X-Git-Url: http://research.m1stereo.tv/gitweb?a=blobdiff_plain;f=docs%2Finigo.txt;h=ed417d99b65902fff90fe1bf637c50ff8f3cf9cf;hb=2a800ec4c840132c7a629b764b673dce09771637;hp=d62031f4534516c8fbf912aa026533afeaf21ab5;hpb=0bd5d91026b8bd143f957f119d61d5fedd45cf70;p=melted diff --git a/docs/inigo.txt b/docs/inigo.txt index d62031f..ed417d9 100644 --- a/docs/inigo.txt +++ b/docs/inigo.txt @@ -90,12 +90,11 @@ Properties: $ inigo file in=50 out=100 something="something else" - Note that while some properties have meaning to all producers - (for example: in, out and length are guaranteed to be valid for - all, though typically, length is determined automatically), the - validity of others are dependent on the producer - however, - properties will always be assigned, but it doesn't mean they - will be used. + Note that while some properties have meaning to all producers (for + example: in, out and length are guaranteed to be valid for all, though + typically, length is determined automatically), the validity of others + are dependent on the producer - however, properties will always be + assigned and silently ignored if they won't be used. Multiple Files: @@ -108,36 +107,29 @@ Multiple Files: $ inigo a.dv in=50 out=100 b.mpg out=500 c.png out=500 + MLT will take care of 'normalising' the output of a producer to ensure + that the consumer gets what it needs. So, in the case above, the mlt + framework will ensure that images are rescaled and audio resampled to meet + the requirements of your configuration (which, by default, will be PAL). + See 'Appendix A: Normalisation Rules' below. -Filters: - The Multiple Files examples above will logically playout one - after the other. - - However, inigo doesn't care too much about changes in frame - dimensions or audio specification, so you may need to add - additional normalising filters to that, ie: - - $ inigo a.dv b.mpg c.png -filter resize -filter resample - - These filters are designed to guarantee that the consumer gets - what it asks for. - - It should also be stressed that filters are applied in the order - in which they're specified. +Filters: + Filters are frame modifiers - they can change the contents of the audio or + the images associated to a frame. -Filter Properties: + $ inigo a.dv -filter greyscale As with producers, properties may be specified on filters too. - Again, in and out properties are common to all, so to apply a - filter to a range of frames, you would use something like: + Again, in and out properties are common to all, so to apply a filter to a + range of frames, you would use something like: $ inigo a.dv -filter greyscale in=0 out=50 - Again, filters have their own set of rules about properties and - will silently ignore properties that do not apply. + Again, filters have their own set of rules about properties and will + silently ignore properties that do not apply. Groups: @@ -165,8 +157,8 @@ Groups: Introducing Tracks and Blanks: - So far, all of the examples have shown the definition of a - single playlist, or more accurately, track. + So far, all of the examples have shown the definition of a single + playlist, or more accurately, track. When multiple tracks exist, the consumer will receive a frame from the 'lowest numbered' track that is generating a non-blank @@ -202,8 +194,8 @@ Introducing Tracks and Blanks: +-------------------+ Now playout will continue as though a and b clips are on the - same track (which is about as useful as reversing the process of - slicing bread). + same track (which on its own, is about as useful as reversing the + process of slicing bread). Transitions: @@ -213,9 +205,10 @@ Transitions: Here we need tracks to overlap, so a useful multitrack definition could be given as: - $ inigo a.dv out=49 -transition luma in=25 out=49 \ + $ inigo a.dv out=49 \ -track \ - -blank 24 b.dv + -blank 24 b.dv \ + -transition luma in=25 out=49 a_track=0 b_track=1 Now we're cooking - our visualisation would be something like: @@ -246,23 +239,10 @@ Reversing a Transition: In this scenario, we define a command line as follows: $ inigo a.dv out=49 -blank 49 a2.dv \ - -transition luma in=25 out=49 \ - -transition luma in=100 out=124 reverse=1 \ -track \ - -blank 24 b.dv out=99 - - -Filters and Tracks: - - A filter applies to a [specified region of a] single track, so - normalisation filters need to be applied to each track when - applicable. - - This user specification is a necessary evil (you do not want to - resize a text or png overlay to be the size of the frame that - the consumer is requesting, and you may not want to unecessarily - resize a video track if you will be later rescaling it for - composition). + -blank 24 b.dv out=99 \ + -transition luma in=25 out=49 a_track=0 b_track=1 \ + -transition luma in=100 out=124 reverse=1 a_track=0 b_track=1 Serialisation: @@ -275,14 +255,22 @@ Serialisation: miracle or inigo. Take care though - paths to files are saved as provided on the command line.... + A more expressive serialisation can be obtained with the westley consumer + - this will provide an xml document which can be used freely in inigo and + miracle. + + See westley.txt for more information. + Missing Features: - Some filters/transitions should be applied on the output frame - regardless of which track it comes from - for example, you might - have a 3rd text track or a watermark which you want composited - on every frame, and of course, there's the obscure feature.... + Some filters/transitions should be applied on the output frame regardless + of which track it comes from - for example, you might have a 3rd text + track or a watermark which you want composited on every frame, and of + course, there's the obscure filter.... - A -post switch will be added to provided this feature at some - point soon. + inigo only supports this in two invocations - as a simple example: + + $ inigo a.dv -track -blank 100 b.dv -consumer westley:basic.westley + $ inigo basic.westley -filter watermark:watermark.png