Ejemplo n.º 1
0
  static long[] adjustTts(
      long[] sourceArray, double timeScaleFactor, long[] syncSample, long[] syncSampleTimes) {

    long summedDurations = 0;

    long[] scaledArray = new long[sourceArray.length];

    for (int i = 1; i <= sourceArray.length; i++) {
      long duration = sourceArray[i - 1];

      long x = Math.round(timeScaleFactor * duration);

      int ssIndex;
      if ((ssIndex = Arrays.binarySearch(syncSample, i + 1)) >= 0) {
        // we are at the sample before sync point
        if (syncSampleTimes[ssIndex] != summedDurations) {
          long correction = syncSampleTimes[ssIndex] - (summedDurations + x);
          LOG.finest(
              String.format(
                  "Sample %d %d / %d - correct by %d",
                  i, summedDurations, syncSampleTimes[ssIndex], correction));
          x += correction;
        }
      }
      summedDurations += x;
      scaledArray[i - 1] = x;
    }
    return scaledArray;
  }
Ejemplo n.º 2
0
 /**
  * Adjusting the composition times is easy. Just scale it by the factor - that's it. There is no
  * rounding error summing up.
  *
  * @param source
  * @param timeScaleFactor
  * @return
  */
 static List<CompositionTimeToSample.Entry> adjustCtts(
     List<CompositionTimeToSample.Entry> source, double timeScaleFactor) {
   if (source != null) {
     List<CompositionTimeToSample.Entry> entries2 =
         new ArrayList<CompositionTimeToSample.Entry>(source.size());
     for (CompositionTimeToSample.Entry entry : source) {
       entries2.add(
           new CompositionTimeToSample.Entry(
               entry.getCount(), (int) Math.round(timeScaleFactor * entry.getOffset())));
     }
     return entries2;
   } else {
     return null;
   }
 }