public void write(final String outputFilename) { SimpleWriter sw = new SimpleWriter(outputFilename + ".txt"); sw.writeln("car_avail--always"); sw.writeln( "\tmale\tfemale\tage<30\t30<=age<50\t50<=age<70\tage>70\twith license\twithout license\tis employed\tnot employed"); sw.writeln( "\t" + male_al + "\t" + female_al + "\t" + ageA_al + "\t" + ageB_al + "\t" + ageC_al + "\t" + ageD_al + "\t" + withLicense_al + "\t" + withoutLicense_al + "\t" + isEmployed_al + "\t" + notEmployed_al); sw.writeln("-----------------------------"); sw.writeln("car_avail--sometimes"); sw.writeln( "\tmale\tfemale\tage<30\t30<=age<50\t50<=age<70\tage>70\twith license\twithout license\tis employed\tnot employed"); sw.writeln( "\t" + male_so + "\t" + female_so + "\t" + ageA_so + "\t" + ageB_so + "\t" + ageC_so + "\t" + ageD_so + "\t" + withLicense_so + "\t" + withoutLicense_so + "\t" + isEmployed_so + "\t" + notEmployed_so); sw.writeln("-----------------------------"); sw.writeln("car_avail--never"); sw.writeln( "\tmale\tfemale\tage<30\t30<=age<50\t50<=age<70\tage>70\twith license\twithout license\tis employed\tnot employed"); sw.writeln( "\t" + male_ne + "\t" + female_ne + "\t" + ageA_ne + "\t" + ageB_ne + "\t" + ageC_ne + "\t" + ageD_ne + "\t" + withLicense_ne + "\t" + withoutLicense_ne + "\t" + isEmployed_ne + "\t" + notEmployed_ne); sw.writeln("-----------------------------"); sw.close(); BarChart chart = new BarChart( "Car Avail", "categories", "Car Availability %", new String[] { "male", "female", "age<30", "30<=age<50", "50<=age<70", "age>70", "with license", "without license", "is employed", "not employed" }); chart.addSeries( "always", new double[] { male_al / (male_al + male_ne + male_so) * 100.0, female_al / (female_al + female_ne + female_so) * 100.0, ageA_al / (ageA_al + ageA_ne + ageA_so) * 100.0, ageB_al / (ageB_al + ageB_ne + ageB_so) * 100.0, ageC_al / (ageC_al + ageC_ne + ageC_so) * 100.0, ageD_al / (ageD_al + ageD_ne + ageD_so) * 100.0, withLicense_al / (withLicense_al + withLicense_ne + withLicense_so) * 100.0, withoutLicense_al / (withoutLicense_al + withoutLicense_ne + withoutLicense_so) * 100.0, isEmployed_al / (isEmployed_al + isEmployed_ne + isEmployed_so) * 100.0, notEmployed_al / (notEmployed_al + notEmployed_ne + notEmployed_so) * 100.0 }); chart.addSeries( "sometimes", new double[] { male_so / (male_al + male_ne + male_so) * 100.0, female_so / (female_al + female_ne + female_so) * 100.0, ageA_so / (ageA_al + ageA_ne + ageA_so) * 100.0, ageB_so / (ageB_al + ageB_ne + ageB_so) * 100.0, ageC_so / (ageC_al + ageC_ne + ageC_so) * 100.0, ageD_so / (ageD_al + ageD_ne + ageD_so) * 100.0, withLicense_so / (withLicense_al + withLicense_ne + withLicense_so) * 100.0, withoutLicense_so / (withoutLicense_al + withoutLicense_ne + withoutLicense_so) * 100.0, isEmployed_so / (isEmployed_al + isEmployed_ne + isEmployed_so) * 100.0, notEmployed_so / (notEmployed_al + notEmployed_ne + notEmployed_so) * 100.0 }); chart.addSeries( "never", new double[] { male_ne / (male_al + male_ne + male_so) * 100.0, female_ne / (female_al + female_ne + female_so) * 100.0, ageA_ne / (ageA_al + ageA_ne + ageA_so) * 100.0, ageB_ne / (ageB_al + ageB_ne + ageB_so) * 100.0, ageC_ne / (ageC_al + ageC_ne + ageC_so) * 100.0, ageD_ne / (ageD_al + ageD_ne + ageD_so) * 100.0, withLicense_ne / (withLicense_al + withLicense_ne + withLicense_so) * 100.0, withoutLicense_ne / (withoutLicense_al + withoutLicense_ne + withoutLicense_so) * 100.0, isEmployed_ne / (isEmployed_al + isEmployed_ne + isEmployed_so) * 100.0, notEmployed_ne / (notEmployed_al + notEmployed_ne + notEmployed_so) * 100.0 }); chart.addMatsimLogo(); chart.saveAsPng(outputFilename + ".png", 1200, 900); }
public void write(final String outputFilename) { double sum = carTime + ptTime + othersTime + wlkTime + bikeTime; SimpleWriter sw = new SimpleWriter(outputFilename + "dailyEnRouteTime.txt"); sw.writeln("\tDaily En Route Time\tn_agents\t" + count); sw.writeln("\tavg.[min]\t%\tsum.[min]"); double avgCarTime = carTime / count; double avgPtTime = ptTime / count; double avgWlkTime = wlkTime / count; double avgBikeTime = bikeTime / count; double avgOtherTime = othersTime / count; sw.writeln("car\t" + avgCarTime + "\t" + carTime / sum * 100.0 + "\t" + carTime); sw.writeln("pt\t" + avgPtTime + "\t" + ptTime / sum * 100.0 + "\t" + ptTime); sw.writeln("walk\t" + avgWlkTime + "\t" + wlkTime / sum * 100.0 + "\t" + wlkTime); sw.writeln("bike\t" + avgBikeTime + "\t" + bikeTime / sum * 100.0 + "\t" + bikeTime); sw.writeln("others\t" + avgOtherTime + "\t" + othersTime / sum * 100.0 + "\t" + othersTime); PieChart pieChart = new PieChart("Avg. Daily En Route Time -- Modal Split"); pieChart.addSeries( new String[] {CAR, "pt", "wlk", BIKE, OTHERS}, new double[] {avgCarTime, avgPtTime, avgWlkTime, avgBikeTime, avgOtherTime}); pieChart.saveAsPng(outputFilename + "dailyEnRouteTimeModalSplitPie.png", 800, 600); sw.writeln("--travel destination and modal split--daily on route time--"); sw.writeln("\twork\teducation\tshopping\tleisure\thome\tother..."); sw.writeln( "car\t" + carWorkTime + "\t" + carEducTime + "\t" + carShopTime + "\t" + carLeisTime + "\t" + carHomeTime + "\t" + carOtherTime); sw.writeln( "pt\t" + ptWorkTime + "\t" + ptEducTime + "\t" + ptShopTime + "\t" + ptLeisTime + "\t" + ptHomeTime + "\t" + ptOtherTime); sw.writeln( "walk\t" + wlkWorkTime + "\t" + wlkEducTime + "\t" + wlkShopTime + "\t" + wlkLeisTime + "\t" + wlkHomeTime + "\t" + wlkOtherTime); sw.writeln( "bike\t" + bikeWorkTime + "\t" + bikeEducTime + "\t" + bikeShopTime + "\t" + bikeLeisTime + "\t" + bikeHomeTime + "\t" + bikeOtherTime); sw.writeln( "others\t" + othersWorkTime + "\t" + othersEducTime + "\t" + othersShopTime + "\t" + othersLeisTime + "\t" + othersHomeTime + "\t" + othersOtherTime); sw.writeln( "total\t" + (carWorkTime + ptWorkTime + wlkWorkTime + bikeWorkTime + othersWorkTime) + "\t" + (carEducTime + ptEducTime + wlkEducTime + bikeEducTime + othersEducTime) + "\t" + (carShopTime + ptShopTime + wlkShopTime + bikeShopTime + othersShopTime) + "\t" + (carLeisTime + ptLeisTime + wlkLeisTime + bikeLeisTime + othersLeisTime) + "\t" + (carHomeTime + ptHomeTime + wlkHomeTime + bikeHomeTime + othersHomeTime) + "\t" + (carOtherTime + ptOtherTime + wlkOtherTime + bikeOtherTime + othersOtherTime)); BarChart barChart = new BarChart( "travel destination and modal split--daily En Route Time", "travel destination", "daily En Route Time [min]", new String[] {"work", "education", "shopping", "leisure", "home", OTHERS}); barChart.addSeries( CAR, new double[] { carWorkTime, carEducTime, carShopTime, carLeisTime, carHomeTime, carOtherTime }); double[] ptDestinationTime = new double[] {ptWorkTime, ptEducTime, ptShopTime, ptLeisTime, ptHomeTime, ptOtherTime}; if (CollectionMath.getSum(ptDestinationTime) > 0) barChart.addSeries("pt", ptDestinationTime); double[] wlkDestinationTime = new double[] { wlkWorkTime, wlkEducTime, wlkShopTime, wlkLeisTime, wlkHomeTime, wlkOtherTime }; if (CollectionMath.getSum(wlkDestinationTime) > 0) barChart.addSeries("walk", wlkDestinationTime); double[] bikeDestinationTime = new double[] { bikeWorkTime, bikeEducTime, bikeShopTime, bikeLeisTime, bikeHomeTime, bikeOtherTime }; if (CollectionMath.getSum(bikeDestinationTime) > 0) barChart.addSeries(BIKE, bikeDestinationTime); double[] othersDestinationTime = new double[] { othersWorkTime, othersEducTime, othersShopTime, othersLeisTime, othersHomeTime, othersOtherTime }; if (CollectionMath.getSum(othersDestinationTime) > 0) barChart.addSeries(OTHERS, othersDestinationTime); barChart.addMatsimLogo(); barChart.saveAsPng(outputFilename + "dailyEnRouteTimeTravelDistination.png", 1200, 900); double x[] = new double[101]; for (int i = 0; i < 101; i++) x[i] = i; double yTotal[] = new double[101]; double yCar[] = new double[101]; double yPt[] = new double[101]; double yWlk[] = new double[101]; double yBike[] = new double[101]; double yOthers[] = new double[101]; for (int i = 0; i < 101; i++) { yTotal[i] = totalDayEnRouteTimeCounts[i] / count * 100.0; yCar[i] = carDayEnRouteTimeCounts[i] / count * 100.0; yPt[i] = ptDayEnRouteTimeCounts[i] / count * 100.0; yWlk[i] = wlkDayEnRouteTimeCounts[i] / count * 100.0; yBike[i] = bikeDayEnRouteTimeCounts[i] / count * 100.0; yOthers[i] = othersDayEnRouteTimeCounts[i] / count * 100.0; } XYLineChart chart = new XYLineChart( "Daily En Route Time Distribution", "Daily En Route Time in min", "fraction of persons with daily en route time longer than x... in %"); chart.addSeries(CAR, x, yCar); if (CollectionMath.getSum(yPt) > 0) chart.addSeries("pt", x, yPt); if (CollectionMath.getSum(yWlk) > 0) chart.addSeries("walk", x, yWlk); if (CollectionMath.getSum(yBike) > 0) chart.addSeries(BIKE, x, yBike); if (CollectionMath.getSum(yOthers) > 0) chart.addSeries(OTHERS, x, yOthers); chart.addSeries("total", x, yTotal); chart.saveAsPng(outputFilename + "dailyEnRouteTimeDistribution.png", 800, 600); sw.writeln("\n--Modal split -- leg duration--"); sw.writeln( "leg Duration [min]\tcar legs no.\tpt legs no.\twalk legs no.\tbike legs no.\tothers legs no.\t" + "car fraction [%]\tpt fraction [%]\twalk fraction [%]\tbike fraction [%]\tothers fraction [%]"); double xs[] = new double[101]; double yCarFracs[] = new double[101]; double yPtFracs[] = new double[101]; double yWlkFracs[] = new double[101]; double yBikeFracs[] = new double[101]; double yOthersFracs[] = new double[101]; for (int i = 0; i < 101; i++) { double sumOfLegTimeCounts = carLegTimeCounts[i] + ptLegTimeCounts[i] + wlkLegTimeCounts[i] + bikeLegTimeCounts[i] + othersLegTimeCounts[i]; xs[i] = i * 2; if (sumOfLegTimeCounts > 0) { yCarFracs[i] = carLegTimeCounts[i] / sumOfLegTimeCounts * 100.0; yPtFracs[i] = ptLegTimeCounts[i] / sumOfLegTimeCounts * 100.0; yWlkFracs[i] = wlkLegTimeCounts[i] / sumOfLegTimeCounts * 100.0; yBikeFracs[i] = bikeLegTimeCounts[i] / sumOfLegTimeCounts * 100.0; yOthersFracs[i] = othersLegTimeCounts[i] / sumOfLegTimeCounts * 100.0; } else { yCarFracs[i] = 0; yPtFracs[i] = 0; yWlkFracs[i] = 0; yBikeFracs[i] = 0; yOthersFracs[i] = 0; } sw.writeln( i + "+\t" + carLegTimeCounts[i] + "\t" + ptLegTimeCounts[i] + "\t" + wlkLegTimeCounts[i] + "\t" + bikeLegTimeCounts[i] + "\t" + othersLegTimeCounts[i] + "\t" + yCarFracs[i] + "\t" + yPtFracs[i] + "\t" + yWlkFracs[i] + "\t" + yBikeFracs[i] + "\t" + yOthersFracs[i]); } XYLineChart chart2 = new XYLineChart("Modal Split -- leg Duration", "leg Duration [min]", "mode fraction [%]"); chart2.addSeries(CAR, xs, yCarFracs); if (CollectionMath.getSum(yPtFracs) > 0) chart2.addSeries("pt", xs, yPtFracs); if (CollectionMath.getSum(yWlkFracs) > 0) chart2.addSeries("walk", xs, yWlkFracs); if (CollectionMath.getSum(yBikeFracs) > 0) chart2.addSeries(BIKE, xs, yBikeFracs); if (CollectionMath.getSum(yOthersFracs) > 0) chart2.addSeries(OTHERS, xs, yOthersFracs); chart2.saveAsPng(outputFilename + "legTimeModalSplit2.png", 800, 600); sw.close(); }