# -*- coding: utf-8 -*- # This file is part of pygal # # A python svg graph plotting library # Copyright © 2012-2016 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 . """ Line chart: Display series of data as markers (dots) connected by straight segments """ from pygal.graph.graph import Graph from pygal.util import alter, cached_property, decorate class Line(Graph): """Line graph class""" def __init__(self, *args, **kwargs): """Set _self_close as False, it's True for Radar like Line""" self._self_close = False super(Line, self).__init__(*args, **kwargs) @cached_property def _values(self): """Getter for series values (flattened)""" return [ val[1] for serie in self.series for val in (serie.interpolated if self.interpolate else serie.points) if val[1] is not None and (not self.logarithmic or val[1] > 0) ] @cached_property def _secondary_values(self): """Getter for secondary series values (flattened)""" return [ val[1] for serie in self.secondary_series for val in (serie.interpolated if self.interpolate else serie.points) if val[1] is not None and (not self.logarithmic or val[1] > 0) ] def _fill(self, values): """Add extra values to fill the line""" zero = self.view.y(min(max(self.zero, self._box.ymin), self._box.ymax)) # Check to see if the data has been padded with "none's" # Fill doesn't work correctly otherwise end = len(values) - 1 while end > 0: x, y = values[end] if self.missing_value_fill_truncation == "either": if x is not None and y is not None: break elif self.missing_value_fill_truncation == "x": if x is not None: break elif self.missing_value_fill_truncation == "y": if y is not None: break else: raise ValueError( "Invalid value ({}) for config key " "'missing_value_fill_truncation';" " Use 'x', 'y' or 'either'".format( self.missing_value_fill_truncation ) ) end -= 1 return ([(values[0][0], zero)] + values + [(values[end][0], zero)]) def line(self, serie, rescale=False): """Draw the line serie""" serie_node = self.svg.serie(serie) if rescale and self.secondary_series: points = self._rescale(serie.points) else: points = serie.points view_values = list(map(self.view, points)) if serie.show_dots: for i, (x, y) in enumerate(view_values): if None in (x, y): continue if self.logarithmic: if points[i][1] is None or points[i][1] <= 0: continue if (serie.show_only_major_dots and self.x_labels and i < len(self.x_labels) and self.x_labels[i] not in self._x_labels_major): continue metadata = serie.metadata.get(i) classes = [] if x > self.view.width / 2: classes.append('left') if y > self.view.height / 2: classes.append('top') classes = ' '.join(classes) self._confidence_interval( serie_node['overlay'], x, y, serie.values[i], metadata ) dots = decorate( self.svg, self.svg.node(serie_node['overlay'], class_="dots"), metadata ) val = self._format(serie, i) alter( self.svg.transposable_node( dots, 'circle', cx=x, cy=y, r=serie.dots_size, class_='dot reactive tooltip-trigger' ), metadata ) self._tooltip_data( dots, val, x, y, xlabel=self._get_x_label(i) ) self._static_value( serie_node, val, x + self.style.value_font_size, y + self.style.value_font_size, metadata ) if serie.stroke: if self.interpolate: points = serie.interpolated if rescale and self.secondary_series: points = self._rescale(points) view_values = list(map(self.view, points)) if serie.fill: view_values = self._fill(view_values) if serie.allow_interruptions: # view_values are in form [(x1, y1), (x2, y2)]. We # need to split that into multiple sequences if a # None is present here sequences = [] cur_sequence = [] for x, y in view_values: if y is None and len(cur_sequence) > 0: # emit current subsequence sequences.append(cur_sequence) cur_sequence = [] elif y is None: # just discard continue else: cur_sequence.append((x, y)) # append the element if len(cur_sequence) > 0: # emit last possible sequence sequences.append(cur_sequence) else: # plain vanilla rendering sequences = [view_values] if self.logarithmic: for seq in sequences: for ele in seq[::-1]: y = points[seq.index(ele)][1] if y is None or y <= 0: del seq[seq.index(ele)] for seq in sequences: self.svg.line( serie_node['plot'], seq, close=self._self_close, class_='line reactive' + (' nofill' if not serie.fill else '') ) def _compute(self): """Compute y min and max and y scale and set labels""" # X Labels if self.horizontal: self._x_pos = [ x / (self._len - 1) for x in range(self._len) ][::-1] if self._len != 1 else [.5] # Center if only one value else: self._x_pos = [ x / (self._len - 1) for x in range(self._len) ] if self._len != 1 else [.5] # Center if only one value self._points(self._x_pos) if self.include_x_axis: # Y Label self._box.ymin = min(self._min or 0, 0) self._box.ymax = max(self._max or 0, 0) else: self._box.ymin = self._min self._box.ymax = self._max def _plot(self): """Plot the serie lines and secondary serie lines""" for serie in self.series: self.line(serie) for serie in self.secondary_series: self.line(serie, True)