_comp |
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The maximum compensation in samples per second. Only relevant with compensate=1. |
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The default value is 500. |
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@item first_pts |
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Assume that the first PTS should be this value. The time base is 1 / sample |
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rate. This allows for padding/trimming at the start of the stream. By default, |
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no assumption is made about the first frame's expected PTS, so no padding or |
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trimming is done. For example, this could be set to 0 to pad the beginning with |
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silence if an audio stream starts after the video stream or to trim any samples |
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with a negative PTS due to encoder delay. |
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@end table |
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@section atrim |
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Trim the input so that the output contains one continuous subpart of the input. |
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It accepts the following parameters: |
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@table @option |
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@item start |
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Timestamp (in seconds) of the start of the section to keep. I.e. the audio |
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sample with the timestamp @var{start} will be the first sample in the output. |
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@item end |
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Timestamp (in seconds) of the first audio sample that will be dropped. I.e. the |
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audio sample immediately preceding the one with the timestamp @var{end} will be |
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the last sample in the output. |
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@item start_pts |
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Same as @var{start}, except this option sets the start timestamp in samples |
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instead of seconds. |
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@item end_pts |
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Same as @var{end}, except this option sets the end timestamp in samples instead |
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of seconds. |
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@item duration |
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The maximum duration of the output in seconds. |
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@item start_sample |
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The number of the first sample that should be output. |
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@item end_sample |
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The number of the first sample that should be dropped. |
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@end table |
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Note that the first two sets of the start/end options and the @option{duration} |
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option look at the frame timestamp, while the _sample options simply count the |
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samples that pass through the filter. So start/end_pts and start/end_sample will |
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give different results when the timestamps are wrong, inexact or do not start at |
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zero. Also note that this filter does not modify the timestamps. If you wish |
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to have the output timestamps start at zero, insert the asetpts filter after the |
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atrim filter. |
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If multiple start or end options are set, this filter tries to be greedy and |
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keep all samples that match at least one of the specified constraints. To keep |
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only the part that matches all the constraints at once, chain multiple atrim |
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filters. |
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The defaults are such that all the input is kept. So it is possible to set e.g. |
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just the end values to keep everything before the specified time. |
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Examples: |
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@itemize |
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@item |
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Drop everything except the second minute of input: |
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@example |
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avconv -i INPUT -af atrim=60:120 |
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@end example |
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@item |
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Keep only the first 1000 samples: |
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@example |
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avconv -i INPUT -af atrim=end_sample=1000 |
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@end example |
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@end itemize |
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@section bs2b |
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Bauer stereo to binaural transformation, which improves headphone listening of |
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stereo audio records. |
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It accepts the following parameters: |
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@table @option |
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@item profile |
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Pre-defined crossfeed level. |
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@table @option |
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@item default |
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Default level (fcut=700, feed=50). |
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@item cmoy |
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Chu Moy circuit (fcut=700, feed=60). |
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@item jmeier |
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Jan Meier circuit (fcut=650, feed=95). |
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@end table |
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@item fcut |
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Cut frequency (in Hz). |
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@item feed |
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Feed level (in Hz). |
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@end table |
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@section channelsplit |
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Split each channel from an input audio stream into a separate output stream. |
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It accepts the following parameters: |
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@table @option |
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@item channel_layout |
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The channel layout of the input stream. The default is "stereo". |
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@end table |
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For example, assuming a stereo input MP3 file, |
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@example |
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avconv -i in.mp3 -filter_complex channelsplit out.mkv |
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@end example |
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will create an output Matroska file with two audio streams, one containing only |
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the left channel and the other the right channel. |
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Split a 5.1 WAV file into per-channel files: |
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@example |
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avconv -i in.wav -filter_complex |
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'channelsplit=channel_layout=5.1[FL][FR][FC][LFE][SL][SR]' |
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-map '[FL]' front_left.wav -map '[FR]' front_right.wav |
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-map '[FC]' front_center.wav -map '[LFE]' low_frequency_effects.wav |
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-map '[SL]' side_left.wav -map '[SR]' side_right.wav |
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@end example |
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@section channelmap |
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Remap input channels to new locations. |
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|
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It accepts the following parameters: |
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@table @option |
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@item channel_layout |
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The channel layout of the output stream. |
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|
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@item map |
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Map channels from input to output. The argument is a '|'-separated list of |
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mappings, each in the @code{@var{in_channel}-@var{out_channel}} or |
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@var{in_channel} form. @var{in_channel} can be either the name of the input |
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channel (e.g. FL for front left) or its index in the input channel layout. |
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@var{out_channel} is the name of the output channel or its index in the output |
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channel layout. If @var{out_channel} is not given then it is implicitly an |
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index, starting with zero and increasing by one for each mapping. |
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@end table |
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If no mapping is present, the filter will implicitly map input channels to |
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output channels, preserving indices. |
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|
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For example, assuming a 5.1+downmix input MOV file, |
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@example |
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avconv -i in.mov -filter 'channelmap=map=DL-FL|DR-FR' out.wav |
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@end example |
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will create an output WAV file tagged as stereo from the downmix channels of |
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the input. |
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|
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To fix a 5.1 WAV improperly encoded in AAC's native channel order |
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@example |
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avconv -i in.wav -filter 'channelmap=1|2|0|5|3|4:5.1' out.wav |
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@end example |
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|
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@section compand |
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Compress or expand the audio's dynamic range. |
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|
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It accepts the following parameters: |
|
|
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@table @option |
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|
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@item attacks |
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@item decays |
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A list of times in seconds for each channel over which the instantaneous level |
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of the input signal is averaged to determine its volume. @var{attacks} refers to |
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increase of volume and @var{decays} refers to decrease of volume. For most |
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situations, the attack time (response to the audio getting louder) should be |
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shorter than the decay time, because the human ear is more sensitive to sudden |
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loud audio than sudden soft audio. A typical value for attack is 0.3 seconds and |
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a typical value for decay is 0.8 seconds. |
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|
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@item points |
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A list of points for the transfer function, specified in dB relative to the |
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maximum possible signal amplitude. Each key points list must be defined using |
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the following syntax: @code{x0/y0|x1/y1|x2/y2|....} |
|
|
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The input values must be in strictly increasing order but the transfer function |
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does not have to be monotonically rising. The point @code{0/0} is assumed but |
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may be overridden (by @code{0/out-dBn}). Typical values for the transfer |
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function are @code{-70/-70|-60/-20}. |
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|
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@item soft-knee |
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Set the curve radius in dB for all joints. It defaults to 0.01. |
|
|
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@item gain |
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Set the additional gain in dB to be applied at all points on the transfer |
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function. This allows for easy adjustment of the overall gain. |
|
It defaults to 0. |
|
|
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@item volume |
|
Set an initial volume, in dB, to be assumed for each channel when filtering |
|
starts. This permits the user to supply a nominal level initially, so that, for |
|
example, a very large gain is not applied to initial signal levels before the |
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companding has begun to operate. A typical value for audio which is initially |
|
quiet is -90 dB. It defaults to 0. |
|
|
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@item delay |
|
Set a delay, in seconds. The input audio is analyzed immediately, but audio is |
|
delayed before being fed to the volume adjuster. Specifying a delay |
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approximately equal to the attack/decay times allows the filter to effectively |
|
operate in predictive rather than reactive mode. It defaults to 0. |
|
|
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@end table |
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|
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@subsection Examples |
|
|
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@itemize |
|
@item |
|
Make music with both quiet and loud passages suitable for listening to in a |
|
noisy environment: |
|
@example |
|
compand=.3|.3:1|1:-90/-60|-60/-40|-40/-30|-20/-20:6:0:-90:0.2 |
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@end example |
|
|
|
@item |
|
A noise gate for when the noise is at a lower level than the signal: |
|
@example |
|
compand=.1|.1:.2|.2:-900/-900|-50.1/-900|-50/-50:.01:0:-90:.1 |
|
@end example |
|
|
|
@item |
|
Here is another noise gate, this time for when the noise is at a higher level |
|
than the signal (making it, in some ways, similar to squelch): |
|
@example |
|
compand=.1|.1:.1|.1:-45.1/-45.1|-45/-900|0/-900:.01:45:-90:.1 |
|
@end example |
|
@end itemize |
|
|
|
@section join |
|
Join multiple input streams into one multi-channel stream. |
|
|
|
It accepts the following parameters: |
|
@table @option |
|
|
|
@item inputs |
|
The number of input streams. It defaults to 2. |
|
|
|
@item channel_layout |
|
The desired output channel layout. It defaults to stereo. |
|
|
|
@item map |
|
Map channels from inputs to output. The argument is a '|'-separated list of |
|
mappings, each in the @code{@var{input_idx}.@var{in_channel}-@var{out_channel}} |
|
form. @var{input_idx} is the 0-based index of the input stream. @var{in_channel} |
|
can be either the name of the input channel (e.g. FL for front left) or its |
|
index in the specified input stream. @var{out_channel} is the name of the output |
|
channel. |
|
@end table |
|
|
|
The filter will attempt to guess the mappings when they are not specified |
|
explicitly. It does so by first trying to find an unused matching input channel |
|
and if that fails it picks the first unused input channel. |
|
|
|
Join 3 inputs (with properly set channel layouts): |
|
@example |
|
avconv -i INPUT1 -i INPUT2 -i INPUT3 -filter_complex join=inputs=3 OUTPUT |
|
@end example |
|
|
|
Build a 5.1 output from 6 single-channel streams: |
|
@example |
|
avconv -i fl -i fr -i fc -i sl -i sr -i lfe -filter_complex |
|
'join=inputs=6:channel_layout=5.1:map=0.0-FL|1.0-FR|2.0-FC|3.0-SL|4.0-SR|5.0-LFE' |
|
out |
|
@end example |
|
|
|
@section hdcd |
|
|
|
Decodes High Definition Compatible Digital (HDCD) data. A 16-bit PCM stream with |
|
embedded HDCD codes is expanded into a 20-bit PCM stream. |
|
|
|
The filter supports the Peak Extend and Low-level Gain Adjustment features |
|
of HDCD, and detects the Transient Filter flag. |
|
|
|
@example |
|
avconv -i HDCD16.flac -af hdcd OUT24.flac |
|
@end example |
|
|
|
When using the filter with WAV, note that the default encoding for WAV is 16-bit, |
|
so the resulting 20-bit stream will be truncated back to 16-bit. Use something |
|
like @command{-acodec pcm_s24le} after the filter to get 24-bit PCM output. |
|
@example |
|
avconv -i HDCD16.wav -af hdcd OUT16.wav |
|
avconv -i HDCD16.wav -af hdcd -acodec pcm_s24le OUT24.wav |
|
@end example |
|
|
|
The filter accepts the following options: |
|
|
|
@table @option |
|
@item analyze_mode |
|
Replace audio with a solid tone and adjust the amplitude to signal some |
|
specific aspect of the decoding process. The output file can be loaded in |
|
an audio editor alongside the original to aid analysis. |
|
|
|
Modes are: |
|
@table @samp |
|
@item 0, off |
|
Disabled |
|
@item 1, lle |
|
Gain adjustment level at each sample |
|
@item 2, pe |
|
Samples where peak extend occurs |
|
@item 3, cdt |
|
Samples where the code detect timer is active |
|
@item 4, tgm |
|
Samples where the target gain does not match between channels |
|
@item 5, pel |
|
Any samples above peak extend level |
|
@item 6, ltgm |
|
Gain adjustment level at each sample, in each channel |
|
@end table |
|
@end table |
|
|
|
@section resample |
|
Convert the audio sample format, sample rate and channel layout. It is |
|
not meant to be used directly; it is inserted automatically by libavfilter |
|
whenever conversion is needed. Use the @var{aformat} filter to force a specific |
|
conversion. |
|
|
|
@section volume |
|
|
|
Adjust the input audio volume. |
|
|
|
It accepts the following parameters: |
|
@table @option |
|
|
|
@item volume |
|
This expresses how the audio volume will be increased or decreased. |
|
|
|
Output values are clipped to the maximum value. |
|
|
|
The output audio volume is given by the relation: |
|
@example |
|
@var{output_volume} = @var{volume} * @var{input_volume} |
|
@end example |
|
|
|
The default value for @var{volume} is 1.0. |
|
|
|
@item precision |
|
This parameter represents the mathematical precision. |
|
|
|
It determines which input sample formats will be allowed, which affects the |
|
precision of the volume scaling. |
|
|
|
@table @option |
|
@item fixed |
|
8-bit fixed-point; this limits input sample format to U8, S16, and S32. |
|
@item float |
|
32-bit floating-point; this limits input sample format to FLT. (default) |
|
@item double |
|
64-bit floating-point; this limits input sample format to DBL. |
|
@end table |
|
|
|
@item replaygain |
|
Choose the behaviour on encountering ReplayGain side data in input frames. |
|
|
|
@table @option |
|
@item drop |
|
Remove ReplayGain side data, ignoring its contents (the default). |
|
|
|
@item ignore |
|
Ignore ReplayGain side data, but leave it in the frame. |
|
|
|
@item track |
|
Prefer the track gain, if present. |
|
|
|
@item album |
|
Prefer the album gain, if present. |
|
@end table |
|
|
|
@item replaygain_preamp |
|
Pre-amplification gain in dB to apply to the selected replaygain gain. |
|
|
|
Default value for @var{replaygain_preamp} is 0.0. |
|
|
|
@item replaygain_noclip |
|
Prevent clipping by limiting the gain applied. |
|
|
|
Default value for @var{replaygain_noclip} is 1. |
|
|
|
@end table |
|
|
|
@subsection Examples |
|
|
|
@itemize |
|
@item |
|
Halve the input audio volume: |
|
@example |
|
volume=volume=0.5 |
|
volume=volume=1/2 |
|
volume=volume=-6.0206dB |
|
@end example |
|
|
|
@item |
|
Increase input audio power by 6 decibels using fixed-point precision: |
|
@example |
|
volume=volume=6dB:precision=fixed |
|
@end example |
|
@end itemize |
|
|
|
@c man end AUDIO FILTERS |
|
|
|
@chapter Audio Sources |
|
@c man begin AUDIO SOURCES |
|
|
|
Below is a description of the currently available audio sources. |
|
|
|
@section anullsrc |
|
|
|
The null audio source; it never returns audio frames. It is mainly useful as a |
|
template and for use in analysis / debugging tools. |
|
|
|
It accepts, as an optional parameter, a string of the form |
|
@var{sample_rate}:@var{channel_layout}. |
|
|
|
@var{sample_rate} specifies the sample rate, and defaults to 44100. |
|
|
|
@var{channel_layout} specifies the channel layout, and can be either an |
|
integer or a string representing a channel layout. The default value |
|
of @var{channel_layout} is 3, which corresponds to CH_LAYOUT_STEREO. |
|
|
|
Check the channel_layout_map definition in |
|
@file{libavutil/channel_layout.c} for the mapping between strings and |
|
channel layout values. |
|
|
|
Some examples: |
|
@example |
|
# Set the sample rate to 48000 Hz and the channel layout to CH_LAYOUT_MONO |
|
anullsrc=48000:4 |
|
|
|
# The same as above |
|
anullsrc=48000:mono |
|
@end example |
|
|
|
@section abuffer |
|
Buffer audio frames, and make them available to the filter chain. |
|
|
|
This source is not intended to be part of user-supplied graph descriptions; it |
|
is for insertion by calling programs, through the interface defined in |
|
@file{libavfilter/buffersrc.h}. |
|
|
|
It accepts the following parameters: |
|
@table @option |
|
|
|
@item time_base |
|
The timebase which will be used for timestamps of submitted frames. It must be |
|
either a floating-point number or in @var{numerator}/@var{denominator} form. |
|
|
|
@item sample_rate |
|
The audio sample rate. |
|
|
|
@item sample_fmt |
|
The name of the sample format, as returned by @code{av_get_sample_fmt_name()}. |
|
|
|
@item channel_layout |
|
The channel layout of the audio data, in the form that can be accepted by |
|
@code{av_get_channel_layout()}. |
|
@end table |
|
|
|
All the parameters need to be explicitly defined. |
|
|
|
@c man end AUDIO SOURCES |
|
|
|
@chapter Audio Sinks |
|
@c man begin AUDIO SINKS |
|
|
|
Below is a description of the currently available audio sinks. |
|
|
|
@section anullsink |
|
|
|
Null audio sink; do absolutely nothing with the input audio. It is |
|
mainly useful as a template and for use in analysis / debugging |
|
tools. |
|
|
|
@section abuffersink |
|
This sink is intended for programmatic use. Frames that arrive on this sink can |
|
be retrieved by the calling program, using the interface defined in |
|
@file{libavfilter/buffersink.h}. |
|
|
|
It does not accept any parameters. |
|
|
|
@c man end AUDIO SINKS |
|
|
|
@chapter Video Filters |
|
@c man begin VIDEO FILTERS |
|
|
|
When you configure your Libav build, you can disable any of the |
|
existing filters using --disable-filters. |
|
The configure output will show the video filters included in your |
|
build. |
|
|
|
Below is a description of the currently available video filters. |
|
|
|
@section blackframe |
|
|
|
Detect frames that are (almost) completely black. Can be useful to |
|
detect chapter transitions or commercials. Output lines consist of |
|
the frame number of the detected frame, the percentage of blackness, |
|
the position in the file if known or -1 and the timestamp in seconds. |
|
|
|
In order to display the output lines, you need to set the loglevel at |
|
least to the AV_LOG_INFO value. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item amount |
|
The percentage of the pixels that have to be below the threshold; it defaults to |
|
98. |
|
|
|
@item threshold |
|
The threshold below which a pixel value is considered black; it defaults to 32. |
|
|
|
@end table |
|
|
|
@section boxblur |
|
|
|
Apply a boxblur algorithm to the input video. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item luma_radius |
|
@item luma_power |
|
@item chroma_radius |
|
@item chroma_power |
|
@item alpha_radius |
|
@item alpha_power |
|
|
|
@end table |
|
|
|
The chroma and alpha parameters are optional. If not specified, they default |
|
to the corresponding values set for @var{luma_radius} and |
|
@var{luma_power}. |
|
|
|
@var{luma_radius}, @var{chroma_radius}, and @var{alpha_radius} represent |
|
the radius in pixels of the box used for blurring the corresponding |
|
input plane. They are expressions, and can contain the following |
|
constants: |
|
@table @option |
|
@item w, h |
|
The input width and height in pixels. |
|
|
|
@item cw, ch |
|
The input chroma image width and height in pixels. |
|
|
|
@item hsub, vsub |
|
The horizontal and vertical chroma subsample values. For example, for the |
|
pixel format "yuv422p", @var{hsub} is 2 and @var{vsub} is 1. |
|
@end table |
|
|
|
The radius must be a non-negative number, and must not be greater than |
|
the value of the expression @code{min(w,h)/2} for the luma and alpha planes, |
|
and of @code{min(cw,ch)/2} for the chroma planes. |
|
|
|
@var{luma_power}, @var{chroma_power}, and @var{alpha_power} represent |
|
how many times the boxblur filter is applied to the corresponding |
|
plane. |
|
|
|
Some examples: |
|
|
|
@itemize |
|
|
|
@item |
|
Apply a boxblur filter with the luma, chroma, and alpha radii |
|
set to 2: |
|
@example |
|
boxblur=luma_radius=2:luma_power=1 |
|
@end example |
|
|
|
@item |
|
Set the luma radius to 2, and alpha and chroma radius to 0: |
|
@example |
|
boxblur=2:1:0:0:0:0 |
|
@end example |
|
|
|
@item |
|
Set the luma and chroma radii to a fraction of the video dimension: |
|
@example |
|
boxblur=luma_radius=min(h\,w)/10:luma_power=1:chroma_radius=min(cw\,ch)/10:chroma_power=1 |
|
@end example |
|
|
|
@end itemize |
|
|
|
@section copy |
|
|
|
Copy the input source unchanged to the output. This is mainly useful for |
|
testing purposes. |
|
|
|
@section crop |
|
|
|
Crop the input video to given dimensions. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item out_w |
|
The width of the output video. |
|
|
|
@item out_h |
|
The height of the output video. |
|
|
|
@item x |
|
The horizontal position, in the input video, of the left edge of the output |
|
video. |
|
|
|
@item y |
|
The vertical position, in the input video, of the top edge of the output video. |
|
|
|
@end table |
|
|
|
The parameters are expressions containing the following constants: |
|
|
|
@table @option |
|
@item E, PI, PHI |
|
These are approximated values for the mathematical constants e |
|
(Euler's number), pi (Greek pi), and phi (the golden ratio). |
|
|
|
@item x, y |
|
The computed values for @var{x} and @var{y}. They are evaluated for |
|
each new frame. |
|
|
|
@item in_w, in_h |
|
The input width and height. |
|
|
|
@item iw, ih |
|
These are the same as @var{in_w} and @var{in_h}. |
|
|
|
@item out_w, out_h |
|
The output (cropped) width and height. |
|
|
|
@item ow, oh |
|
These are the same as @var{out_w} and @var{out_h}. |
|
|
|
@item n |
|
The number of the input frame, starting from 0. |
|
|
|
@item t |
|
The timestamp expressed in seconds. It's NAN if the input timestamp is unknown. |
|
|
|
@end table |
|
|
|
The @var{out_w} and @var{out_h} parameters specify the expressions for |
|
the width and height of the output (cropped) video. They are only |
|
evaluated during the configuration of the filter. |
|
|
|
The default value of @var{out_w} is "in_w", and the default value of |
|
@var{out_h} is "in_h". |
|
|
|
The expression for @var{out_w} may depend on the value of @var{out_h}, |
|
and the expression for @var{out_h} may depend on @var{out_w}, but they |
|
cannot depend on @var{x} and @var{y}, as @var{x} and @var{y} are |
|
evaluated after @var{out_w} and @var{out_h}. |
|
|
|
The @var{x} and @var{y} parameters specify the expressions for the |
|
position of the top-left corner of the output (non-cropped) area. They |
|
are evaluated for each frame. If the evaluated value is not valid, it |
|
is approximated to the nearest valid value. |
|
|
|
The default value of @var{x} is "(in_w-out_w)/2", and the default |
|
value for @var{y} is "(in_h-out_h)/2", which set the cropped area at |
|
the center of the input image. |
|
|
|
The expression for @var{x} may depend on @var{y}, and the expression |
|
for @var{y} may depend on @var{x}. |
|
|
|
Some examples: |
|
@example |
|
# Crop the central input area with size 100x100 |
|
crop=out_w=100:out_h=100 |
|
|
|
# Crop the central input area with size 2/3 of the input video |
|
"crop=out_w=2/3*in_w:out_h=2/3*in_h" |
|
|
|
# Crop the input video central square |
|
crop=out_w=in_h |
|
|
|
# Delimit the rectangle with the top-left corner placed at position |
|
# 100:100 and the right-bottom corner corresponding to the right-bottom |
|
# corner of the input image |
|
crop=out_w=in_w-100:out_h=in_h-100:x=100:y=100 |
|
|
|
# Crop 10 pixels from the left and right borders, and 20 pixels from |
|
# the top and bottom borders |
|
"crop=out_w=in_w-2*10:out_h=in_h-2*20" |
|
|
|
# Keep only the bottom right quarter of the input image |
|
"crop=out_w=in_w/2:out_h=in_h/2:x=in_w/2:y=in_h/2" |
|
|
|
# Crop height for getting Greek harmony |
|
"crop=out_w=in_w:out_h=1/PHI*in_w" |
|
|
|
# Trembling effect |
|
"crop=in_w/2:in_h/2:(in_w-out_w)/2+((in_w-out_w)/2)*sin(n/10):(in_h-out_h)/2 +((in_h-out_h)/2)*sin(n/7)" |
|
|
|
# Erratic camera effect depending on timestamp |
|
"crop=out_w=in_w/2:out_h=in_h/2:x=(in_w-out_w)/2+((in_w-out_w)/2)*sin(t*10):y=(in_h-out_h)/2 +((in_h-out_h)/2)*sin(t*13)" |
|
|
|
# Set x depending on the value of y |
|
"crop=in_w/2:in_h/2:y:10+10*sin(n/10)" |
|
@end example |
|
|
|
@section cropdetect |
|
|
|
Auto-detect the crop size. |
|
|
|
It calculates the necessary cropping parameters and prints the |
|
recommended parameters via the logging system. The detected dimensions |
|
correspond to the non-black area of the input video. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item limit |
|
The threshold, an optional parameter between nothing (0) and |
|
everything (255). It defaults to 24. |
|
|
|
@item round |
|
The value which the width/height should be divisible by. It defaults to |
|
16. The offset is automatically adjusted to center the video. Use 2 to |
|
get only even dimensions (needed for 4:2:2 video). 16 is best when |
|
encoding to most video codecs. |
|
|
|
@item reset |
|
A counter that determines how many frames cropdetect will reset |
|
the previously detected largest video area after. It will then start over |
|
and detect the current optimal crop area. It defaults to 0. |
|
|
|
This can be useful when channel logos distort the video area. 0 |
|
indicates 'never reset', and returns the largest area encountered during |
|
playback. |
|
@end table |
|
|
|
@section delogo |
|
|
|
Suppress a TV station logo by a simple interpolation of the surrounding |
|
pixels. Just set a rectangle covering the logo and watch it disappear |
|
(and sometimes something even uglier appear - your mileage may vary). |
|
|
|
It accepts the following parameters: |
|
@table @option |
|
|
|
@item x, y |
|
Specify the top left corner coordinates of the logo. They must be |
|
specified. |
|
|
|
@item w, h |
|
Specify the width and height of the logo to clear. They must be |
|
specified. |
|
|
|
@item band, t |
|
Specify the thickness of the fuzzy edge of the rectangle (added to |
|
@var{w} and @var{h}). The default value is 4. |
|
|
|
@item show |
|
When set to 1, a green rectangle is drawn on the screen to simplify |
|
finding the right @var{x}, @var{y}, @var{w}, @var{h} parameters, and |
|
@var{band} is set to 4. The default value is 0. |
|
|
|
@end table |
|
|
|
An example: |
|
|
|
@itemize |
|
|
|
@item |
|
Set a rectangle covering the area with top left corner coordinates 0,0 |
|
and size 100x77, and a band of size 10: |
|
@example |
|
delogo=x=0:y=0:w=100:h=77:band=10 |
|
@end example |
|
|
|
@end itemize |
|
|
|
@section drawbox |
|
|
|
Draw a colored box on the input image. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item x, y |
|
Specify the top left corner coordinates of the box. It defaults to 0. |
|
|
|
@item width, height |
|
Specify the width and height of the box; if 0 they are interpreted as |
|
the input width and height. It defaults to 0. |
|
|
|
@item color |
|
Specify the color of the box to write. It can be the name of a color |
|
(case insensitive match) or a 0xRRGGBB[AA] sequence. |
|
@end table |
|
|
|
Some examples: |
|
@example |
|
# Draw a black box around the edge of the input image |
|
drawbox |
|
|
|
# Draw a box with color red and an opacity of 50% |
|
drawbox=x=10:y=20:width=200:height=60:color=red@@0.5" |
|
@end example |
|
|
|
@section drawtext |
|
|
|
Draw a text string or text from a specified file on top of a video, using the |
|
libfreetype library. |
|
|
|
To enable compilation of this filter, you need to configure Libav with |
|
@code{--enable-libfreetype}. |
|
To enable default font fallback and the @var{font} option you need to |
|
configure Libav with @code{--enable-libfontconfig}. |
|
|
|
The filter also recognizes strftime() sequences in the provided text |
|
and expands them accordingly. Check the documentation of strftime(). |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item font |
|
The font family to be used for drawing text. By default Sans. |
|
|
|
@item fontfile |
|
The font file to be used for drawing text. The path must be included. |
|
This parameter is mandatory if the fontconfig support is disabled. |
|
|
|
@item text |
|
The text string to be drawn. The text must be a sequence of UTF-8 |
|
encoded characters. |
|
This parameter is mandatory if no file is specified with the parameter |
|
@var{textfile}. |
|
|
|
@item textfile |
|
A text file containing text to be drawn. The text must be a sequence |
|
of UTF-8 encoded characters. |
|
|
|
This parameter is mandatory if no text string is specified with the |
|
parameter @var{text}. |
|
|
|
If both text and textfile are specified, an error is thrown. |
|
|
|
@item x, y |
|
The offsets where text will be drawn within the video frame. |
|
It is relative to the top/left border of the output image. |
|
They accept expressions similar to the @ref{overlay} filter: |
|
@table @option |
|
|
|
@item x, y |
|
The computed values for @var{x} and @var{y}. They are evaluated for |
|
each new frame. |
|
|
|
@item main_w, main_h |
|
The main input width and height. |
|
|
|
@item W, H |
|
These are the same as @var{main_w} and @var{main_h}. |
|
|
|
@item text_w, text_h |
|
The rendered text's width and height. |
|
|
|
@item w, h |
|
These are the same as @var{text_w} and @var{text_h}. |
|
|
|
@item n |
|
The number of frames processed, starting from 0. |
|
|
|
@item t |
|
The timestamp, expressed in seconds. It's NAN if the input timestamp is unknown. |
|
|
|
@end table |
|
|
|
The default value of @var{x} and @var{y} is 0. |
|
|
|
@item draw |
|
Draw the text only if the expression evaluates as non-zero. |
|
The expression accepts the same variables @var{x, y} do. |
|
The default value is 1. |
|
|
|
@item alpha |
|
Draw the text applying alpha blending. The value can |
|
be either a number between 0.0 and 1.0 |
|
The expression accepts the same variables @var{x, y} do. |
|
The default value is 1. |
|
|
|
@item fontsize |
|
The font size to be used for drawing text. |
|
The default value of @var{fontsize} is 16. |
|
|
|
@item fontcolor |
|
The color to be used for drawing fonts. |
|
It is either a string (e.g. "red"), or in 0xRRGGBB[AA] format |
|
(e.g. "0xff000033"), possibly followed by an alpha specifier. |
|
The default value of @var{fontcolor} is "black". |
|
|
|
@item boxcolor |
|
The color to be used for drawing box around text. |
|
It is either a string (e.g. "yellow") or in 0xRRGGBB[AA] format |
|
(e.g. "0xff00ff"), possibly followed by an alpha specifier. |
|
The default value of @var{boxcolor} is "white". |
|
|
|
@item box |
|
Used to draw a box around text using the background color. |
|
The value must be either 1 (enable) or 0 (disable). |
|
The default value of @var{box} is 0. |
|
|
|
@item shadowx, shadowy |
|
The x and y offsets for the text shadow position with respect to the |
|
position of the text. They can be either positive or negative |
|
values. The default value for both is "0". |
|
|
|
@item shadowcolor |
|
The color to be used for drawing a shadow behind the drawn text. It |
|
can be a color name (e.g. "yellow") or a string in the 0xRRGGBB[AA] |
|
form (e.g. "0xff00ff"), possibly followed by an alpha specifier. |
|
The default value of @var{shadowcolor} is "black". |
|
|
|
@item ft_load_flags |
|
The flags to be used for loading the fonts. |
|
|
|
The flags map the corresponding flags supported by libfreetype, and are |
|
a combination of the following values: |
|
@table @var |
|
@item default |
|
@item no_scale |
|
@item no_hinting |
|
@item render |
|
@item no_bitmap |
|
@item vertical_layout |
|
@item force_autohint |
|
@item crop_bitmap |
|
@item pedantic |
|
@item ignore_global_advance_width |
|
@item no_recurse |
|
@item ignore_transform |
|
@item monochrome |
|
@item linear_design |
|
@item no_autohint |
|
@item end table |
|
@end table |
|
|
|
Default value is "render". |
|
|
|
For more information consult the documentation for the FT_LOAD_* |
|
libfreetype flags. |
|
|
|
@item tabsize |
|
The size in number of spaces to use for rendering the tab. |
|
Default value is 4. |
|
|
|
@item fix_bounds |
|
If true, check and fix text coords to avoid clipping. |
|
@end table |
|
|
|
For example the command: |
|
@example |
|
drawtext="fontfile=/usr/share/fonts/truetype/freefont/FreeSerif.ttf: text='Test Text'" |
|
@end example |
|
|
|
will draw "Test Text" with font FreeSerif, using the default values |
|
for the optional parameters. |
|
|
|
The command: |
|
@example |
|
drawtext="fontfile=/usr/share/fonts/truetype/freefont/FreeSerif.ttf: text='Test Text':\ |
|
x=100: y=50: fontsize=24: fontcolor=yellow@@0.2: box=1: boxcolor=red@@0.2" |
|
@end example |
|
|
|
will draw 'Test Text' with font FreeSerif of size 24 at position x=100 |
|
and y=50 (counting from the top-left corner of the screen), text is |
|
yellow with a red box around it. Both the text and the box have an |
|
opacity of 20%. |
|
|
|
Note that the double quotes are not necessary if spaces are not used |
|
within the parameter list. |
|
|
|
For more information about libfreetype, check: |
|
@url{http://www.freetype.org/}. |
|
|
|
@section fade |
|
|
|
Apply a fade-in/out effect to the input video. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item type |
|
The effect type can be either "in" for a fade-in, or "out" for a fade-out |
|
effect. |
|
|
|
@item start_frame |
|
The number of the frame to start applying the fade effect at. |
|
|
|
@item nb_frames |
|
The number of frames that the fade effect lasts. At the end of the |
|
fade-in effect, the output video will have the same intensity as the input video. |
|
At the end of the fade-out transition, the output video will be completely black. |
|
|
|
@end table |
|
|
|
Some examples: |
|
@example |
|
# Fade in the first 30 frames of video |
|
fade=type=in:nb_frames=30 |
|
|
|
# Fade out the last 45 frames of a 200-frame video |
|
fade=type=out:start_frame=155:nb_frames=45 |
|
|
|
# Fade in the first 25 frames and fade out the last 25 frames of a 1000-frame video |
|
fade=type=in:start_frame=0:nb_frames=25, fade=type=out:start_frame=975:nb_frames=25 |
|
|
|
# Make the first 5 frames black, then fade in from frame 5-24 |
|
fade=type=in:start_frame=5:nb_frames=20 |
|
@end example |
|
|
|
@section fieldorder |
|
|
|
Transform the field order of the input video. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item order |
|
The output field order. Valid values are @var{tff} for top field first or @var{bff} |
|
for bottom field first. |
|
@end table |
|
|
|
The default value is "tff". |
|
|
|
The transformation is done by shifting the picture content up or down |
|
by one line, and filling the remaining line with appropriate picture content. |
|
This method is consistent with most broadcast field order converters. |
|
|
|
If the input video is not flagged as being interlaced, or it is already |
|
flagged as being of the required output field order, then this filter does |
|
not alter the incoming video. |
|
|
|
It is very useful when converting to or from PAL DV material, |
|
which is bottom field first. |
|
|
|
For example: |
|
@example |
|
./avconv -i in.vob -vf "fieldorder=order=bff" out.dv |
|
@end example |
|
|
|
@section fifo |
|
|
|
Buffer input images and send them when they are requested. |
|
|
|
It is mainly useful when auto-inserted by the libavfilter |
|
framework. |
|
|
|
It does not take parameters. |
|
|
|
@section format |
|
|
|
Convert the input video to one of the specified pixel formats. |
|
Libavfilter will try to pick one that is suitable as input to |
|
the next filter. |
|
|
|
It accepts the following parameters: |
|
@table @option |
|
|
|
@item pix_fmts |
|
A '|'-separated list of pixel format names, such as |
|
"pix_fmts=yuv420p|monow|rgb24". |
|
|
|
@end table |
|
|
|
Some examples: |
|
@example |
|
# Convert the input video to the "yuv420p" format |
|
format=pix_fmts=yuv420p |
|
|
|
# Convert the input video to any of the formats in the list |
|
format=pix_fmts=yuv420p|yuv444p|yuv410p |
|
@end example |
|
|
|
@anchor{fps} |
|
@section fps |
|
|
|
Convert the video to specified constant framerate by duplicating or dropping |
|
frames as necessary. |
|
|
|
It accepts the following parameters: |
|
@table @option |
|
|
|
@item fps |
|
The desired output framerate. |
|
|
|
@item start_time |
|
Assume the first PTS should be the given value, in seconds. This allows for |
|
padding/trimming at the start of stream. By default, no assumption is made |
|
about the first frame's expected PTS, so no padding or trimming is done. |
|
For example, this could be set to 0 to pad the beginning with duplicates of |
|
the first frame if a video stream starts after the audio stream or to trim any |
|
frames with a negative PTS. |
|
|
|
@end table |
|
|
|
@section framepack |
|
|
|
Pack two different video streams into a stereoscopic video, setting proper |
|
metadata on supported codecs. The two views should have the same size and |
|
framerate and processing will stop when the shorter video ends. Please note |
|
that you may conveniently adjust view properties with the @ref{scale} and |
|
@ref{fps} filters. |
|
|
|
It accepts the following parameters: |
|
@table @option |
|
|
|
@item format |
|
The desired packing format. Supported values are: |
|
|
|
@table @option |
|
|
|
@item sbs |
|
The views are next to each other (default). |
|
|
|
@item tab |
|
The views are on top of each other. |
|
|
|
@item lines |
|
The views are packed by line. |
|
|
|
@item columns |
|
The views are packed by column. |
|
|
|
@item frameseq |
|
The views are temporally interleaved. |
|
|
|
@end table |
|
|
|
@end table |
|
|
|
Some examples: |
|
|
|
@example |
|
# Convert left and right views into a frame-sequential video |
|
avconv -i LEFT -i RIGHT -filter_complex framepack=frameseq OUTPUT |
|
|
|
# Convert views into a side-by-side video with the same output resolution as the input |
|
avconv -i LEFT -i RIGHT -filter_complex [0:v]scale=w=iw/2[left],[1:v]scale=w=iw/2[right],[left][right]framepack=sbs OUTPUT |
|
@end example |
|
|
|
@anchor{frei0r} |
|
@section frei0r |
|
|
|
Apply a frei0r effect to the input video. |
|
|
|
To enable the compilation of this filter, you need to install the frei0r |
|
header and configure Libav with --enable-frei0r. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item filter_name |
|
The name of the frei0r effect to load. If the environment variable |
|
@env{FREI0R_PATH} is defined, the frei0r effect is searched for in each of the |
|
directories specified by the colon-separated list in @env{FREIOR_PATH}. |
|
Otherwise, the standard frei0r paths are searched, in this order: |
|
@file{HOME/.frei0r-1/lib/}, @file{/usr/local/lib/frei0r-1/}, |
|
@file{/usr/lib/frei0r-1/}. |
|
|
|
@item filter_params |
|
A '|'-separated list of parameters to pass to the frei0r effect. |
|
|
|
@end table |
|
|
|
A frei0r effect parameter can be a boolean (its value is either |
|
"y" or "n"), a double, a color (specified as |
|
@var{R}/@var{G}/@var{B}, where @var{R}, @var{G}, and @var{B} are floating point |
|
numbers between 0.0 and 1.0, inclusive) or by an @code{av_parse_color()} color |
|
description), a position (specified as @var{X}/@var{Y}, where |
|
@var{X} and @var{Y} are floating point numbers) and/or a string. |
|
|
|
The number and types of parameters depend on the loaded effect. If an |
|
effect parameter is not specified, the default value is set. |
|
|
|
Some examples: |
|
@example |
|
# Apply the distort0r effect, setting the first two double parameters |
|
frei0r=filter_name=distort0r:filter_params=0.5|0.01 |
|
|
|
# Apply the colordistance effect, taking a color as the first parameter |
|
frei0r=colordistance:0.2/0.3/0.4 |
|
frei0r=colordistance:violet |
|
frei0r=colordistance:0x112233 |
|
|
|
# Apply the perspective effect, specifying the top left and top right |
|
# image positions |
|
frei0r=perspective:0.2/0.2|0.8/0.2 |
|
@end example |
|
|
|
For more information, see |
|
@url{http://piksel.org/frei0r} |
|
|
|
@section gradfun |
|
|
|
Fix the banding artifacts that are sometimes introduced into nearly flat |
|
regions by truncation to 8-bit colordepth. |
|
Interpolate the gradients that should go where the bands are, and |
|
dither them. |
|
|
|
It is designed for playback only. Do not use it prior to |
|
lossy compression, because compression tends to lose the dither and |
|
bring back the bands. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item strength |
|
The maximum amount by which the filter will change any one pixel. This is also |
|
the threshold for detecting nearly flat regions. Acceptable values range from |
|
.51 to 64; the default value is 1.2. Out-of-range values will be clipped to the |
|
valid range. |
|
|
|
@item radius |
|
The neighborhood to fit the gradient to. A larger radius makes for smoother |
|
gradients, but also prevents the filter from modifying the pixels near detailed |
|
regions. Acceptable values are 8-32; the default value is 16. Out-of-range |
|
values will be clipped to the valid range. |
|
|
|
@end table |
|
|
|
@example |
|
# Default parameters |
|
gradfun=strength=1.2:radius=16 |
|
|
|
# Omitting the radius |
|
gradfun=1.2 |
|
@end example |
|
|
|
@section hflip |
|
|
|
Flip the input video horizontally. |
|
|
|
For example, to horizontally flip the input video with @command{avconv}: |
|
@example |
|
avconv -i in.avi -vf "hflip" out.avi |
|
@end example |
|
|
|
@section hqdn3d |
|
|
|
This is a high precision/quality 3d denoise filter. It aims to reduce |
|
image noise, producing smooth images and making still images really |
|
still. It should enhance compressibility. |
|
|
|
It accepts the following optional parameters: |
|
|
|
@table @option |
|
@item luma_spatial |
|
A non-negative floating point number which specifies spatial luma strength. |
|
It defaults to 4.0. |
|
|
|
@item chroma_spatial |
|
A non-negative floating point number which specifies spatial chroma strength. |
|
It defaults to 3.0*@var{luma_spatial}/4.0. |
|
|
|
@item luma_tmp |
|
A floating point number which specifies luma temporal strength. It defaults to |
|
6.0*@var{luma_spatial}/4.0. |
|
|
|
@item chroma_tmp |
|
A floating point number which specifies chroma temporal strength. It defaults to |
|
@var{luma_tmp}*@var{chroma_spatial}/@var{luma_spatial}. |
|
@end table |
|
|
|
@section hwupload_cuda |
|
|
|
Upload system memory frames to a CUDA device. |
|
|
|
It accepts the following optional parameters: |
|
|
|
@table @option |
|
@item device |
|
The number of the CUDA device to use |
|
@end table |
|
|
|
@section interlace |
|
|
|
Simple interlacing filter from progressive contents. This interleaves upper (or |
|
lower) lines from odd frames with lower (or upper) lines from even frames, |
|
halving the frame rate and preserving image height. |
|
|
|
@example |
|
Original Original New Frame |
|
Frame 'j' Frame 'j+1' (tff) |
|
========== =========== ================== |
|
Line 0 --------------------> Frame 'j' Line 0 |
|
Line 1 Line 1 ----> Frame 'j+1' Line 1 |
|
Line 2 ---------------------> Frame 'j' Line 2 |
|
Line 3 Line 3 ----> Frame 'j+1' Line 3 |
|
... ... ... |
|
New Frame + 1 will be generated by Frame 'j+2' and Frame 'j+3' and so on |
|
@end example |
|
|
|
It accepts the following optional parameters: |
|
|
|
@table @option |
|
@item scan |
|
This determines whether the interlaced frame is taken from the even |
|
(tff - default) or odd (bff) lines of the progressive frame. |
|
|
|
@item lowpass |
|
Enable (default) or disable the vertical lowpass filter to avoid twitter |
|
interlacing and reduce moire patterns. |
|
@end table |
|
|
|
@section lut, lutrgb, lutyuv |
|
|
|
Compute a look-up table for binding each pixel component input value |
|
to an output value, and apply it to the input video. |
|
|
|
@var{lutyuv} applies a lookup table to a YUV input video, @var{lutrgb} |
|
to an RGB input video. |
|
|
|
These filters accept the following parameters: |
|
@table @option |
|
@item @var{c0} (first pixel component) |
|
@item @var{c1} (second pixel component) |
|
@item @var{c2} (third pixel component) |
|
@item @var{c3} (fourth pixel component, corresponds to the alpha component) |
|
|
|
@item @var{r} (red component) |
|
@item @var{g} (green component) |
|
@item @var{b} (blue component) |
|
@item @var{a} (alpha component) |
|
|
|
@item @var{y} (Y/luminance component) |
|
@item @var{u} (U/Cb component) |
|
@item @var{v} (V/Cr component) |
|
@end table |
|
|
|
Each of them specifies the expression to use for computing the lookup table for |
|
the corresponding pixel component values. |
|
|
|
The exact component associated to each of the @var{c*} options depends on the |
|
format in input. |
|
|
|
The @var{lut} filter requires either YUV or RGB pixel formats in input, |
|
@var{lutrgb} requires RGB pixel formats in input, and @var{lutyuv} requires YUV. |
|
|
|
The expressions can contain the following constants and functions: |
|
|
|
@table @option |
|
@item E, PI, PHI |
|
These are approximated values for the mathematical constants e |
|
(Euler's number), pi (Greek pi), and phi (the golden ratio). |
|
|
|
@item w, h |
|
The input width and height. |
|
|
|
@item val |
|
The input value for the pixel component. |
|
|
|
@item clipval |
|
The input value, clipped to the @var{minval}-@var{maxval} range. |
|
|
|
@item maxval |
|
The maximum value for the pixel component. |
|
|
|
@item minval |
|
The minimum value for the pixel component. |
|
|
|
@item negval |
|
The negated value for the pixel component value, clipped to the |
|
@var{minval}-@var{maxval} range; it corresponds to the expression |
|
"maxval-clipval+minval". |
|
|
|
@item clip(val) |
|
The computed value in @var{val}, clipped to the |
|
@var{minval}-@var{maxval} range. |
|
|
|
@item gammaval(gamma) |
|
The computed gamma correction value of the pixel component value, |
|
clipped to the @var{minval}-@var{maxval} range. It corresponds to the |
|
expression |
|
"pow((clipval-minval)/(maxval-minval)\,@var{gamma})*(maxval-minval)+minval" |
|
|
|
@end table |
|
|
|
All expressions default to "val". |
|
|
|
Some examples: |
|
@example |
|
# Negate input video |
|
lutrgb="r=maxval+minval-val:g=maxval+minval-val:b=maxval+minval-val" |
|
lutyuv="y=maxval+minval-val:u=maxval+minval-val:v=maxval+minval-val" |
|
|
|
# The above is the same as |
|
lutrgb="r=negval:g=negval:b=negval" |
|
lutyuv="y=negval:u=negval:v=negval" |
|
|
|
# Negate luminance |
|
lutyuv=negval |
|
|
|
# Remove chroma components, turning the video into a graytone image |
|
lutyuv="u=128:v=128" |
|
|
|
# Apply a luma burning effect |
|
lutyuv="y=2*val" |
|
|
|
# Remove green and blue components |
|
lutrgb="g=0:b=0" |
|
|
|
# Set a constant alpha channel value on input |
|
format=rgba,lutrgb=a="maxval-minval/2" |
|
|
|
# Correct luminance gamma by a factor of 0.5 |
|
lutyuv=y=gammaval(0.5) |
|
@end example |
|
|
|
@section negate |
|
|
|
Negate input video. |
|
|
|
It accepts an integer in input; if non-zero it negates the |
|
alpha component (if available). The default value in input is 0. |
|
|
|
@section noformat |
|
|
|
Force libavfilter not to use any of the specified pixel formats for the |
|
input to the next filter. |
|
|
|
It accepts the following parameters: |
|
@table @option |
|
|
|
@item pix_fmts |
|
A '|'-separated list of pixel format names, such as |
|
apix_fmts=yuv420p|monow|rgb24". |
|
|
|
@end table |
|
|
|
Some examples: |
|
@example |
|
# Force libavfilter to use a format different from "yuv420p" for the |
|
# input to the vflip filter |
|
noformat=pix_fmts=yuv420p,vflip |
|
|
|
# Convert the input video to any of the formats not contained in the list |
|
noformat=yuv420p|yuv444p|yuv410p |
|
@end example |
|
|
|
@section null |
|
|
|
Pass the video source unchanged to the output. |
|
|
|
@section ocv |
|
|
|
Apply a video transform using libopencv. |
|
|
|
To enable this filter, install the libopencv library and headers and |
|
configure Libav with --enable-libopencv. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item filter_name |
|
The name of the libopencv filter to apply. |
|
|
|
@item filter_params |
|
The parameters to pass to the libopencv filter. If not specified, the default |
|
values are assumed. |
|
|
|
@end table |
|
|
|
Refer to the official libopencv documentation for more precise |
|
information: |
|
@url{http://opencv.willowgarage.com/documentation/c/image_filtering.html} |
|
|
|
Several libopencv filters are supported; see the following subsections. |
|
|
|
@anchor{dilate} |
|
@subsection dilate |
|
|
|
Dilate an image by using a specific structuring element. |
|
It corresponds to the libopencv function @code{cvDilate}. |
|
|
|
It accepts the parameters: @var{struct_el}|@var{nb_iterations}. |
|
|
|
@var{struct_el} represents a structuring element, and has the syntax: |
|
@var{cols}x@var{rows}+@var{anchor_x}x@var{anchor_y}/@var{shape} |
|
|
|
@var{cols} and @var{rows} represent the number of columns and rows of |
|
the structuring element, @var{anchor_x} and @var{anchor_y} the anchor |
|
point, and @var{shape} the shape for the structuring element. @var{shape} |
|
must be "rect", "cross", "ellipse", or "custom". |
|
|
|
If the value for @var{shape} is "custom", it must be followed by a |
|
string of the form "=@var{filename}". The file with name |
|
@var{filename} is assumed to represent a binary image, with each |
|
printable character corresponding to a bright pixel. When a custom |
|
@var{shape} is used, @var{cols} and @var{rows} are ignored, the number |
|
or columns and rows of the read file are assumed instead. |
|
|
|
The default value for @var{struct_el} is "3x3+0x0/rect". |
|
|
|
@var{nb_iterations} specifies the number of times the transform is |
|
applied to the image, and defaults to 1. |
|
|
|
Some examples: |
|
@example |
|
# Use the default values |
|
ocv=dilate |
|
|
|
# Dilate using a structuring element with a 5x5 cross, iterating two times |
|
ocv=filter_name=dilate:filter_params=5x5+2x2/cross|2 |
|
|
|
# Read the shape from the file diamond.shape, iterating two times. |
|
# The file diamond.shape may contain a pattern of characters like this |
|
# * |
|
# *** |
|
# ***** |
|
# *** |
|
# * |
|
# The specified columns and rows are ignored |
|
# but the anchor point coordinates are not |
|
ocv=dilate:0x0+2x2/custom=diamond.shape|2 |
|
@end example |
|
|
|
@subsection erode |
|
|
|
Erode an image by using a specific structuring element. |
|
It corresponds to the libopencv function @code{cvErode}. |
|
|
|
It accepts the parameters: @var{struct_el}:@var{nb_iterations}, |
|
with the same syntax and semantics as the @ref{dilate} filter. |
|
|
|
@subsection smooth |
|
|
|
Smooth the input video. |
|
|
|
The filter takes the following parameters: |
|
@var{type}|@var{param1}|@var{param2}|@var{param3}|@var{param4}. |
|
|
|
@var{type} is the type of smooth filter to apply, and must be one of |
|
the following values: "blur", "blur_no_scale", "median", "gaussian", |
|
or "bilateral". The default value is "gaussian". |
|
|
|
The meaning of @var{param1}, @var{param2}, @var{param3}, and @var{param4} |
|
depend on the smooth type. @var{param1} and |
|
@var{param2} accept integer positive values or 0. @var{param3} and |
|
@var{param4} accept floating point values. |
|
|
|
The default value for @var{param1} is 3. The default value for the |
|
other parameters is 0. |
|
|
|
These parameters correspond to the parameters assigned to the |
|
libopencv function @code{cvSmooth}. |
|
|
|
@anchor{overlay} |
|
@section overlay |
|
|
|
Overlay one video on top of another. |
|
|
|
It takes two inputs and has one output. The first input is the "main" |
|
video on which the second input is overlaid. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item x |
|
The horizontal position of the left edge of the overlaid video on the main video. |
|
|
|
@item y |
|
The vertical position of the top edge of the overlaid video on the main video. |
|
|
|
@end table |
|
|
|
The parameters are expressions containing the following parameters: |
|
|
|
@table @option |
|
@item main_w, main_h |
|
The main input width and height. |
|
|
|
@item W, H |
|
These are the same as @var{main_w} and @var{main_h}. |
|
|
|
@item overlay_w, overlay_h |
|
The overlay input width and height. |
|
|
|
@item w, h |
|
These are the same as @var{overlay_w} and @var{overlay_h}. |
|
|
|
@item eof_action |
|
The action to take when EOF is encountered on the secondary input; it accepts |
|
one of the following values: |
|
|
|
@table @option |
|
@item repeat |
|
Repeat the last frame (the default). |
|
@item endall |
|
End both streams. |
|
@item pass |
|
Pass the main input through. |
|
@end table |
|
|
|
@end table |
|
|
|
Be aware that frames are taken from each input video in timestamp |
|
order, hence, if their initial timestamps differ, it is a a good idea |
|
to pass the two inputs through a @var{setpts=PTS-STARTPTS} filter to |
|
have them begin in the same zero timestamp, as the example for |
|
the @var{movie} filter does. |
|
|
|
Some examples: |
|
@example |
|
# Draw the overlay at 10 pixels from the bottom right |
|
# corner of the main video |
|
overlay=x=main_w-overlay_w-10:y=main_h-overlay_h-10 |
|
|
|
# Insert a transparent PNG logo in the bottom left corner of the input |
|
avconv -i input -i logo -filter_complex 'overlay=x=10:y=main_h-overlay_h-10' output |
|
|
|
# Insert 2 different transparent PNG logos (second logo on bottom |
|
# right corner) |
|
avconv -i input -i logo1 -i logo2 -filter_complex |
|
'overlay=x=10:y=H-h-10,overlay=x=W-w-10:y=H-h-10' output |
|
|
|
# Add a transparent color layer on top of the main video; |
|
# WxH specifies the size of the main input to the overlay filter |
|
color=red@.3:WxH [over]; [in][over] overlay [out] |
|
|
|
# Mask 10-20 seconds of a video by applying the delogo filter to a section |
|
avconv -i test.avi -codec:v:0 wmv2 -ar 11025 -b:v 9000k |
|
-vf '[in]split[split_main][split_delogo];[split_delogo]trim=start=360:end=371,delogo=0:0:640:480[delogoed];[split_main][delogoed]overlay=eof_action=pass[out]' |
|
masked.avi |
|
@end example |
|
|
|
You can chain together more overlays but the efficiency of such |
|
approach is yet to be tested. |
|
|
|
@section pad |
|
|
|
Add paddings to the input image, and place the original input at the |
|
provided @var{x}, @var{y} coordinates. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
@item width, height |
|
|
|
Specify the size of the output image with the paddings added. If the |
|
value for @var{width} or @var{height} is 0, the corresponding input size |
|
is used for the output. |
|
|
|
The @var{width} expression can reference the value set by the |
|
@var{height} expression, and vice versa. |
|
|
|
The default value of @var{width} and @var{height} is 0. |
|
|
|
@item x, y |
|
|
|
Specify the offsets to place the input image at within the padded area, |
|
with respect to the top/left border of the output image. |
|
|
|
The @var{x} expression can reference the value set by the @var{y} |
|
expression, and vice versa. |
|
|
|
The default value of @var{x} and @var{y} is 0. |
|
|
|
@item color |
|
|
|
Specify the color of the padded area. It can be the name of a color |
|
(case insensitive match) or an 0xRRGGBB[AA] sequence. |
|
|
|
The default value of @var{color} is "black". |
|
|
|
@end table |
|
|
|
The parameters @var{width}, @var{height}, @var{x}, and @var{y} are |
|
expressions containing the following constants: |
|
|
|
@table @option |
|
@item E, PI, PHI |
|
These are approximated values for the mathematical constants e |
|
(Euler's number), pi (Greek pi), and phi (the golden ratio). |
|
|
|
@item in_w, in_h |
|
The input video width and height. |
|
|
|
@item iw, ih |
|
These are the same as @var{in_w} and @var{in_h}. |
|
|
|
@item out_w, out_h |
|
The output width and height (the size of the padded area), as |
|
specified by the @var{width} and @var{height} expressions. |
|
|
|
@item ow, oh |
|
These are the same as @var{out_w} and @var{out_h}. |
|
|
|
@item x, y |
|
The x and y offsets as specified by the @var{x} and @var{y} |
|
expressions, or NAN if not yet specified. |
|
|
|
@item a |
|
The input display aspect ratio, same as @var{iw} / @var{ih}. |
|
|
|
@item hsub, vsub |
|
The horizontal and vertical chroma subsample values. For example for the |
|
pixel format "yuv422p" @var{hsub} is 2 and @var{vsub} is 1. |
|
@end table |
|
|
|
Some examples: |
|
|
|
@example |
|
# Add paddings with the color "violet" to the input video. The output video |
|
# size is 640x480, and the top-left corner of the input video is placed at |
|
# column 0, row 40 |
|
pad=width=640:height=480:x=0:y=40:color=violet |
|
|
|
# Pad the input to get an output with dimensions increased by 3/2, |
|
# and put the input video at the center of the padded area |
|
pad="3/2*iw:3/2*ih:(ow-iw)/2:(oh-ih)/2" |
|
|
|
# Pad the input to get a squared output with size equal to the maximum |
|
# value between the input width and height, and put the input video at |
|
# the center of the padded area |
|
pad="max(iw\,ih):ow:(ow-iw)/2:(oh-ih)/2" |
|
|
|
# Pad the input to get a final w/h ratio of 16:9 |
|
pad="ih*16/9:ih:(ow-iw)/2:(oh-ih)/2" |
|
|
|
# Double the output size and put the input video in the bottom-right |
|
# corner of the output padded area |
|
pad="2*iw:2*ih:ow-iw:oh-ih" |
|
@end example |
|
|
|
@section pixdesctest |
|
|
|
Pixel format descriptor test filter, mainly useful for internal |
|
testing. The output video should be equal to the input video. |
|
|
|
For example: |
|
@example |
|
format=monow, pixdesctest |
|
@end example |
|
|
|
can be used to test the monowhite pixel format descriptor definition. |
|
|
|
@anchor{scale} |
|
@section scale |
|
|
|
Scale the input video and/or convert the image format. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item w |
|
The output video width. |
|
|
|
@item h |
|
The output video height. |
|
|
|
@end table |
|
|
|
The parameters @var{w} and @var{h} are expressions containing |
|
the following constants: |
|
|
|
@table @option |
|
@item E, PI, PHI |
|
These are approximated values for the mathematical constants e |
|
(Euler's number), pi (Greek pi), and phi (the golden ratio). |
|
|
|
@item in_w, in_h |
|
The input width and height. |
|
|
|
@item iw, ih |
|
These are the same as @var{in_w} and @var{in_h}. |
|
|
|
@item out_w, out_h |
|
The output (cropped) width and height. |
|
|
|
@item ow, oh |
|
These are the same as @var{out_w} and @var{out_h}. |
|
|
|
@item a |
|
This is the same as @var{iw} / @var{ih}. |
|
|
|
@item sar |
|
input sample aspect ratio |
|
|
|
@item dar |
|
The input display aspect ratio; it is the same as |
|
(@var{iw} / @var{ih}) * @var{sar}. |
|
|
|
@item hsub, vsub |
|
The horizontal and vertical chroma subsample values. For example, for the |
|
pixel format "yuv422p" @var{hsub} is 2 and @var{vsub} is 1. |
|
@end table |
|
|
|
If the input image format is different from the format requested by |
|
the next filter, the scale filter will convert the input to the |
|
requested format. |
|
|
|
If the value for @var{w} or @var{h} is 0, the respective input |
|
size is used for the output. |
|
|
|
If the value for @var{w} or @var{h} is -1, the scale filter will use, for the |
|
respective output size, a value that maintains the aspect ratio of the input |
|
image. |
|
|
|
The default value of @var{w} and @var{h} is 0. |
|
|
|
Some examples: |
|
@example |
|
# Scale the input video to a size of 200x100 |
|
scale=w=200:h=100 |
|
|
|
# Scale the input to 2x |
|
scale=w=2*iw:h=2*ih |
|
# The above is the same as |
|
scale=2*in_w:2*in_h |
|
|
|
# Scale the input to half the original size |
|
scale=w=iw/2:h=ih/2 |
|
|
|
# Increase the width, and set the height to the same size |
|
scale=3/2*iw:ow |
|
|
|
# Seek Greek harmony |
|
scale=iw:1/PHI*iw |
|
scale=ih*PHI:ih |
|
|
|
# Increase the height, and set the width to 3/2 of the height |
|
scale=w=3/2*oh:h=3/5*ih |
|
|
|
# Increase the size, making the size a multiple of the chroma |
|
scale="trunc(3/2*iw/hsub)*hsub:trunc(3/2*ih/vsub)*vsub" |
|
|
|
# Increase the width to a maximum of 500 pixels, |
|
# keeping the same aspect ratio as the input |
|
scale=w='min(500\, iw*3/2):h=-1' |
|
@end example |
|
|
|
@section scale_npp |
|
|
|
Use the NVIDIA Performance Primitives (libnpp) to perform scaling and/or pixel |
|
format conversion on CUDA video frames. Setting the output width and height |
|
works in the same way as for the @var{scale} filter. |
|
|
|
The following additional options are accepted: |
|
@table @option |
|
@item format |
|
The pixel format of the output CUDA frames. If set to the string "same" (the |
|
default), the input format will be kept. Note that automatic format negotiation |
|
and conversion is not yet supported for hardware frames |
|
|
|
@item interp_algo |
|
The interpolation algorithm used for resizing. One of the following: |
|
@table @option |
|
@item nn |
|
Nearest neighbour. |
|
|
|
@item linear |
|
@item cubic |
|
@item cubic2p_bspline |
|
2-parameter cubic (B=1, C=0) |
|
|
|
@item cubic2p_catmullrom |
|
2-parameter cubic (B=0, C=1/2) |
|
|
|
@item cubic2p_b05c03 |
|
2-parameter cubic (B=1/2, C=3/10) |
|
|
|
@item super |
|
Supersampling |
|
|
|
@item lanczos |
|
@end table |
|
|
|
@end table |
|
|
|
@section select |
|
Select frames to pass in output. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item expr |
|
An expression, which is evaluated for each input frame. If the expression is |
|
evaluated to a non-zero value, the frame is selected and passed to the output, |
|
otherwise it is discarded. |
|
|
|
@end table |
|
|
|
The expression can contain the following constants: |
|
|
|
@table @option |
|
@item E, PI, PHI |
|
These are approximated values for the mathematical constants e |
|
(Euler's number), pi (Greek pi), and phi (the golden ratio). |
|
|
|
@item n |
|
The (sequential) number of the filtered frame, starting from 0. |
|
|
|
@item selected_n |
|
The (sequential) number of the selected frame, starting from 0. |
|
|
|
@item prev_selected_n |
|
The sequential number of the last selected frame. It's NAN if undefined. |
|
|
|
@item TB |
|
The timebase of the input timestamps. |
|
|
|
@item pts |
|
The PTS (Presentation TimeStamp) of the filtered video frame, |
|
expressed in @var{TB} units. It's NAN if undefined. |
|
|
|
@item t |
|
The PTS of the filtered video frame, |
|
expressed in seconds. It's NAN if undefined. |
|
|
|
@item prev_pts |
|
The PTS of the previously filtered video frame. It's NAN if undefined. |
|
|
|
@item prev_selected_pts |
|
The PTS of the last previously filtered video frame. It's NAN if undefined. |
|
|
|
@item prev_selected_t |
|
The PTS of the last previously selected video frame. It's NAN if undefined. |
|
|
|
@item start_pts |
|
The PTS of the first video frame in the video. It's NAN if undefined. |
|
|
|
@item start_t |
|
The time of the first video frame in the video. It's NAN if undefined. |
|
|
|
@item pict_type |
|
The type of the filtered frame. It can assume one of the following |
|
values: |
|
@table @option |
|
@item I |
|
@item P |
|
@item B |
|
@item S |
|
@item SI |
|
@item SP |
|
@item BI |
|
@end table |
|
|
|
@item interlace_type |
|
The frame interlace type. It can assume one of the following values: |
|
@table @option |
|
@item PROGRESSIVE |
|
The frame is progressive (not interlaced). |
|
@item TOPFIRST |
|
The frame is top-field-first. |
|
@item BOTTOMFIRST |
|
The frame is bottom-field-first. |
|
@end table |
|
|
|
@item key |
|
This is 1 if the filtered frame is a key-frame, 0 otherwise. |
|
|
|
@end table |
|
|
|
The default value of the select expression is "1". |
|
|
|
Some examples: |
|
|
|
@example |
|
# Select all the frames in input |
|
select |
|
|
|
# The above is the same as |
|
select=expr=1 |
|
|
|
# Skip all frames |
|
select=expr=0 |
|
|
|
# Select only I-frames |
|
select='expr=eq(pict_type\,I)' |
|
|
|
# Select one frame per 100 |
|
select='not(mod(n\,100))' |
|
|
|
# Select only frames contained in the 10-20 time interval |
|
select='gte(t\,10)*lte(t\,20)' |
|
|
|
# Select only I-frames contained in the 10-20 time interval |
|
select='gte(t\,10)*lte(t\,20)*eq(pict_type\,I)' |
|
|
|
# Select frames with a minimum distance of 10 seconds |
|
select='isnan(prev_selected_t)+gte(t-prev_selected_t\,10)' |
|
@end example |
|
|
|
@anchor{setdar} |
|
@section setdar |
|
|
|
Set the Display Aspect Ratio for the filter output video. |
|
|
|
This is done by changing the specified Sample (aka Pixel) Aspect |
|
Ratio, according to the following equation: |
|
@math{DAR = HORIZONTAL_RESOLUTION / VERTICAL_RESOLUTION * SAR} |
|
|
|
Keep in mind that this filter does not modify the pixel dimensions of |
|
the video frame. Also, the display aspect ratio set by this filter may |
|
be changed by later filters in the filterchain, e.g. in case of |
|
scaling or if another "setdar" or a "setsar" filter is applied. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item dar |
|
The output display aspect ratio. |
|
|
|
@end table |
|
|
|
The parameter @var{dar} is an expression containing |
|
the following constants: |
|
|
|
@table @option |
|
@item E, PI, PHI |
|
These are approximated values for the mathematical constants e |
|
(Euler's number), pi (Greek pi), and phi (the golden ratio). |
|
|
|
@item w, h |
|
The input width and height. |
|
|
|
@item a |
|
This is the same as @var{w} / @var{h}. |
|
|
|
@item sar |
|
The input sample aspect ratio. |
|
|
|
@item dar |
|
The input display aspect ratio. It is the same as |
|
(@var{w} / @var{h}) * @var{sar}. |
|
|
|
@item hsub, vsub |
|
The horizontal and vertical chroma subsample values. For example, for the |
|
pixel format "yuv422p" @var{hsub} is 2 and @var{vsub} is 1. |
|
@end table |
|
|
|
To change the display aspect ratio to 16:9, specify: |
|
@example |
|
setdar=dar=16/9 |
|
# The above is equivalent to |
|
setdar=dar=1.77777 |
|
@end example |
|
|
|
Also see the the @ref{setsar} filter documentation. |
|
|
|
@section setpts |
|
|
|
Change the PTS (presentation timestamp) of the input video frames. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item expr |
|
The expression which is evaluated for each frame to construct its timestamp. |
|
|
|
@end table |
|
|
|
The expression is evaluated through the eval API and can contain the following |
|
constants: |
|
|
|
@table @option |
|
@item PTS |
|
The presentation timestamp in input. |
|
|
|
@item E, PI, PHI |
|
These are approximated values for the mathematical constants e |
|
(Euler's number), pi (Greek pi), and phi (the golden ratio). |
|
|
|
@item N |
|
The count of the input frame, starting from 0. |
|
|
|
@item STARTPTS |
|
The PTS of the first video frame. |
|
|
|
@item INTERLACED |
|
State whether the current frame is interlaced. |
|
|
|
@item PREV_INPTS |
|
The previous input PTS. |
|
|
|
@item PREV_OUTPTS |
|
The previous output PTS. |
|
|
|
@item RTCTIME |
|
The wallclock (RTC) time in microseconds. |
|
|
|
@item RTCSTART |
|
The wallclock (RTC) time at the start of the movie in microseconds. |
|
|
|
@item TB |
|
The timebase of the input timestamps. |
|
|
|
@end table |
|
|
|
Some examples: |
|
|
|
@example |
|
# Start counting the PTS from zero |
|
setpts=expr=PTS-STARTPTS |
|
|
|
# Fast motion |
|
setpts=expr=0.5*PTS |
|
|
|
# Slow motion |
|
setpts=2.0*PTS |
|
|
|
# Fixed rate 25 fps |
|
setpts=N/(25*TB) |
|
|
|
# Fixed rate 25 fps with some jitter |
|
setpts='1/(25*TB) * (N + 0.05 * sin(N*2*PI/25))' |
|
|
|
# Generate timestamps from a "live source" and rebase onto the current timebase |
|
setpts='(RTCTIME - RTCSTART) / (TB * 1000000)" |
|
@end example |
|
|
|
@anchor{setsar} |
|
@section setsar |
|
|
|
Set the Sample (aka Pixel) Aspect Ratio for the filter output video. |
|
|
|
Note that as a consequence of the application of this filter, the |
|
output display aspect ratio will change according to the following |
|
equation: |
|
@math{DAR = HORIZONTAL_RESOLUTION / VERTICAL_RESOLUTION * SAR} |
|
|
|
Keep in mind that the sample aspect ratio set by this filter may be |
|
changed by later filters in the filterchain, e.g. if another "setsar" |
|
or a "setdar" filter is applied. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item sar |
|
The output sample aspect ratio. |
|
|
|
@end table |
|
|
|
The parameter @var{sar} is an expression containing |
|
the following constants: |
|
|
|
@table @option |
|
@item E, PI, PHI |
|
These are approximated values for the mathematical constants e |
|
(Euler's number), pi (Greek pi), and phi (the golden ratio). |
|
|
|
@item w, h |
|
The input width and height. |
|
|
|
@item a |
|
These are the same as @var{w} / @var{h}. |
|
|
|
@item sar |
|
The input sample aspect ratio. |
|
|
|
@item dar |
|
The input display aspect ratio. It is the same as |
|
(@var{w} / @var{h}) * @var{sar}. |
|
|
|
@item hsub, vsub |
|
Horizontal and vertical chroma subsample values. For example, for the |
|
pixel format "yuv422p" @var{hsub} is 2 and @var{vsub} is 1. |
|
@end table |
|
|
|
To change the sample aspect ratio to 10:11, specify: |
|
@example |
|
setsar=sar=10/11 |
|
@end example |
|
|
|
@section settb |
|
|
|
Set the timebase to use for the output frames timestamps. |
|
It is mainly useful for testing timebase configuration. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item expr |
|
The expression which is evaluated into the output timebase. |
|
|
|
@end table |
|
|
|
The expression can contain the constants "PI", "E", "PHI", "AVTB" (the |
|
default timebase), and "intb" (the input timebase). |
|
|
|
The default value for the input is "intb". |
|
|
|
Some examples: |
|
|
|
@example |
|
# Set the timebase to 1/25 |
|
settb=expr=1/25 |
|
|
|
# Set the timebase to 1/10 |
|
settb=expr=0.1 |
|
|
|
# Set the timebase to 1001/1000 |
|
settb=1+0.001 |
|
|
|
#Set the timebase to 2*intb |
|
settb=2*intb |
|
|
|
#Set the default timebase value |
|
settb=AVTB |
|
@end example |
|
|
|
@section showinfo |
|
|
|
Show a line containing various information for each input video frame. |
|
The input video is not modified. |
|
|
|
The shown line contains a sequence of key/value pairs of the form |
|
@var{key}:@var{value}. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
@item n |
|
The (sequential) number of the input frame, starting from 0. |
|
|
|
@item pts |
|
The Presentation TimeStamp of the input frame, expressed as a number of |
|
time base units. The time base unit depends on the filter input pad. |
|
|
|
@item pts_time |
|
The Presentation TimeStamp of the input frame, expressed as a number of |
|
seconds. |
|
|
|
@item pos |
|
The position of the frame in the input stream, or -1 if this information is |
|
unavailable and/or meaningless (for example in case of synthetic video). |
|
|
|
@item fmt |
|
The pixel format name. |
|
|
|
@item sar |
|
The sample aspect ratio of the input frame, expressed in the form |
|
@var{num}/@var{den}. |
|
|
|
@item s |
|
The size of the input frame, expressed in the form |
|
@var{width}x@var{height}. |
|
|
|
@item i |
|
The type of interlaced mode ("P" for "progressive", "T" for top field first, "B" |
|
for bottom field first). |
|
|
|
@item iskey |
|
This is 1 if the frame is a key frame, 0 otherwise. |
|
|
|
@item type |
|
The picture type of the input frame ("I" for an I-frame, "P" for a |
|
P-frame, "B" for a B-frame, or "?" for an unknown type). |
|
Also refer to the documentation of the @code{AVPictureType} enum and of |
|
the @code{av_get_picture_type_char} function defined in |
|
@file{libavutil/avutil.h}. |
|
|
|
@item checksum |
|
The Adler-32 checksum of all the planes of the input frame. |
|
|
|
@item plane_checksum |
|
The Adler-32 checksum of each plane of the input frame, expressed in the form |
|
"[@var{c0} @var{c1} @var{c2} @var{c3}]". |
|
@end table |
|
|
|
@section shuffleplanes |
|
|
|
Reorder and/or duplicate video planes. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item map0 |
|
The index of the input plane to be used as the first output plane. |
|
|
|
@item map1 |
|
The index of the input plane to be used as the second output plane. |
|
|
|
@item map2 |
|
The index of the input plane to be used as the third output plane. |
|
|
|
@item map3 |
|
The index of the input plane to be used as the fourth output plane. |
|
|
|
@end table |
|
|
|
The first plane has the index 0. The default is to keep the input unchanged. |
|
|
|
Swap the second and third planes of the input: |
|
@example |
|
avconv -i INPUT -vf shuffleplanes=0:2:1:3 OUTPUT |
|
@end example |
|
|
|
@section split |
|
|
|
Split input video into several identical outputs. |
|
|
|
It accepts a single parameter, which specifies the number of outputs. If |
|
unspecified, it defaults to 2. |
|
|
|
Create 5 copies of the input video: |
|
@example |
|
avconv -i INPUT -filter_complex split=5 OUTPUT |
|
@end example |
|
|
|
@section transpose |
|
|
|
Transpose rows with columns in the input video and optionally flip it. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item dir |
|
The direction of the transpose. |
|
|
|
@end table |
|
|
|
The direction can assume the following values: |
|
|
|
@table @samp |
|
@item cclock_flip |
|
Rotate by 90 degrees counterclockwise and vertically flip (default), that is: |
|
@example |
|
L.R L.l |
|
. . -> . . |
|
l.r R.r |
|
@end example |
|
|
|
@item clock |
|
Rotate by 90 degrees clockwise, that is: |
|
@example |
|
L.R l.L |
|
. . -> . . |
|
l.r r.R |
|
@end example |
|
|
|
@item cclock |
|
Rotate by 90 degrees counterclockwise, that is: |
|
@example |
|
L.R R.r |
|
. . -> . . |
|
l.r L.l |
|
@end example |
|
|
|
@item clock_flip |
|
Rotate by 90 degrees clockwise and vertically flip, that is: |
|
@example |
|
L.R r.R |
|
. . -> . . |
|
l.r l.L |
|
@end example |
|
@end table |
|
|
|
@section trim |
|
Trim the input so that the output contains one continuous subpart of the input. |
|
|
|
It accepts the following parameters: |
|
@table @option |
|
@item start |
|
The timestamp (in seconds) of the start of the kept section. The frame with the |
|
timestamp @var{start} will be the first frame in the output. |
|
|
|
@item end |
|
The timestamp (in seconds) of the first frame that will be dropped. The frame |
|
immediately preceding the one with the timestamp @var{end} will be the last |
|
frame in the output. |
|
|
|
@item start_pts |
|
This is the same as @var{start}, except this option sets the start timestamp |
|
in timebase units instead of seconds. |
|
|
|
@item end_pts |
|
This is the same as @var{end}, except this option sets the end timestamp |
|
in timebase units instead of seconds. |
|
|
|
@item duration |
|
The maximum duration of the output in seconds. |
|
|
|
@item start_frame |
|
The number of the first frame that should be passed to the output. |
|
|
|
@item end_frame |
|
The number of the first frame that should be dropped. |
|
@end table |
|
|
|
Note that the first two sets of the start/end options and the @option{duration} |
|
option look at the frame timestamp, while the _frame variants simply count the |
|
frames that pass through the filter. Also note that this filter does not modify |
|
the timestamps. If you wish for the output timestamps to start at zero, insert a |
|
setpts filter after the trim filter. |
|
|
|
If multiple start or end options are set, this filter tries to be greedy and |
|
keep all the frames that match at least one of the specified constraints. To keep |
|
only the part that matches all the constraints at once, chain multiple trim |
|
filters. |
|
|
|
The defaults are such that all the input is kept. So it is possible to set e.g. |
|
just the end values to keep everything before the specified time. |
|
|
|
Examples: |
|
@itemize |
|
@item |
|
Drop everything except the second minute of input: |
|
@example |
|
avconv -i INPUT -vf trim=60:120 |
|
@end example |
|
|
|
@item |
|
Keep only the first second: |
|
@example |
|
avconv -i INPUT -vf trim=duration=1 |
|
@end example |
|
|
|
@end itemize |
|
@section unsharp |
|
|
|
Sharpen or blur the input video. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item luma_msize_x |
|
Set the luma matrix horizontal size. It must be an integer between 3 |
|
and 13. The default value is 5. |
|
|
|
@item luma_msize_y |
|
Set the luma matrix vertical size. It must be an integer between 3 |
|
and 13. The default value is 5. |
|
|
|
@item luma_amount |
|
Set the luma effect strength. It must be a floating point number between -2.0 |
|
and 5.0. The default value is 1.0. |
|
|
|
@item chroma_msize_x |
|
Set the chroma matrix horizontal size. It must be an integer between 3 |
|
and 13. The default value is 5. |
|
|
|
@item chroma_msize_y |
|
Set the chroma matrix vertical size. It must be an integer between 3 |
|
and 13. The default value is 5. |
|
|
|
@item chroma_amount |
|
Set the chroma effect strength. It must be a floating point number between -2.0 |
|
and 5.0. The default value is 0.0. |
|
|
|
@end table |
|
|
|
Negative values for the amount will blur the input video, while positive |
|
values will sharpen. All parameters are optional and default to the |
|
equivalent of the string '5:5:1.0:5:5:0.0'. |
|
|
|
@example |
|
# Strong luma sharpen effect parameters |
|
unsharp=luma_msize_x=7:luma_msize_y=7:luma_amount=2.5 |
|
|
|
# A strong blur of both luma and chroma parameters |
|
unsharp=7:7:-2:7:7:-2 |
|
|
|
# Use the default values with @command{avconv} |
|
./avconv -i in.avi -vf "unsharp" out.mp4 |
|
@end example |
|
|
|
@section vflip |
|
|
|
Flip the input video vertically. |
|
|
|
@example |
|
./avconv -i in.avi -vf "vflip" out.avi |
|
@end example |
|
|
|
@section yadif |
|
|
|
Deinterlace the input video ("yadif" means "yet another deinterlacing |
|
filter"). |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item mode |
|
The interlacing mode to adopt. It accepts one of the following values: |
|
|
|
@table @option |
|
@item 0 |
|
Output one frame for each frame. |
|
@item 1 |
|
Output one frame for each field. |
|
@item 2 |
|
Like 0, but it skips the spatial interlacing check. |
|
@item 3 |
|
Like 1, but it skips the spatial interlacing check. |
|
@end table |
|
|
|
The default value is 0. |
|
|
|
@item parity |
|
The picture field parity assumed for the input interlaced video. It accepts one |
|
of the following values: |
|
|
|
@table @option |
|
@item 0 |
|
Assume the top field is first. |
|
@item 1 |
|
Assume the bottom field is first. |
|
@item -1 |
|
Enable automatic detection of field parity. |
|
@end table |
|
|
|
The default value is -1. |
|
If the interlacing is unknown or the decoder does not export this information, |
|
top field first will be assumed. |
|
|
|
@item auto |
|
Whether the deinterlacer should trust the interlaced flag and only deinterlace |
|
frames marked as interlaced. |
|
|
|
@table @option |
|
@item 0 |
|
Deinterlace all frames. |
|
@item 1 |
|
Only deinterlace frames marked as interlaced. |
|
@end table |
|
|
|
The default value is 0. |
|
|
|
@end table |
|
|
|
@c man end VIDEO FILTERS |
|
|
|
@chapter Video Sources |
|
@c man begin VIDEO SOURCES |
|
|
|
Below is a description of the currently available video sources. |
|
|
|
@section buffer |
|
|
|
Buffer video frames, and make them available to the filter chain. |
|
|
|
This source is mainly intended for a programmatic use, in particular |
|
through the interface defined in @file{libavfilter/vsrc_buffer.h}. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item width |
|
The input video width. |
|
|
|
@item height |
|
The input video height. |
|
|
|
@item pix_fmt |
|
The name of the input video pixel format. |
|
|
|
@item time_base |
|
The time base used for input timestamps. |
|
|
|
@item sar |
|
The sample (pixel) aspect ratio of the input video. |
|
|
|
@item hw_frames_ctx |
|
When using a hardware pixel format, this should be a reference to an |
|
AVHWFramesContext describing input frames. |
|
|
|
@end table |
|
|
|
For example: |
|
@example |
|
buffer=width=320:height=240:pix_fmt=yuv410p:time_base=1/24:sar=1 |
|
@end example |
|
|
|
will instruct the source to accept video frames with size 320x240 and |
|
with format "yuv410p", assuming 1/24 as the timestamps timebase and |
|
square pixels (1:1 sample aspect ratio). |
|
|
|
@section color |
|
|
|
Provide an uniformly colored input. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item color |
|
Specify the color of the source. It can be the name of a color (case |
|
insensitive match) or a 0xRRGGBB[AA] sequence, possibly followed by an |
|
alpha specifier. The default value is "black". |
|
|
|
@item size |
|
Specify the size of the sourced video, it may be a string of the form |
|
@var{width}x@var{height}, or the name of a size abbreviation. The |
|
default value is "320x240". |
|
|
|
@item framerate |
|
Specify the frame rate of the sourced video, as the number of frames |
|
generated per second. It has to be a string in the format |
|
@var{frame_rate_num}/@var{frame_rate_den}, an integer number, a floating point |
|
number or a valid video frame rate abbreviation. The default value is |
|
"25". |
|
|
|
@end table |
|
|
|
The following graph description will generate a red source |
|
with an opacity of 0.2, with size "qcif" and a frame rate of 10 |
|
frames per second, which will be overlaid over the source connected |
|
to the pad with identifier "in": |
|
|
|
@example |
|
"color=red@@0.2:qcif:10 [color]; [in][color] overlay [out]" |
|
@end example |
|
|
|
@section movie |
|
|
|
Read a video stream from a movie container. |
|
|
|
Note that this source is a hack that bypasses the standard input path. It can be |
|
useful in applications that do not support arbitrary filter graphs, but its use |
|
is discouraged in those that do. It should never be used with |
|
@command{avconv}; the @option{-filter_complex} option fully replaces it. |
|
|
|
It accepts the following parameters: |
|
|
|
@table @option |
|
|
|
@item filename |
|
The name of the resource to read (not necessarily a file; it can also be a |
|
device or a stream accessed through some protocol). |
|
|
|
@item format_name, f |
|
Specifies the format assumed for the movie to read, and can be either |
|
the name of a container or an input device. If not specified, the |
|
format is guessed from @var{movie_name} or by probing. |
|
|
|
@item seek_point, sp |
|
Specifies the seek point in seconds. The frames will be output |
|
starting from this seek point. The parameter is evaluated with |
|
@code{av_strtod}, so the numerical value may be suffixed by an IS |
|
postfix. The default value is "0". |
|
|
|
@item stream_index, si |
|
Specifies the index of the video stream to read. If the value is -1, |
|
the most suitable video stream will be automatically selected. The default |
|
value is "-1". |
|
|
|
@end table |
|
|
|
It allows overlaying a second video on top of the main input of |
|
a filtergraph, as shown in this graph: |
|
@example |
|
input -----------> deltapts0 --> overlay --> output |
|
^ |
|
| |
|
movie --> scale--> deltapts1 -------+ |
|
@end example |
|
|
|
Some examples: |
|
@example |
|
# Skip 3.2 seconds from the start of the AVI file in.avi, and overlay it |
|
# on top of the input labelled "in" |
|
movie=in.avi:seek_point=3.2, scale=180:-1, setpts=PTS-STARTPTS [movie]; |
|
[in] setpts=PTS-STARTPTS, [movie] overlay=16:16 [out] |
|
|
|
# Read from a video4linux2 device, and overlay it on top of the input |
|
# labelled "in" |
|
movie=/dev/video0:f=video4linux2, scale=180:-1, setpts=PTS-STARTPTS [movie]; |
|
[in] setpts=PTS-STARTPTS, [movie] overlay=16:16 [out] |
|
|
|
@end example |
|
|
|
@section nullsrc |
|
|
|
Null video source: never return images. It is mainly useful as a |
|
template and to be employed in analysis / debugging tools. |
|
|
|
It accepts a string of the form |
|
@var{width}:@var{height}:@var{timebase} as an optional parameter. |
|
|
|
@var{width} and @var{height} specify the size of the configured |
|
source. The default values of @var{width} and @var{height} are |
|
respectively 352 and 288 (corresponding to the CIF size format). |
|
|
|
@var{timebase} specifies an arithmetic expression representing a |
|
timebase. The expression can contain the constants "PI", "E", "PHI", and |
|
"AVTB" (the default timebase), and defaults to the value "AVTB". |
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@section frei0r_src |
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Provide a frei0r source. |
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To enable compilation of this filter you need to install the frei0r |
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header and configure Libav with --enable-frei0r. |
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This source accepts the following parameters: |
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@table @option |
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@item size |
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The size of the video to generate. It may be a string of the form |
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@var{width}x@var{height} or a frame size abbreviation. |
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@item framerate |
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The framerate of the generated video. It may be a string of the form |
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@var{num}/@var{den} or a frame rate abbreviation. |
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@item filter_name |
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The name to the frei0r source to load. For more information regarding frei0r and |
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how to set the parameters, read the @ref{frei0r} section in the video filters |
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documentation. |
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@item filter_params |
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A '|'-separated list of parameters to pass to the frei0r source. |
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@end table |
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An example: |
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@example |
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# Generate a frei0r partik0l source with size 200x200 and framerate 10 |
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# which is overlaid on the overlay filter's main input |
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frei0r_src=size=200x200:framerate=10:filter_name=partik0l:filter_params=1234 [overlay]; [in][overlay] overlay |
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@end example |
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@section rgbtestsrc, testsrc |
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The @code{rgbtestsrc} source generates an RGB test pattern useful for |
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detecting RGB vs BGR issues. You should see a red, green and blue |
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stripe from top to bottom. |
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The @code{testsrc} source generates a test video pattern, showing a |
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color pattern, a scrolling gradient and a timestamp. This is mainly |
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intended for testing purposes. |
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The sources accept the following parameters: |
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@table @option |
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@item size, s |
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Specify the size of the sourced video, it may be a string of the form |
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@var{width}x@var{height}, or the name of a size abbreviation. The |
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default value is "320x240". |
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@item rate, r |
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Specify the frame rate of the sourced video, as the number of frames |
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generated per second. It has to be a string in the format |
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@var{frame_rate_num}/@var{frame_rate_den}, an integer number, a floating point |
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number or a valid video frame rate abbreviation. The default value is |
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"25". |
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@item sar |
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Set the sample aspect ratio of the sourced video. |
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@item duration |
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Set the video duration of the sourced video. The accepted syntax is: |
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@example |
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[-]HH[:MM[:SS[.m...]]] |
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[-]S+[.m...] |
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@end example |
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Also see the the @code{av_parse_time()} function. |
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If not specified, or the expressed duration is negative, the video is |
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supposed to be generated forever. |
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@end table |
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For example the following: |
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@example |
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testsrc=duration=5.3:size=qcif:rate=10 |
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@end example |
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will generate a video with a duration of 5.3 seconds, with size |
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176x144 and a framerate of 10 frames per second. |
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@c man end VIDEO SOURCES |
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@chapter Video Sinks |
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@c man begin VIDEO SINKS |
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Below is a description of the currently available video sinks. |
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@section buffersink |
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Buffer video frames, and make them available to the end of the filter |
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graph. |
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This sink is intended for programmatic use through the interface defined in |
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@file{libavfilter/buffersink.h}. |
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@section nullsink |
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Null video sink: do absolutely nothing with the input video. It is |
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mainly useful as a template and for use in analysis / debugging |
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tools. |
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@c man end VIDEO SINKS
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