# -*- coding: utf-8 -*- # This file is part of pygal # # A python svg graph plotting library # Copyright © 2012-2025 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 . """ Bar chart that presents grouped data with rectangular bars with lengths proportional to the values that they represent. """ from pygal.graph.graph import Graph from pygal.util import alter, decorate, ident, swap class Bar(Graph): """Bar graph class""" _series_margin = .06 _serie_margin = .06 def _bar(self, serie, parent, x, y, i, zero, secondary=False): """Internal bar drawing function""" width = (self.view.x(1) - self.view.x(0)) / self._len x, y = self.view((x, y)) series_margin = width * self._series_margin x += series_margin width -= 2 * series_margin width /= self._order if self.horizontal: serie_index = self._order - serie.index - 1 else: serie_index = serie.index x += serie_index * width serie_margin = width * self._serie_margin x += serie_margin width -= 2 * serie_margin height = self.view.y(zero) - y r = serie.rounded_bars * 1 if serie.rounded_bars else 0 alter( self.svg.transposable_node( parent, 'rect', x=x, y=y, rx=r, ry=r, width=width, height=height, class_='rect reactive tooltip-trigger' ), serie.metadata.get(i) ) return x, y, width, height def _tooltip_and_print_values( self, serie_node, serie, parent, i, val, metadata, x, y, width, height ): transpose = swap if self.horizontal else ident x_center, y_center = transpose((x + width / 2, y + height / 2)) x_top, y_top = transpose((x + width, y + height)) x_bottom, y_bottom = transpose((x, y)) if self._dual: v = serie.values[i][0] else: v = serie.values[i] sign = -1 if v < self.zero else 1 self._tooltip_data( parent, val, x_center, y_center, "centered", self._get_x_label(i) ) if self.print_values_position == 'top': if self.horizontal: x = x_bottom + sign * self.style.value_font_size / 2 y = y_center else: x = x_center y = y_bottom - sign * self.style.value_font_size / 2 elif self.print_values_position == 'bottom': if self.horizontal: x = x_top + sign * self.style.value_font_size / 2 y = y_center else: x = x_center y = y_top - sign * self.style.value_font_size / 2 else: x = x_center y = y_center self._static_value(serie_node, val, x, y, metadata, "middle") def bar(self, serie, rescale=False): """Draw a bar graph for a serie""" serie_node = self.svg.serie(serie) bars = self.svg.node(serie_node['plot'], class_="bars") if rescale and self.secondary_series: points = self._rescale(serie.points) else: points = serie.points for i, (x, y) in enumerate(points): if None in (x, y) or (self.logarithmic and y <= 0): continue metadata = serie.metadata.get(i) val = self._format(serie, i) bar = decorate( self.svg, self.svg.node(bars, class_='bar'), metadata ) x_, y_, width, height = self._bar( serie, bar, x, y, i, self.zero, secondary=rescale ) self._confidence_interval( serie_node['overlay'], x_ + width / 2, y_, serie.values[i], metadata ) self._tooltip_and_print_values( serie_node, serie, bar, i, val, metadata, x_, y_, width, height ) def _compute(self): """Compute y min and max and y scale and set labels""" if self._min: self._box.ymin = min(self._min, self.zero) if self._max: self._box.ymax = max(self._max, self.zero) self._x_pos = [ x / self._len for x in range(self._len + 1) ] if self._len > 1 else [0, 1] # Center if only one value self._points(self._x_pos) self._x_pos = [(i + .5) / self._len for i in range(self._len)] def _plot(self): """Draw bars for series and secondary series""" for serie in self.series: self.bar(serie) for serie in self.secondary_series: self.bar(serie, True)