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I am trying to decode a timecode which is using an approximated log curve (see picture). Its not a real log curve, but consist of linear curves.

For example, when the timecode shows 822496 , the real time is 2793 ms. I have printed the curve, and found the break-points when a new linear curve begins:

Linear approximation of log

milliseconds => timecode
2793ms => 822496
6844ms => 906195
510982ms => 1408395

A new linear curve starts about every 83700 timecode-values. Currently I am unsing a real log curve, but I would like to know how to do it with linear curves, to be more precise.

My question is, how can I find the formular to calculate the real time (ms) from my timecode using linear curves as close as possible?

The log function to approximate this curve is (fitting at the break-points):

y = log x * 119900 - 167700

Thanks for hints!

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1 Answer 1

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What language? In Java I'd build a NavigableMap (TreeMap) of timecode -> real time, and then lookup the floorEntry( timecode) to find the nearest entry.

Of course, you'll need to calculate/ empirically determine the correspondence & build the map; either all beforehand, or growing the extents on-demand.

One thing that's unclear about your question.. can you exactly reverse-engineer the timecode calculation, or is this just an approximation & you are going to search for the exact position from there?

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I am using actionscript. But i suppose it doesn't matter which language. The values are read from 'screen', so not exact values but very close. –  Ilyssis Sep 19 '13 at 0:32
Looks like Google has a TreeMap in ActionScript, or you can just sort an array & write a binary search to do the lookup. See: code.google.com/p/as3-commons –  Thomas W Sep 19 '13 at 0:37
I suppose there should be a mathematical solution to use linear curves to approximate a log curve... but what I found yet is very mathematical : ) –  Ilyssis Sep 19 '13 at 0:40
Not complicated, it's just proportionality on a straight line! If T is timecode & R is realtime and you have a linear segment (T0, R0) to (T1, R1), then your fraction=(Tx - T0) / (T1 - T0) and Rx=fraction * (R1 - R0) + R0. –  Thomas W Sep 19 '13 at 0:49
Think of it this way: T1-T0 or R1-R0 are the widths in timecode & realtime, T0 and R0 are the starts in timecode & realtime, all you need to calculate is a fraction from 0 to 1 scaling your Tx between that T0 and T1. Such a fraction (a proportion) is obviously calculated by subtracting the start, then dividing by the width. Reverse the process to project the fraction onto realtime R. –  Thomas W Sep 19 '13 at 0:51

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