public override ColorBgra GetPercentileColor(float fraction) { int[] perc = GetPercentile(fraction); return(ColorBgra.FromBgr((byte)(perc[0]), (byte)(perc[1]), (byte)(perc[2]))); }
public void SetFromLeveledHistogram(HistogramRgb inputHistogram, LevelOp upo) { if (inputHistogram == null || upo == null) { return; } Clear(); float[] before = new float[3]; float[] slopes = new float[3]; for (int c = 0; c < 3; c++) { long[] channelHistogramOutput = histogram[c]; long[] channelHistogramInput = inputHistogram.histogram[c]; for (int v = 0; v <= 255; v++) { ColorBgra after = ColorBgra.FromBgr((byte)v, (byte)v, (byte)v); upo.UnApply(after, before, slopes); if (after[c] > upo.ColorOutHigh[c] || after[c] < upo.ColorOutLow[c] || (int)Math.Floor(before[c]) < 0 || (int)Math.Ceiling(before[c]) > 255 || float.IsNaN(before[c])) { channelHistogramOutput[v] = 0; } else if (before[c] <= upo.ColorInLow[c]) { channelHistogramOutput[v] = 0; for (int i = 0; i <= upo.ColorInLow[c]; i++) { channelHistogramOutput[v] += channelHistogramInput[i]; } } else if (before[c] >= upo.ColorInHigh[c]) { channelHistogramOutput[v] = 0; for (int i = upo.ColorInHigh[c]; i < 256; i++) { channelHistogramOutput[v] += channelHistogramInput[i]; } } else { channelHistogramOutput[v] = (int)(slopes[c] * Utility.Lerp( channelHistogramInput[(int)Math.Floor(before[c])], channelHistogramInput[(int)Math.Ceiling(before[c])], before[c] - Math.Floor(before[c]))); } } } OnHistogramUpdated(); }
public override ColorBgra GetMeanColor() { float[] mean = GetMean(); return(ColorBgra.FromBgr((byte)(mean[0] + 0.5f), (byte)(mean[1] + 0.5f), (byte)(mean[2] + 0.5f))); }