Add server version to master api

Add IsEvadedOffense to EFPenalty
Fix remote log reading in not Windows

Master/env_master/Lib/site-packages/pygal/graph/radar.py

@@ -0,0 +1,209 @@
+# -*- 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 <http://www.gnu.org/licenses/>.
+
+"""
+Radar chart: As known as kiviat chart or spider chart is a polar line chart
+useful for multivariate observation.
+"""
+
+from __future__ import division
+
+from math import cos, pi
+
+from pygal._compat import is_str
+from pygal.adapters import none_to_zero, positive
+from pygal.graph.line import Line
+from pygal.util import cached_property, compute_scale, cut, deg, truncate
+from pygal.view import PolarLogView, PolarView
+
+
+class Radar(Line):
+
+    """Rada graph class"""
+
+    _adapters = [positive, none_to_zero]
+
+    def __init__(self, *args, **kwargs):
+        """Init custom vars"""
+        self._rmax = None
+        super(Radar, self).__init__(*args, **kwargs)
+
+    def _fill(self, values):
+        """Add extra values to fill the line"""
+        return values
+
+    @cached_property
+    def _values(self):
+        """Getter for series values (flattened)"""
+        if self.interpolate:
+            return [val[0] for serie in self.series
+                    for val in serie.interpolated]
+        else:
+            return super(Line, self)._values
+
+    def _set_view(self):
+        """Assign a view to current graph"""
+        if self.logarithmic:
+            view_class = PolarLogView
+        else:
+            view_class = PolarView
+
+        self.view = view_class(
+            self.width - self.margin_box.x,
+            self.height - self.margin_box.y,
+            self._box)
+
+    def _x_axis(self, draw_axes=True):
+        """Override x axis to make it polar"""
+        if not self._x_labels or not self.show_x_labels:
+            return
+
+        axis = self.svg.node(self.nodes['plot'], class_="axis x web%s" % (
+            ' always_show' if self.show_x_guides else ''
+        ))
+        format_ = lambda x: '%f %f' % x
+        center = self.view((0, 0))
+        r = self._rmax
+
+        # Can't simply determine truncation
+        truncation = self.truncate_label or 25
+
+        for label, theta in self._x_labels:
+            major = label in self._x_labels_major
+            if not (self.show_minor_x_labels or major):
+                continue
+            guides = self.svg.node(axis, class_='guides')
+            end = self.view((r, theta))
+
+            self.svg.node(
+                guides, 'path',
+                d='M%s L%s' % (format_(center), format_(end)),
+                class_='%s%sline' % (
+                    'axis ' if label == "0" else '',
+                    'major ' if major else ''))
+
+            r_txt = (1 - self._box.__class__.margin) * self._box.ymax
+            pos_text = self.view((r_txt, theta))
+            text = self.svg.node(
+                guides, 'text',
+                x=pos_text[0],
+                y=pos_text[1],
+                class_='major' if major else '')
+            text.text = truncate(label, truncation)
+            if text.text != label:
+                self.svg.node(guides, 'title').text = label
+            else:
+                self.svg.node(
+                    guides, 'title',
+                ).text = self._x_format(theta)
+
+            angle = - theta + pi / 2
+            if cos(angle) < 0:
+                angle -= pi
+            text.attrib['transform'] = 'rotate(%f %s)' % (
+                self.x_label_rotation or deg(angle), format_(pos_text))
+
+    def _y_axis(self, draw_axes=True):
+        """Override y axis to make it polar"""
+        if not self._y_labels or not self.show_y_labels:
+            return
+
+        axis = self.svg.node(self.nodes['plot'], class_="axis y web")
+
+        for label, r in reversed(self._y_labels):
+            major = r in self._y_labels_major
+            if not (self.show_minor_y_labels or major):
+                continue
+            guides = self.svg.node(axis, class_='%sguides' % (
+                'logarithmic ' if self.logarithmic else ''
+            ))
+            if self.show_y_guides:
+                self.svg.line(
+                    guides, [self.view((r, theta)) for theta in self._x_pos],
+                    close=True,
+                    class_='%sguide line' % (
+                        'major ' if major else ''))
+            x, y = self.view((r, self._x_pos[0]))
+            x -= 5
+            text = self.svg.node(
+                guides, 'text',
+                x=x,
+                y=y,
+                class_='major' if major else ''
+            )
+            text.text = label
+
+            if self.y_label_rotation:
+                text.attrib['transform'] = "rotate(%d %f %f)" % (
+                    self.y_label_rotation, x, y)
+
+            self.svg.node(
+                guides, 'title',
+            ).text = self._y_format(r)
+
+    def _compute(self):
+        """Compute r min max and labels position"""
+        delta = 2 * pi / self._len if self._len else 0
+        self._x_pos = [.5 * pi + i * delta for i in range(self._len + 1)]
+        for serie in self.all_series:
+            serie.points = [
+                (v, self._x_pos[i])
+                for i, v in enumerate(serie.values)]
+            if self.interpolate:
+                extended_x_pos = (
+                    [.5 * pi - delta] + self._x_pos)
+                extended_vals = (serie.values[-1:] +
+                                 serie.values)
+                serie.interpolated = list(
+                    map(tuple,
+                        map(reversed,
+                            self._interpolate(
+                                extended_x_pos, extended_vals))))
+
+        # x labels space
+        self._box.margin *= 2
+        self._rmin = self.zero
+        self._rmax = self._max or 1
+        self._box.set_polar_box(self._rmin, self._rmax)
+        self._self_close = True
+
+    def _compute_y_labels(self):
+        y_pos = compute_scale(
+            self._rmin, self._rmax, self.logarithmic, self.order_min,
+            self.min_scale, self.max_scale / 2
+        )
+        if self.y_labels:
+            self._y_labels = []
+            for i, y_label in enumerate(self.y_labels):
+                if isinstance(y_label, dict):
+                    pos = self._adapt(y_label.get('value'))
+                    title = y_label.get('label', self._y_format(pos))
+                elif is_str(y_label):
+                    pos = self._adapt(y_pos[i])
+                    title = y_label
+                else:
+                    pos = self._adapt(y_label)
+                    title = self._y_format(pos)
+                self._y_labels.append((title, pos))
+            self._rmin = min(self._rmin, min(cut(self._y_labels, 1)))
+            self._rmax = max(self._rmax, max(cut(self._y_labels, 1)))
+            self._box.set_polar_box(self._rmin, self._rmax)
+
+        else:
+            self._y_labels = list(zip(map(self._y_format, y_pos), y_pos))