private static void demo2(PLStream pl) { pl.bop(); pl.ssub(10, 10); fillColor(pl, out int[] r, out int[] g, out int[] b); pl.scmap0(r, g, b); draw_gridmap(pl, 100, 16); pl.eop(); }
public static void CreateCovidChart(CovidParser.Country[] countries, CovidChartTypes type, int startDay = 0, int endDay = 2147483647) { if (startDay < 0) { Debug.LogWarning("Start day is lower than 0, fixing"); startDay = 0; } int xMin = startDay; int xMax = countries[0].data.Count; int yMin = 0; CovidParser.Country.Data c = FindMax(countries, type, startDay, endDay); long yMax = 0; string title = "COVID-19 in "; for (int i = 0; i < countries.Length; i++) { title += countries[i].name + " "; } switch (type) { case CovidChartTypes.deaths: yMax = c.deaths; title += " deaths"; break; case CovidChartTypes.confirmed: yMax = c.confirmed; title += " confirmed"; break; case CovidChartTypes.recovered: yMax = c.recovered; title += " recovered"; break; case CovidChartTypes.all: yMax = c.confirmed; break; default: break; } List <double>[] values = null; //new List<double>(); List <double> keys = new List <double>(); for (int j = 0; j < countries.Length; j++) { for (int i = startDay; i < countries[j].data.Count && i < endDay; i++) { if (j == 0) { keys.Add(i); } switch (type) { case CovidChartTypes.deaths: if (values == null || values[j] == null) { values = new List <double> [countries.Length]; values[j] = new List <double>(); } values[j].Add(countries[j].data[i].deaths); break; case CovidChartTypes.confirmed: if (values == null || values[j] == null) { values = new List <double> [countries.Length]; values[j] = new List <double>(); } values[j].Add(countries[j].data[i].confirmed); break; case CovidChartTypes.recovered: if (values == null || values[j] == null) { values = new List <double> [countries.Length]; values[j] = new List <double>(); } values[j].Add(countries[j].data[i].recovered); break; case CovidChartTypes.all: //Debug.LogError("All is not supported yet"); if (values == null) { values = new List <double> [countries.Length * 3]; } if (values[j * 3] == null) { values[j * 3] = new List <double>(); values[j * 3 + 1] = new List <double>(); values[j * 3 + 2] = new List <double>(); } values[j * 3].Add(countries[j].data[i].confirmed); values[j * 3 + 1].Add(countries[j].data[i].deaths); values[j * 3 + 2].Add(countries[j].data[i].recovered); break; default: break; } } } var pl = new PLStream(); pl.sdev("pngcairo"); pl.sfnam("covid.png"); pl.init(); pl.col0(15); // Set to use 10000 instead of 1 * 10^5 pl.syax(10, 10); if (endDay < xMax) { xMax = endDay - 1; } pl.env(xMin, xMax, yMin, yMax, AxesScale.Independent, AxisBox.BoxTicksLabels); //pl.setcontlabelformat(10, 10); pl.col0(15); pl.lab("Days", "Cases", title); Pattern[] lg_patterns = new Pattern[values.Length]; double[] lg_scales = new double[values.Length]; string[] lg_texts = new string[values.Length]; int[] lg_lcolors = new int[values.Length]; double[] lg_lwidths = new double[values.Length]; int[] lg_scolors = new int[values.Length]; int[] lg_snumbers = new int[values.Length]; string[] lg_symbols = new string[values.Length]; LineStyle[] lg_lstyles = new LineStyle[values.Length]; LegendEntry[] lg_entries = new LegendEntry[values.Length]; double lg_spacing = 2.8 / (countries.Length + 0.5); double lg_tscale = 1.4 / (countries.Length + 0.5); double lg_toffset = 0.5; switch (type) { case CovidChartTypes.deaths: pl.scmap0(new int[] { 255, 255 }, new int[] { 255, 0 }, new int[] { 0, 0 }); break; case CovidChartTypes.confirmed: break; case CovidChartTypes.recovered: break; case CovidChartTypes.all: pl.scmap0(new int[] { 255, 255, 0, 204, 128, 0 }, new int[] { 255, 0, 255, 153, 0, 128 }, new int[] { 0, 0, 0, 0, 0, 0 }); break; default: break; } for (int i = 0; i < values.Length; i++) { pl.col0(i); pl.line(keys.ToArray(), values[i].ToArray()); lg_entries[i] = LegendEntry.Line; lg_lstyles[i] = LineStyle.Continuous; lg_lcolors[i] = i; lg_scolors[i] = i; lg_snumbers[i] = i; lg_lwidths[i] = 2; lg_texts[i] = countries[i / 3].name; if (i % 3 == 0) { lg_texts[i] += " confirmed"; } else if (i % 3 == 1) { lg_texts[i] += " deaths"; } else { lg_texts[i] += " recovered"; } lg_scales[i] = 1; } pl.legend(out double width, out double height, Legend.BoundingBox, Position.Left | Position.Top, 0, 0, 0.1, 0, 1, LineStyle.Continuous, 0, 0, lg_entries, lg_toffset, lg_tscale, lg_spacing, 1.0, lg_lcolors, lg_texts, lg_lcolors, lg_patterns, lg_scales, lg_lwidths, lg_lcolors, lg_lstyles, lg_lwidths, lg_scolors, lg_scales, lg_snumbers, lg_symbols); pl.eop(); pl.ResetOpts(); IDisposable disp = (IDisposable)pl; disp.Dispose(); //pl.gver(out var varText); //Debug.Log("Plplot version: " + varText); }