diff --git a/Source/Core/VideoCore.cpp b/Source/Core/VideoCore.cpp index d042d6ddd..74e454a47 100644 --- a/Source/Core/VideoCore.cpp +++ b/Source/Core/VideoCore.cpp @@ -26,7 +26,7 @@ struct per_group VideoPerGroup [Group_VideoMax]= "LOW (10th percentile), and HIGH (90th percentile) values for each frame.\n" "The U plane (along with V) provides information about video color.", ActiveFilter_Video_signalstats, - "Formula", + "MinMaxOfThePlot", }, //V { @@ -35,7 +35,7 @@ struct per_group VideoPerGroup [Group_VideoMax]= "LOW (10th percentile), and HIGH (90th percentile) values for each frame.\n" "The V plane (along with U) provides information about video color.", ActiveFilter_Video_signalstats, - "Custom;0;55" + "MinMaxOfThePlot" }, //YDiff { @@ -82,6 +82,7 @@ struct per_group VideoPerGroup [Group_VideoMax]= "can not be converted back to RGB without producing negatives or overflows,\n" "such values a indicative errors such as time base corrector errors or Digital Betacam damage.", ActiveFilter_Video_signalstats, + "MinMaxOfThePlot" }, //Hue { @@ -90,6 +91,7 @@ struct per_group VideoPerGroup [Group_VideoMax]= "Degrees are measured clockwise starting from 0 at the bottom side of a\n" "vectorscope. Skin tone is 147 degrees. Hue is plotted via median and average.", ActiveFilter_Video_signalstats, + "MinMaxOfThePlot" }, //TOUT { @@ -117,6 +119,7 @@ struct per_group VideoPerGroup [Group_VideoMax]= "outside the standard video broadcast range of 16-235 pixels for Y or\n" "16-240 for U and V.", ActiveFilter_Video_signalstats, + "Formula" }, //Bit depths { @@ -126,6 +129,7 @@ struct per_group VideoPerGroup [Group_VideoMax]= "8 may reveal that some processing before encoding the v210 removed\n" "the least significant two bits.", ActiveFilter_Video_signalstats, + "MinMaxOfThePlot" }, //CropW { @@ -185,6 +189,7 @@ struct per_group VideoPerGroup [Group_VideoMax]= "adjacent frames when classifying each frame. Each frame's classification is\n" "plotted with a half-life of 1.", ActiveFilter_Video_Idet, + "MinMaxOfThePlot" }, //idet.multiple { @@ -194,6 +199,7 @@ struct per_group VideoPerGroup [Group_VideoMax]= "history of previous frames. Each frame's classification is plotted with a\n" "half-life of 1.", ActiveFilter_Video_Idet, + "MinMaxOfThePlot" }, //idet.repeat { @@ -202,6 +208,7 @@ struct per_group VideoPerGroup [Group_VideoMax]= "This plot shows fields that are repeated between adjacent frames (a sign\n" "of telecine). Each frame's classification is plotted with a half-life of 1.", ActiveFilter_Video_Idet, + "MinMaxOfThePlot" }, //deflicker { @@ -210,6 +217,7 @@ struct per_group VideoPerGroup [Group_VideoMax]= "arithmetric mean of sets of 5 frames. The plotted value shows the relative\n" "change in luminance that would be used by libavfilter's deflicker filter.", ActiveFilter_Video_Deflicker, + "MinMaxOfThePlot" }, //entropy { @@ -219,6 +227,7 @@ struct per_group VideoPerGroup [Group_VideoMax]= "A color channel with only a single shade will have entropy of 0,\n" "while a channel using all shades will be 1.", ActiveFilter_Video_Entropy, + "MinMaxOfThePlot" }, //entropy-diff { @@ -231,6 +240,7 @@ struct per_group VideoPerGroup [Group_VideoMax]= "The values should correspond to chaos or discontinuity in the\n" "histogram plot.", ActiveFilter_Video_EntropyDiff, + "MinMaxOfThePlot" }, //Item_pkt_duration_time { @@ -252,12 +262,14 @@ struct per_group VideoPerGroup [Group_VideoMax]= Item_blockdetect, 1, "0", "50", 4, "Blockiness", false, "Blockiness.", ActiveFilter_Video_blockdetect, + "MinMaxOfThePlot" }, //Item_blurdetect { Item_blurdetect, 1, "0", "50", 4, "Blurriness", false, "Blurriness", ActiveFilter_Video_blurdetect, + "MinMaxOfThePlot" }, //const std::size_t Start; //Item