Variable Frame Rate MP4
From SDA Knowledge Base
Contents
Introduction
This guide assumes you're comfortable with AviSynth, MeGUI and batch files or working through the command line.
What is variable frame rate? You can probably guess that a constant frame rate is where the frame rate of a video stays the same throughout its whole length. In VFR you'll have sections that have a different framerate. VFR is useful when the game you've recorded has multiple in-game framerates. For example, God of War for the PS2 outputs gameplay at full framerate while its cinematics are half framerate. MvBob is best suited for F1 while Telecide is best suited for F2.
Creating the actual VFR MP4 isn't so hard, the tedious part is setting up the AviSynth script and frame ranges. You have to look through your segment for changes in framerate and get the exact frame that this happens.
Files you'll need
Download tc2mp4 and extract the contents to your working directory. Place mp4box.exe in the same directory. Mp4box can be found in "..\MeGUI\tools\mp4box\".
Encoding the AviSynth script
To create a VFR video, you must first create the CFR version by matching the framerates. It's when you've encoded it to mp4 format that you'll use tc2mp4 to slow down or speed up specific sections in your video. The following is a simple example:
a=avisource("my30fpsvid.avi") b=avisource("my60fpsvid.avi") ### Match a's framerate to that of b. Avoid using numbers, if the ### framerates are even 0.000001 different, this will not work. a=a.assumefps(b) AlignedSplice(a,b) ConvertToYV12()
Since this script didn't use any Trim commands, we have to find how many frames each video has. Load each into VirtualDub(Mod), go to File -> File Information. Look at the length and take note of how many frames there are. Remember, 0 counts as a frame. So if vdub reports 100 frames in total, the frames would be 0-99.
This example is more complex thanks to mvbob doubling the amount of frames.
Loadplugin("C:\Program Files\DGMPGDec\DGDecode.dll") Ac3Source(MPEG2source("SEG7_5155.d2v"),"SEG7_5155_DELAY-73ms.ac3").DelayAudio(-0.073) assumetff() a=last.Trim(0,1720).mvbob() b=last.Trim(1721,4080).telecide().assumefps(a) c=last.Trim(4081,11480).mvbob() d=last.Trim(11481,12455).telecide().assumefps(a) e=last.Trim(12456,13485).mvbob() f=last.Trim(13486,16680).telecide().assumefps(a) g=last.Trim(16681,17200).mvbob() AlignedSplice(a,b,c,d,e,f,g) Lanczos4Resize(640,480) ConvertToYV12()
Encode it!
Finding the frame ranges
To calculate the frame ranges from the AviSynth script above, first find out how many there are in each set. Since MvBob is a bobbing deinterlacer, it doubles the amount of frames. Don't forget that the first number in the trim command is inclusive. So the above sets are 3442,2360,14800,975,2060,3195,1040, that's 27872 frames in total.
So, timecode.txt would be:
# timecode format v1 Assume 29.970030 0,3441,59.940060 3442,5801,29.970030 5802,20601,59.940060 20602,21576,29.970030 21577,23636,59.940060 23637,26831,29.970030 26832,27871,59.940060
Tip: Write down the left hand side first by incrementing from the set above, then the end frame is just the one before.
Setting the VFR
Your CFR encoding should be done now. Open a command line and use the following:
tc2mp4 -i myCFRvid.mp4 -t timecode.txt -o myVFRvid.mp4
Now you can mux the audio in.
Et voilà, you're done.