# Canvas2D example. Charts using polar coordinates. from java.awt import Color from java.awt import Font from java.util import Random from math import * from jhplot import HChart,P1D c1 = HChart("Canvas",600,500, 2, 1) c1.setGTitle("Polar coordinates") c1.visible() c1.cd(1,1) c1.setName("Polar coordinates-I") c1.setChartPolar() p1= P1D("test 1") p2= P1D("test 2") # fill rand = Random() for i in range(20): x=4.0*i # x-value p1.add(i*4, 10.0*rand.nextGaussian()); p2.add(i*2, 5.0*rand.nextGaussian()); c1.add(p1) c1.add(p2) c1.update() c1.cd(2,1) p3= P1D("Example") for i in range(0,3*360,5): p3.add( 90-i,i)
# 2D Plots | C | 1.7 | S.Chekanov | Charts based on the HChart from java.awt import Color from java.awt import Font from java.util import Random from math import * from jhplot import HChart, P1D from java.lang import * # test print streams using java System.out.println("OK message") System.err.println("Error message") c1 = HChart("Canvas", 600, 600, 1, 2) c1.setGTitle("Chart examples") c1.cd(1, 1) c1.visible() c1.cd(1, 1) c1.setChartPie() c1.setName("Pie example") c1.valuePie("Hamburg", 1.0) c1.valuePie("London", 2.0) c1.valuePie("Paris", 1.0) c1.valuePie("Bern", 1.0) c1.update() # new plot c1.cd(1, 2)
# Canvas2D example. Charts based on the HChart class. Example I from java.awt import Color from java.awt import Font from java.util import Random from math import * from jhplot import HChart, P1D c1 = HChart("Canvas", 600, 600, 2, 1) c1.setGTitle("Chart examples") c1.visible() c1.cd(1, 1) c1.setChartBar3D() # c1.setNameX("") # c1.setNameY("Numbers") # c1.setName("Bar example") c1.valueBar3D(1.0, "First", "category1") c1.valueBar3D(4.0, "Second", "category2") c1.valueBar3D(3.0, "Third", "category3") c1.update() c1.cd(2, 1) # c1.setNameX("") # c1.setNameY("Numbers") # c1.setName("Bar example") c1.setChartBar() c1.valueBar(1.0, "First", "category1") c1.valueBar(4.0, "Second", "category2") c1.valueBar(3.0, "Third", "category3") c1.update()
# Canvas2D example. Charts based on the HChart class. Example I from java.awt import Color from java.awt import Font from java.util import Random from math import * from jhplot import HChart,P1D c1 = HChart("Canvas",600,600, 2, 1) c1.setGTitle("Chart examples") c1.visible() c1.cd(1,1) c1.setChartBar3D() # c1.setNameX("") # c1.setNameY("Numbers") # c1.setName("Bar example") c1.valueBar3D(1.0, "First", "category1"); c1.valueBar3D(4.0, "Second", "category2"); c1.valueBar3D(3.0, "Third", "category3"); c1.update() c1.cd(2,1) # c1.setNameX("") # c1.setNameY("Numbers") # c1.setName("Bar example") c1.setChartBar() c1.valueBar(1.0, "First", "category1"); c1.valueBar(4.0, "Second", "category2"); c1.valueBar(3.0, "Third", "category3");
# Canvas2D example. Charts using polar coordinates. from java.awt import Color from java.awt import Font from java.util import Random from math import * from jhplot import HChart, P1D c1 = HChart("Canvas", 600, 500, 2, 1) c1.setGTitle("Polar coordinates") c1.visible() c1.cd(1, 1) c1.setName("Polar coordinates-I") c1.setChartPolar() p1 = P1D("test 1") p2 = P1D("test 2") # fill rand = Random() for i in range(20): x = 4.0 * i # x-value p1.add(i * 4, 10.0 * rand.nextGaussian()) p2.add(i * 2, 5.0 * rand.nextGaussian()) c1.add(p1) c1.add(p2) c1.update() c1.cd(2, 1) p3 = P1D("Example") for i in range(0, 3 * 360, 5): p3.add(90 - i, i)