#!/usr/bin/env python # -*- coding: utf-8 -*- # This file is part of pygal # # A python svg graph plotting library # Copyright © 2012 Kozea # # This library is free software: you can redistribute it and/or modify it under # the terms of the GNU Lesser General Public License as published by the Free # Software Foundation, either version 3 of the License, or (at your option) any # later version. # # This library is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS # FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more # details. # # You should have received a copy of the GNU Lesser General Public License # along with pygal. If not, see . from pygal import ( Line, Bar, XY, Pie, Radar, StackedBar, Config, StackedLine, HorizontalBar, HorizontalStackedBar) from pygal.style import NeonStyle from math import cos, sin bar = Bar() rng = [-6, -19, 0, -1, 2] bar.add('test1', rng) bar.add('test2', map(abs, rng)) bar.add('inc', [None, 1, None, 2]) bar.x_labels = map(str, rng) bar.fill = True # bar.render_to_file('out-bar.svg') hbar = HorizontalBar() rng = [18, 9, 7, 3, 1, None, -5] hbar.add('test1', rng) rng2 = [16, 14, 10, 9, 7, 3, -1] hbar.add('test2', rng2) rng3 = [123, None, None, 4, None, 6] hbar.add('test3', rng3) hbar.x_labels = map( lambda x: '%s / %s' % x, zip(map(str, rng), map(str, rng2))) hbar.title = "Horizontal Bar test" # hbar.render_to_file('out-horizontalbar.svg') rng = [30, -32, 39, 12] rng2 = [24, -8, 18, 12] rng3 = [6, 1, -10, 0] config = Config() config.x_label_rotation = 35 config.x_labels = map(lambda x: '%s / %s / %s' % x, zip(map(str, rng), map(str, rng2), map(str, rng3))) config.title = "Stacked Bar test" config.style = NeonStyle stackedbar = StackedBar(config) stackedbar.add('@@@@@@@', rng) stackedbar.add('++++++', rng2) stackedbar.add('--->', rng3) stackedbar.add('None', [None, 42, 42]) # stackedbar.render_to_file('out-stackedbar.svg') config.title = "Horizontal Stacked Bar test" hstackedbar = HorizontalStackedBar(config) hstackedbar.add('@@@@@@@', rng) hstackedbar.add('++++++', rng2) hstackedbar.add('--->', rng3) hstackedbar.render_to_file('out-horizontalstackedbar1.svg') hstackedbar.render_to_file('out-horizontalstackedbar2.svg') line = Line(Config(style=NeonStyle, zero=.0001, fill=True, human_readable=not True, logarithmic=True)) rng = range(-30, 31, 1) # line.add('test1', [1000 ** cos(x / 10.) for x in rng]) # line.add('test2', [1000 ** sin(x / 10.) for x in rng]) # line.add('test3', [1000 ** (cos(x / 10.) - sin(x / 10.)) for x in rng]) # rng = range(1, 2000, 25) # line.add('x', rng) # line.add('x', rng) # line.add('10^10^x', map(lambda x: ((x / 333.) ** (x / 333.)), rng)) # line.add('None', [None, None, None, 12, 31, 11, None, None, 12, 14]) # line.add('2', [None, None, 2, 4, 8, None, 14, 10, None]) # line.add('1', [1, 5, 3, 4, 6, 12, 13, 7, 2]) # line.add('1', [.000000091, .000000094, .000092]) # line.add('_', [2 ** -3, 2.9 ** -8, 2]) # line.add('_', [.001, .0001, .00001]) # line.add('_', [1 + 10 ** 10, 3 + 10 ** 10, 2 + 10 ** 10]) line.add('_', [1, -4, 2, 8, -2]) line.x_labels = map(str, rng) line.title = "Line test" # line.interpolate = "cubic" line.interpolation_precision = 200 line.render_to_file('out-line.svg') stackedline = StackedLine(fill=True) stackedline.add('test1', [1, 3, 2, None, 2, 13, 2, 5, 8]) stackedline.add('test2', [4, 1, 1, 3, 12, 3]) stackedline.add('test3', [9, 3, 2, 10, 8, 2]) stackedline.x_labels = ['a', 'b', 'c', 'd', 'e', 'f', 'g'] stackedline.title = "Stackedline test" stackedline.interpolate = "cubic" # stackedline.render_to_file('out-stackedline.svg') xy = XY(Config(fill=True, style=NeonStyle, interpolate='cubic')) xy.add('test1', [(1981, 1), (1999, -4), (2001, 2), (2003, 10), (2012, 8)]) xy.add('test2', [(1988, -1), (1986, 12), (2007, 7), (2010, 4)]) xy.add('test2', [(None, None), (None, 12), (2007, None), (2002.3, 12)]) # xy.add('test2', [(1980, 0), (1985, 2), (1995, -2), (2005, 4), (2020, -4)]) # (2005, 6), (2010, -6), (2015, 3), (2020, -3), (2025, 0)]) xy.title = "XY test" # xy.render_to_file('out-xy.svg') pie = Pie(Config(style=NeonStyle)) pie.add('test', [11, 8, 21]) pie.add('test2', [29, None, 9]) pie.add('test3', [24, 10, 32]) pie.add('test4', [20, 18, 9]) pie.add('test5', [17, 5, 10]) pie.add('test6', [None, None, 10]) pie.title = "Pie test" # pie.render_to_file('out-pie.svg') config = Config() config.fill = True config.style = NeonStyle config.x_labels = ( 'black', 'red', 'blue', 'yellow', 'orange', 'green', 'white') config.interpolate = 'nearest' radar = Radar(config) radar.add('test', [1, 4, 1, 5, None, 2, 5]) radar.add('test2', [10, 2, 0, 5, 1, 9, 4]) radar.title = "Radar test" # radar.render_to_file('out-radar.svg')