/+junk/pygooglechart-py3k : revision 6

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"""

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pygooglechart - A complete Python wrapper for the Google Chart API

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http://pygooglechart.slowchop.com/

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This program is free software: you can redistribute it and/or modify

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it under the terms of the GNU General Public License as published by

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the Free Software Foundation, either version 3 of the License, or

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(at your option) any later version.

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This program is distributed in the hope that it will be useful,

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but WITHOUT ANY WARRANTY; without even the implied warranty of

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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the

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GNU General Public License for more details.

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You should have received a copy of the GNU General Public License

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along with this program. If not, see <http://www.gnu.org/licenses/>.

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"""

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from __future__ import division

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import os

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import urllib

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import urllib2

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import math

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import random

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import re

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import warnings

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import copy

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# Helper variables and functions

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# -----------------------------------------------------------------------------

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__version__ = '0.2.2'

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__author__ = 'Gerald Kaszuba'

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reo_colour = re.compile('^([A-Fa-f0-9]{2,2}){3,4}$')

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def _check_colour(colour):

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if not reo_colour.match(colour):

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raise InvalidParametersException('Colours need to be in ' \

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'RRGGBB or RRGGBBAA format. One of your colours has %s' % \

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colour)

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def _reset_warnings():

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"""Helper function to reset all warnings. Used by the unit tests."""

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globals()['__warningregistry__'] = None

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# Exception Classes

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# -----------------------------------------------------------------------------

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class PyGoogleChartException(Exception):

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pass

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class DataOutOfRangeException(PyGoogleChartException):

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pass

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class UnknownDataTypeException(PyGoogleChartException):

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pass

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class NoDataGivenException(PyGoogleChartException):

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pass

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class InvalidParametersException(PyGoogleChartException):

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pass

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class BadContentTypeException(PyGoogleChartException):

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pass

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class AbstractClassException(PyGoogleChartException):

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pass

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class UnknownChartType(PyGoogleChartException):

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pass

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class UnknownCountryCodeException(PyGoogleChartException):

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pass

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# Data Classes

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# -----------------------------------------------------------------------------

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class Data(object):

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def __init__(self, data):

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if type(self) == Data:

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raise AbstractClassException('This is an abstract class')

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self.data = data

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@classmethod

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def float_scale_value(cls, value, range):

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lower, upper = range

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assert(upper > lower)

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scaled = (value - lower) * (cls.max_value / (upper - lower))

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return scaled

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@classmethod

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def clip_value(cls, value):

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return max(0, min(value, cls.max_value))

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@classmethod

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def int_scale_value(cls, value, range):

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return int(round(cls.float_scale_value(value, range)))

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@classmethod

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def scale_value(cls, value, range):

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scaled = cls.int_scale_value(value, range)

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clipped = cls.clip_value(scaled)

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Data.check_clip(scaled, clipped)

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return clipped

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@staticmethod

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def check_clip(scaled, clipped):

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if clipped != scaled:

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warnings.warn('One or more of of your data points has been '

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'clipped because it is out of range.')

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class SimpleData(Data):

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max_value = 61

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enc_map = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789'

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def __repr__(self):

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encoded_data = []

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for data in self.data:

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sub_data = []

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for value in data:

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if value is None:

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sub_data.append('_')

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elif value >= 0 and value <= self.max_value:

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sub_data.append(SimpleData.enc_map[value])

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else:

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raise DataOutOfRangeException('cannot encode value: %d'

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% value)

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encoded_data.append(''.join(sub_data))

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return 'chd=s:' + ','.join(encoded_data)

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class TextData(Data):

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max_value = 100

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def __repr__(self):

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encoded_data = []

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for data in self.data:

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sub_data = []

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for value in data:

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if value is None:

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sub_data.append(-1)

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elif value >= 0 and value <= self.max_value:

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sub_data.append("%.1f" % float(value))

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else:

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raise DataOutOfRangeException()

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encoded_data.append(','.join(sub_data))

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return 'chd=t:' + '%7c'.join(encoded_data)

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@classmethod

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def scale_value(cls, value, range):

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# use float values instead of integers because we don't need an encode

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# map index

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scaled = cls.float_scale_value(value, range)

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clipped = cls.clip_value(scaled)

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Data.check_clip(scaled, clipped)

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return clipped

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class ExtendedData(Data):

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max_value = 4095

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enc_map = \

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'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-.'

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def __repr__(self):

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encoded_data = []

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enc_size = len(ExtendedData.enc_map)

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for data in self.data:

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sub_data = []

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for value in data:

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if value is None:

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sub_data.append('__')

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elif value >= 0 and value <= self.max_value:

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first, second = divmod(int(value), enc_size)

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sub_data.append('%s%s' % (

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ExtendedData.enc_map[first],

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ExtendedData.enc_map[second]))

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else:

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raise DataOutOfRangeException( \

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'Item #%i "%s" is out of range' % (data.index(value), \

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value))

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encoded_data.append(''.join(sub_data))

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return 'chd=e:' + ','.join(encoded_data)

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# Axis Classes

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# -----------------------------------------------------------------------------

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class Axis(object):

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BOTTOM = 'x'

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TOP = 't'

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LEFT = 'y'

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RIGHT = 'r'

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TYPES = (BOTTOM, TOP, LEFT, RIGHT)

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def __init__(self, axis_index, axis_type, **kw):

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assert(axis_type in Axis.TYPES)

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self.has_style = False

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self.axis_index = axis_index

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self.axis_type = axis_type

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self.positions = None

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def set_index(self, axis_index):

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self.axis_index = axis_index

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def set_positions(self, positions):

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self.positions = positions

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def set_style(self, colour, font_size=None, alignment=None):

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_check_colour(colour)

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self.colour = colour

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self.font_size = font_size

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self.alignment = alignment

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self.has_style = True

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def style_to_url(self):

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bits = []

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bits.append(str(self.axis_index))

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bits.append(self.colour)

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if self.font_size is not None:

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bits.append(str(self.font_size))

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if self.alignment is not None:

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bits.append(str(self.alignment))

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return ','.join(bits)

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def positions_to_url(self):

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bits = []

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bits.append(str(self.axis_index))

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bits += [str(a) for a in self.positions]

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return ','.join(bits)

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class LabelAxis(Axis):

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def __init__(self, axis_index, axis_type, values, **kwargs):

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Axis.__init__(self, axis_index, axis_type, **kwargs)

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self.values = [str(a) for a in values]

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def __repr__(self):

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return '%i:%%7c%s' % (self.axis_index, '%7c'.join(self.values))

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class RangeAxis(Axis):

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def __init__(self, axis_index, axis_type, low, high, **kwargs):

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Axis.__init__(self, axis_index, axis_type, **kwargs)

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self.low = low

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self.high = high

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def __repr__(self):

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return '%i,%s,%s' % (self.axis_index, self.low, self.high)

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# Chart Classes

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# -----------------------------------------------------------------------------

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class Chart(object):

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"""Abstract class for all chart types.

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width are height specify the dimensions of the image. title sets the title

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of the chart. legend requires a list that corresponds to datasets.

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"""

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BASE_URL = 'http://chart.apis.google.com/chart?'

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BACKGROUND = 'bg'

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CHART = 'c'

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ALPHA = 'a'

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VALID_SOLID_FILL_TYPES = (BACKGROUND, CHART, ALPHA)

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SOLID = 's'

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LINEAR_GRADIENT = 'lg'

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LINEAR_STRIPES = 'ls'

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def __init__(self, width, height, title=None, legend=None, colours=None,

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auto_scale=True, x_range=None, y_range=None,

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colours_within_series=None):

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if type(self) == Chart:

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raise AbstractClassException('This is an abstract class')

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assert(isinstance(width, int))

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assert(isinstance(height, int))

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self.width = width

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self.height = height

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self.data = []

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self.set_title(title)

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self.set_title_style(None, None)

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self.set_legend(legend)

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self.set_legend_position(None)

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self.set_colours(colours)

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self.set_colours_within_series(colours_within_series)

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# Data for scaling.

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self.auto_scale = auto_scale # Whether to automatically scale data

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self.x_range = x_range # (min, max) x-axis range for scaling

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self.y_range = y_range # (min, max) y-axis range for scaling

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self.scaled_data_class = None

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self.scaled_x_range = None

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self.scaled_y_range = None

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self.fill_types = {

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Chart.BACKGROUND: None,

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Chart.CHART: None,

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Chart.ALPHA: None,

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}

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self.fill_area = {

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Chart.BACKGROUND: None,

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Chart.CHART: None,

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Chart.ALPHA: None,

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}

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self.axis = []

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self.markers = []

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self.line_styles = {}

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self.grid = None

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# URL generation

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# -------------------------------------------------------------------------

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def get_url(self, data_class=None):

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url_bits = self.get_url_bits(data_class=data_class)

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return self.BASE_URL + '&'.join(url_bits)

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def get_url_bits(self, data_class=None):

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url_bits = []

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# required arguments

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url_bits.append(self.type_to_url())

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url_bits.append('chs=%ix%i' % (self.width, self.height))

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url_bits.append(self.data_to_url(data_class=data_class))

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# optional arguments

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if self.title:

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url_bits.append('chtt=%s' % self.title)

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if self.title_colour and self.title_font_size:

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url_bits.append('chts=%s,%s' % (self.title_colour, \

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self.title_font_size))

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if self.legend:

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url_bits.append('chdl=%s' % '%7c'.join(self.legend))

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if self.legend_position:

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url_bits.append('chdlp=%s' % (self.legend_position))

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if self.colours:

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url_bits.append('chco=%s' % ','.join(self.colours))

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if self.colours_within_series:

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url_bits.append('chco=%s' % '%7c'.join(self.colours_within_series))

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ret = self.fill_to_url()

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if ret:

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url_bits.append(ret)

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ret = self.axis_to_url()

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if ret:

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url_bits.append(ret)

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if self.markers:

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url_bits.append(self.markers_to_url())

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if self.line_styles:

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style = []

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for index in xrange(max(self.line_styles) + 1):

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if index in self.line_styles:

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values = self.line_styles[index]

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else:

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values = ('1', )

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style.append(','.join(values))

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url_bits.append('chls=%s' % '%7c'.join(style))

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if self.grid:

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url_bits.append('chg=%s' % self.grid)

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return url_bits

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# Downloading

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# -------------------------------------------------------------------------

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def download(self, file_name):

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opener = urllib2.urlopen(self.get_url())

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if opener.headers['content-type'] != 'image/png':

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raise BadContentTypeException('Server responded with a ' \

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'content-type of %s' % opener.headers['content-type'])

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open(file_name, 'wb').write(opener.read())

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# Simple settings

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# -------------------------------------------------------------------------

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def set_title(self, title):

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if title:

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self.title = urllib.quote(title)

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else:

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self.title = None

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def set_title_style(self, colour, font_size):

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if not colour is None:

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_check_colour(colour)

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self.title_colour = colour

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self.title_font_size = font_size

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def set_legend(self, legend):

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"""legend needs to be a list, tuple or None"""

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assert(isinstance(legend, list) or isinstance(legend, tuple) or

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legend is None)

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if legend:

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self.legend = [urllib.quote(a) for a in legend]

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else:

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self.legend = None

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def set_legend_position(self, legend_position):

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if legend_position:

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self.legend_position = urllib.quote(legend_position)

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else:

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self.legend_position = None

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# Chart colours

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# -------------------------------------------------------------------------

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def set_colours(self, colours):

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# colours needs to be a list, tuple or None

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assert(isinstance(colours, list) or isinstance(colours, tuple) or

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colours is None)

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# make sure the colours are in the right format

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if colours:

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for col in colours:

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_check_colour(col)

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self.colours = colours

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def set_colours_within_series(self, colours):

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# colours needs to be a list, tuple or None

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assert(isinstance(colours, list) or isinstance(colours, tuple) or

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colours is None)

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# make sure the colours are in the right format

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if colours:

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for col in colours:

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_check_colour(col)

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self.colours_within_series = colours

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# Background/Chart colours

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# -------------------------------------------------------------------------

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def fill_solid(self, area, colour):

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assert(area in Chart.VALID_SOLID_FILL_TYPES)

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_check_colour(colour)

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self.fill_area[area] = colour

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self.fill_types[area] = Chart.SOLID

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def _check_fill_linear(self, angle, *args):

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assert(isinstance(args, list) or isinstance(args, tuple))

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assert(angle >= 0 and angle <= 90)

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assert(len(args) % 2 == 0)

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args = list(args) # args is probably a tuple and we need to mutate

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for a in xrange(int(len(args) / 2)):

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col = args[a * 2]

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offset = args[a * 2 + 1]

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_check_colour(col)

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assert(offset >= 0 and offset <= 1)

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args[a * 2 + 1] = str(args[a * 2 + 1])

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return args

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def fill_linear_gradient(self, area, angle, *args):

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assert(area in Chart.VALID_SOLID_FILL_TYPES)

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args = self._check_fill_linear(angle, *args)

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self.fill_types[area] = Chart.LINEAR_GRADIENT

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self.fill_area[area] = ','.join([str(angle)] + args)

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def fill_linear_stripes(self, area, angle, *args):

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assert(area in Chart.VALID_SOLID_FILL_TYPES)

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args = self._check_fill_linear(angle, *args)

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self.fill_types[area] = Chart.LINEAR_STRIPES

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self.fill_area[area] = ','.join([str(angle)] + args)

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def fill_to_url(self):

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areas = []

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for area in (Chart.BACKGROUND, Chart.CHART, Chart.ALPHA):

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if self.fill_types[area]:

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areas.append('%s,%s,%s' % (area, self.fill_types[area], \

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self.fill_area[area]))

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if areas:

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return 'chf=' + '%7c'.join(areas)

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# Data

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# -------------------------------------------------------------------------

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def data_class_detection(self, data):

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"""Determines the appropriate data encoding type to give satisfactory

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resolution (http://code.google.com/apis/chart/#chart_data).

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"""

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assert(isinstance(data, list) or isinstance(data, tuple))

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if not isinstance(self, (LineChart, BarChart, ScatterChart)):

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# From the link above:

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# Simple encoding is suitable for all other types of chart

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# regardless of size.

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return SimpleData

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elif self.height < 100:

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# The link above indicates that line and bar charts less

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# than 300px in size can be suitably represented with the

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# simple encoding. I've found that this isn't sufficient,

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# e.g. examples/line-xy-circle.png. Let's try 100px.

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return SimpleData

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else:

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return ExtendedData

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def _filter_none(self, data):

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return [r for r in data if r is not None]

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def data_x_range(self):

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"""Return a 2-tuple giving the minimum and maximum x-axis

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data range.

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"""

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try:

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lower = min([min(self._filter_none(s))

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for type, s in self.annotated_data()

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if type == 'x'])

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upper = max([max(self._filter_none(s))

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for type, s in self.annotated_data()

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if type == 'x'])

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return (lower, upper)

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except ValueError:

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return None # no x-axis datasets

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def data_y_range(self):

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"""Return a 2-tuple giving the minimum and maximum y-axis

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data range.

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"""

536

try:

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lower = min([min(self._filter_none(s))

538

for type, s in self.annotated_data()

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if type == 'y'])

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upper = max([max(self._filter_none(s)) + 1

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for type, s in self.annotated_data()

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if type == 'y'])

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return (lower, upper)

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except ValueError:

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return None # no y-axis datasets

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def scaled_data(self, data_class, x_range=None, y_range=None):

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"""Scale `self.data` as appropriate for the given data encoding

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(data_class) and return it.

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An optional `y_range` -- a 2-tuple (lower, upper) -- can be

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given to specify the y-axis bounds. If not given, the range is

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inferred from the data: (0, <max-value>) presuming no negative

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values, or (<min-value>, <max-value>) if there are negative

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values. `self.scaled_y_range` is set to the actual lower and

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upper scaling range.

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Ditto for `x_range`. Note that some chart types don't have x-axis

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data.

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"""

561

self.scaled_data_class = data_class

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# Determine the x-axis range for scaling.

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if x_range is None:

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x_range = self.data_x_range()

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if x_range and x_range[0] > 0:

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x_range = (x_range[0], x_range[1])

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self.scaled_x_range = x_range

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# Determine the y-axis range for scaling.

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if y_range is None:

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y_range = self.data_y_range()

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if y_range and y_range[0] > 0:

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y_range = (y_range[0], y_range[1])

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self.scaled_y_range = y_range

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scaled_data = []

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for type, dataset in self.annotated_data():

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if type == 'x':

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scale_range = x_range

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elif type == 'y':

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scale_range = y_range

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elif type == 'marker-size':

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scale_range = (0, max(dataset))

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scaled_dataset = []

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for v in dataset:

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if v is None:

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scaled_dataset.append(None)

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else:

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scaled_dataset.append(

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data_class.scale_value(v, scale_range))

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scaled_data.append(scaled_dataset)

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return scaled_data

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def add_data(self, data):

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self.data.append(data)

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return len(self.data) - 1 # return the "index" of the data set

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def data_to_url(self, data_class=None):

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if not data_class:

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data_class = self.data_class_detection(self.data)

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if not issubclass(data_class, Data):

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raise UnknownDataTypeException()

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if self.auto_scale:

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data = self.scaled_data(data_class, self.x_range, self.y_range)

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else:

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data = self.data

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return repr(data_class(data))

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def annotated_data(self):

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for dataset in self.data:

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yield ('x', dataset)

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# Axis Labels

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# -------------------------------------------------------------------------

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def set_axis_labels(self, axis_type, values):

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assert(axis_type in Axis.TYPES)

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values = [urllib.quote(str(a)) for a in values]

620

axis_index = len(self.axis)

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axis = LabelAxis(axis_index, axis_type, values)

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self.axis.append(axis)

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return axis_index

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def set_axis_range(self, axis_type, low, high):

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assert(axis_type in Axis.TYPES)

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axis_index = len(self.axis)

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axis = RangeAxis(axis_index, axis_type, low, high)

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self.axis.append(axis)

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return axis_index

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def set_axis_positions(self, axis_index, positions):

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try:

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self.axis[axis_index].set_positions(positions)

635

except IndexError:

636

raise InvalidParametersException('Axis index %i has not been ' \

637

'created' % axis)

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def set_axis_style(self, axis_index, colour, font_size=None, \

640

alignment=None):

641

try:

642

self.axis[axis_index].set_style(colour, font_size, alignment)

643

except IndexError:

644

raise InvalidParametersException('Axis index %i has not been ' \

645

'created' % axis)

646

647

def axis_to_url(self):

648

available_axis = []

649

label_axis = []

650

range_axis = []

651

positions = []

652

styles = []

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index = -1

654

for axis in self.axis:

655

available_axis.append(axis.axis_type)

656

if isinstance(axis, RangeAxis):

657

range_axis.append(repr(axis))

658

if isinstance(axis, LabelAxis):

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label_axis.append(repr(axis))

660

if axis.positions:

661

positions.append(axis.positions_to_url())

662

if axis.has_style:

663

styles.append(axis.style_to_url())

664

if not available_axis:

665

return

666

url_bits = []

667

url_bits.append('chxt=%s' % ','.join(available_axis))

668

if label_axis:

669

url_bits.append('chxl=%s' % '%7c'.join(label_axis))

670

if range_axis:

671

url_bits.append('chxr=%s' % '%7c'.join(range_axis))

672

if positions:

673

url_bits.append('chxp=%s' % '%7c'.join(positions))

674

if styles:

675

url_bits.append('chxs=%s' % '%7c'.join(styles))

676

return '&'.join(url_bits)

677

678

# Markers, Ranges and Fill area (chm)

679

# -------------------------------------------------------------------------

680

681

def markers_to_url(self):

682

return 'chm=%s' % '%7c'.join([','.join(a) for a in self.markers])

683

684

def add_marker(self, index, point, marker_type, colour, size, priority=0):

685

self.markers.append((marker_type, colour, str(index), str(point), \

686

str(size), str(priority)))

687

688

def add_horizontal_range(self, colour, start, stop):

689

self.markers.append(('r', colour, '0', str(start), str(stop)))

690

691

def add_data_line(self, colour, data_set, size, priority=0):

692

self.markers.append(('D', colour, str(data_set), '0', str(size), \

693

str(priority)))

694

695

def add_marker_text(self, string, colour, data_set, data_point, size, \

696

priority=0):

697

self.markers.append((str(string), colour, str(data_set), \

698

str(data_point), str(size), str(priority)))

699

700

def add_vertical_range(self, colour, start, stop):

701

self.markers.append(('R', colour, '0', str(start), str(stop)))

702

703

def add_fill_range(self, colour, index_start, index_end):

704

self.markers.append(('b', colour, str(index_start), str(index_end), \

705

'1'))

706

707

def add_fill_simple(self, colour):

708

self.markers.append(('B', colour, '1', '1', '1'))

709

710

# Line styles

711

# -------------------------------------------------------------------------

712

713

def set_line_style(self, index, thickness=1, line_segment=None, \

714

blank_segment=None):

715

value = []

716

value.append(str(thickness))

717

if line_segment:

718

value.append(str(line_segment))

719

value.append(str(blank_segment))

720

self.line_styles[index] = value

721

722

# Grid

723

# -------------------------------------------------------------------------

724

725

def set_grid(self, x_step, y_step, line_segment=1, \

726

blank_segment=0):

727

self.grid = '%s,%s,%s,%s' % (x_step, y_step, line_segment, \

728

blank_segment)

729

730

731

class ScatterChart(Chart):

732

733

def type_to_url(self):

734

return 'cht=s'

735

736

def annotated_data(self):

737

yield ('x', self.data[0])

738

yield ('y', self.data[1])

739

if len(self.data) > 2:

740

# The optional third dataset is relative sizing for point

741

# markers.

742

yield ('marker-size', self.data[2])

743

744

745

class LineChart(Chart):

746

747

def __init__(self, *args, **kwargs):

748

if type(self) == LineChart:

749

raise AbstractClassException('This is an abstract class')

750

Chart.__init__(self, *args, **kwargs)

751

752

753

class SimpleLineChart(LineChart):

754

755

def type_to_url(self):

756

return 'cht=lc'

757

758

def annotated_data(self):

759

# All datasets are y-axis data.

760

for dataset in self.data:

761

yield ('y', dataset)

762

763

764

class SparkLineChart(SimpleLineChart):

765

766

def type_to_url(self):

767

return 'cht=ls'

768

769

770

class XYLineChart(LineChart):

771

772

def type_to_url(self):

773

return 'cht=lxy'

774

775

def annotated_data(self):

776

# Datasets alternate between x-axis, y-axis.

777

for i, dataset in enumerate(self.data):

778

if i % 2 == 0:

779

yield ('x', dataset)

780

else:

781

yield ('y', dataset)

782

783

784

class BarChart(Chart):

785

786

def __init__(self, *args, **kwargs):

787

if type(self) == BarChart:

788

raise AbstractClassException('This is an abstract class')

789

Chart.__init__(self, *args, **kwargs)

790

self.bar_width = None

791

self.zero_lines = {}

792

793

def set_bar_width(self, bar_width):

794

self.bar_width = bar_width

795

796

def set_zero_line(self, index, zero_line):

797

self.zero_lines[index] = zero_line

798

799

def get_url_bits(self, data_class=None, skip_chbh=False):

800

url_bits = Chart.get_url_bits(self, data_class=data_class)

801

if not skip_chbh and self.bar_width is not None:

802

url_bits.append('chbh=%i' % self.bar_width)

803

zero_line = []

804

if self.zero_lines:

805

for index in xrange(max(self.zero_lines) + 1):

806

if index in self.zero_lines:

807

zero_line.append(str(self.zero_lines[index]))

808

else:

809

zero_line.append('0')

810

url_bits.append('chp=%s' % ','.join(zero_line))

811

return url_bits

812

813

814

class StackedHorizontalBarChart(BarChart):

815

816

def type_to_url(self):

817

return 'cht=bhs'

818

819

820

class StackedVerticalBarChart(BarChart):

821

822

def type_to_url(self):

823

return 'cht=bvs'

824

825

def annotated_data(self):

826

for dataset in self.data:

827

yield ('y', dataset)

828

829

830

class GroupedBarChart(BarChart):

831

832

def __init__(self, *args, **kwargs):

833

if type(self) == GroupedBarChart:

834

raise AbstractClassException('This is an abstract class')

835

BarChart.__init__(self, *args, **kwargs)

836

self.bar_spacing = None

837

self.group_spacing = None

838

839

def set_bar_spacing(self, spacing):

840

"""Set spacing between bars in a group."""

841

self.bar_spacing = spacing

842

843

def set_group_spacing(self, spacing):

844

"""Set spacing between groups of bars."""

845

self.group_spacing = spacing

846

847

def get_url_bits(self, data_class=None):

848

# Skip 'BarChart.get_url_bits' and call Chart directly so the parent

849

# doesn't add "chbh" before we do.

850

url_bits = BarChart.get_url_bits(self, data_class=data_class,

851

skip_chbh=True)

852

if self.group_spacing is not None:

853

if self.bar_spacing is None:

854

raise InvalidParametersException('Bar spacing is required ' \

855

'to be set when setting group spacing')

856

if self.bar_width is None:

857

raise InvalidParametersException('Bar width is required to ' \

858

'be set when setting bar spacing')

859

url_bits.append('chbh=%i,%i,%i'

860

% (self.bar_width, self.bar_spacing, self.group_spacing))

861

elif self.bar_spacing is not None:

862

if self.bar_width is None:

863

raise InvalidParametersException('Bar width is required to ' \

864

'be set when setting bar spacing')

865

url_bits.append('chbh=%i,%i' % (self.bar_width, self.bar_spacing))

866

elif self.bar_width:

867

url_bits.append('chbh=%i' % self.bar_width)

868

return url_bits

869

870

871

class GroupedHorizontalBarChart(GroupedBarChart):

872

873

def type_to_url(self):

874

return 'cht=bhg'

875

876

877

class GroupedVerticalBarChart(GroupedBarChart):

878

879

def type_to_url(self):

880

return 'cht=bvg'

881

882

def annotated_data(self):

883

for dataset in self.data:

884

yield ('y', dataset)

885

886

887

class PieChart(Chart):

888

889

def __init__(self, *args, **kwargs):

890

if type(self) == PieChart:

891

raise AbstractClassException('This is an abstract class')

892

Chart.__init__(self, *args, **kwargs)

893

self.pie_labels = []

894

if self.y_range:

895

warnings.warn('y_range is not used with %s.' % \

896

(self.__class__.__name__))

897

898

def set_pie_labels(self, labels):

899

self.pie_labels = [urllib.quote(a) for a in labels]

900

901

def get_url_bits(self, data_class=None):

902

url_bits = Chart.get_url_bits(self, data_class=data_class)

903

if self.pie_labels:

904

url_bits.append('chl=%s' % '%7c'.join(self.pie_labels))

905

return url_bits

906

907

def annotated_data(self):

908

# Datasets are all y-axis data. However, there should only be

909

# one dataset for pie charts.

910

for dataset in self.data:

911

yield ('x', dataset)

912

913

def scaled_data(self, data_class, x_range=None, y_range=None):

914

if not x_range:

915

x_range = [0, sum(self.data[0])]

916

return Chart.scaled_data(self, data_class, x_range, self.y_range)

917

918

919

class PieChart2D(PieChart):

920

921

def type_to_url(self):

922

return 'cht=p'

923

924

925

class PieChart3D(PieChart):

926

927

def type_to_url(self):

928

return 'cht=p3'

929

930

931

class VennChart(Chart):

932

933

def type_to_url(self):

934

return 'cht=v'

935

936

def annotated_data(self):

937

for dataset in self.data:

938

yield ('y', dataset)

939

940

941

class RadarChart(Chart):

942

943

def type_to_url(self):

944

return 'cht=r'

945

946

947

class SplineRadarChart(RadarChart):

948

949

def type_to_url(self):

950

return 'cht=rs'

951

952

953

class MapChart(Chart):

954

955

def __init__(self, *args, **kwargs):

956

Chart.__init__(self, *args, **kwargs)

957

self.geo_area = 'world'

958

self.codes = []

959

self.__areas = ('africa', 'asia', 'europe', 'middle_east', 'south_america', 'usa', 'world')

960

self.__ccodes = ('AD', 'AE', 'AF', 'AG', 'AI', 'AL', 'AM', 'AN', 'AO', 'AQ', 'AR',

961

'AS', 'AT', 'AU', 'AW', 'AX', 'AZ', 'BA', 'BB', 'BD', 'BE', 'BF',

962

'BG', 'BH', 'BI', 'BJ', 'BL', 'BM', 'BN', 'BO', 'BR', 'BS', 'BT',

963

'BV', 'BW', 'BY', 'BZ', 'CA', 'CC', 'CD', 'CF', 'CG', 'CH', 'CI',

964

'CK', 'CL', 'CM', 'CN', 'CO', 'CR', 'CU', 'CV', 'CX', 'CY', 'CZ',

965

'DE', 'DJ', 'DK', 'DM', 'DO', 'DZ', 'EC', 'EE', 'EG', 'EH', 'ER',

966

'ES', 'ET', 'FI', 'FJ', 'FK', 'FM', 'FO', 'FR', 'GA', 'GB', 'GD',

967

'GE', 'GF', 'GG', 'GH', 'GI', 'GL', 'GM', 'GN', 'GP', 'GQ', 'GR',

968

'GS', 'GT', 'GU', 'GW', 'GY', 'HK', 'HM', 'HN', 'HR', 'HT', 'HU',

969

'ID', 'IE', 'IL', 'IM', 'IN', 'IO', 'IQ', 'IR', 'IS', 'IT', 'JE',

970

'JM', 'JO', 'JP', 'KE', 'KG', 'KH', 'KI', 'KM', 'KN', 'KP', 'KR',

971

'KW', 'KY', 'KZ', 'LA', 'LB', 'LC', 'LI', 'LK', 'LR', 'LS', 'LT',

972

'LU', 'LV', 'LY', 'MA', 'MC', 'MD', 'ME', 'MF', 'MG', 'MH', 'MK',

973

'ML', 'MM', 'MN', 'MO', 'MP', 'MQ', 'MR', 'MS', 'MT', 'MU', 'MV',

974

'MW', 'MX', 'MY', 'MZ', 'NA', 'NC', 'NE', 'NF', 'NG', 'NI', 'NL',

975

'NO', 'NP', 'NR', 'NU', 'NZ', 'OM', 'PA', 'PE', 'PF', 'PG', 'PH',

976

'PK', 'PL', 'PM', 'PN', 'PR', 'PS', 'PT', 'PW', 'PY', 'QA', 'RE',

977

'RO', 'RS', 'RU', 'RW', 'SA', 'SB', 'SC', 'SD', 'SE', 'SG', 'SH',

978

'SI', 'SJ', 'SK', 'SL', 'SM', 'SN', 'SO', 'SR', 'ST', 'SV', 'SY',

979

'SZ', 'TC', 'TD', 'TF', 'TG', 'TH', 'TJ', 'TK', 'TL', 'TM', 'TN',

980

'TO', 'TR', 'TT', 'TV', 'TW', 'TZ', 'UA', 'UG', 'UM', 'US', 'UY',

981

'UZ', 'VA', 'VC', 'VE', 'VG', 'VI', 'VN', 'VU', 'WF', 'WS', 'YE',

982

'YT', 'ZA', 'ZM', 'ZW')

983

984

def type_to_url(self):

985

return 'cht=t'

986

987

def set_codes(self, codes):

988

'''Set the country code map for the data.

989

Codes given in a list.

990

991

i.e. DE - Germany

992

AT - Austria

993

US - United States

994

'''

995

996

codemap = ''

997

998

for cc in codes:

999

cc = cc.upper()

1000

if cc in self.__ccodes:

1001

codemap += cc

1002

else:

1003

raise UnknownCountryCodeException(cc)

1004

1005

self.codes = codemap

1006

1007

def set_geo_area(self, area):

1008

'''Sets the geo area for the map.

1009

1010

* africa

1011

* asia

1012

* europe

1013

* middle_east

1014

* south_america

1015

* usa

1016

* world

1017

'''

1018

1019

if area in self.__areas:

1020

self.geo_area = area

1021

else:

1022

raise UnknownChartType('Unknown chart type for maps: %s' %area)

1023

1024

def get_url_bits(self, data_class=None):

1025

url_bits = Chart.get_url_bits(self, data_class=data_class)

1026

url_bits.append('chtm=%s' % self.geo_area)

1027

if self.codes:

1028

url_bits.append('chld=%s' % ''.join(self.codes))

1029

return url_bits

1030

1031

def add_data_dict(self, datadict):

1032

'''Sets the data and country codes via a dictionary.

1033

1034

i.e. {'DE': 50, 'GB': 30, 'AT': 70}

1035

'''

1036

1037

self.set_codes(datadict.keys())

1038

self.add_data(datadict.values())

1039

1040

1041

class GoogleOMeterChart(PieChart):

1042

"""Inheriting from PieChart because of similar labeling"""

1043

1044

def __init__(self, *args, **kwargs):

1045

PieChart.__init__(self, *args, **kwargs)

1046

if self.auto_scale and not self.x_range:

1047

warnings.warn('Please specify an x_range with GoogleOMeterChart, '

1048

'otherwise one arrow will always be at the max.')

1049

1050

def type_to_url(self):

1051

return 'cht=gom'

1052

1053

1054

class QRChart(Chart):

1055

1056

def __init__(self, *args, **kwargs):

1057

Chart.__init__(self, *args, **kwargs)

1058

self.encoding = None

1059

self.ec_level = None

1060

self.margin = None

1061

1062

def type_to_url(self):

1063

return 'cht=qr'

1064

1065

def data_to_url(self, data_class=None):

1066

if not self.data:

1067

raise NoDataGivenException()

1068

return 'chl=%s' % urllib.quote(self.data[0])

1069

1070

def get_url_bits(self, data_class=None):

1071

url_bits = Chart.get_url_bits(self, data_class=data_class)

1072

if self.encoding:

1073

url_bits.append('choe=%s' % self.encoding)

1074

if self.ec_level:

1075

url_bits.append('chld=%s%%7c%s' % (self.ec_level, self.margin))

1076

return url_bits

1077

1078

def set_encoding(self, encoding):

1079

self.encoding = encoding

1080

1081

def set_ec(self, level, margin):

1082

self.ec_level = level

1083

self.margin = margin

1084

1085

1086

class ChartGrammar(object):

1087

1088

def __init__(self):

1089

self.grammar = None

1090

self.chart = None

1091

1092

def parse(self, grammar):

1093

self.grammar = grammar

1094

self.chart = self.create_chart_instance()

1095

1096

for attr in self.grammar:

1097

if attr in ('w', 'h', 'type', 'auto_scale', 'x_range', 'y_range'):

1098

continue # These are already parsed in create_chart_instance

1099

attr_func = 'parse_' + attr

1100

if not hasattr(self, attr_func):

1101

warnings.warn('No parser for grammar attribute "%s"' % (attr))

1102

continue

1103

getattr(self, attr_func)(grammar[attr])

1104

1105

return self.chart

1106

1107

def parse_data(self, data):

1108

self.chart.data = data

1109

1110

@staticmethod

1111

def get_possible_chart_types():

1112

possible_charts = []

1113

for cls_name in globals().keys():

1114

if not cls_name.endswith('Chart'):

1115

continue

1116

cls = globals()[cls_name]

1117

# Check if it is an abstract class

1118

try:

1119

a = cls(1, 1, auto_scale=False)

1120

del a

1121

except AbstractClassException:

1122

continue

1123

# Strip off "Class"

1124

possible_charts.append(cls_name[:-5])

1125

return possible_charts

1126

1127

def create_chart_instance(self, grammar=None):

1128

if not grammar:

1129

grammar = self.grammar

1130

assert(isinstance(grammar, dict)) # grammar must be a dict

1131

assert('w' in grammar) # width is required

1132

assert('h' in grammar) # height is required

1133

assert('type' in grammar) # type is required

1134

chart_type = grammar['type']

1135

w = grammar['w']

1136

h = grammar['h']

1137

auto_scale = grammar.get('auto_scale', None)

1138

x_range = grammar.get('x_range', None)

1139

y_range = grammar.get('y_range', None)

1140

types = ChartGrammar.get_possible_chart_types()

1141

if chart_type not in types:

1142

raise UnknownChartType('%s is an unknown chart type. Possible '

1143

'chart types are %s' % (chart_type, ','.join(types)))

1144

return globals()[chart_type + 'Chart'](w, h, auto_scale=auto_scale,

1145

x_range=x_range, y_range=y_range)

1146

1147

def download(self):

1148

pass

1149

1

"""

2

PyGoogleChart - A complete Python wrapper for the Google Chart API

3

4

http://pygooglechart.slowchop.com/

5

6

7

8

This program is free software: you can redistribute it and/or modify

9

it under the terms of the GNU General Public License as published by

10

the Free Software Foundation, either version 3 of the License, or

11

(at your option) any later version.

12

13

This program is distributed in the hope that it will be useful,

14

but WITHOUT ANY WARRANTY; without even the implied warranty of

15

MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the

16

GNU General Public License for more details.

17

18

You should have received a copy of the GNU General Public License

19

along with this program. If not, see <http://www.gnu.org/licenses/>.

20

21

"""

22

23

import os

24

import urllib

25

import math

26

import random

27

import re

28

29

# Helper variables and functions

30

# -----------------------------------------------------------------------------

31

32

reo_colour = re.compile('^([A-Fa-f0-9]{2,2}){3,4}$')

33

34

def _check_colour(colour):

35

if not reo_colour.match(colour):

36

raise InvalidParametersException('Colours need to be in ' \

37

'RRGGBB or RRGGBBAA format. One of your colours has %s' % \

38

colour)

39

40

# Exception Classes

41

# -----------------------------------------------------------------------------

42

43

class PyGoogleChartException(Exception):

44

pass

45

46

class DataOutOfRangeException(PyGoogleChartException):

47

pass

48

49

class UnknownDataTypeException(PyGoogleChartException):

50

pass

51

52

class NoDataGivenException(PyGoogleChartException):

53

pass

54

55

class InvalidParametersException(PyGoogleChartException):

56

pass

57

58

# Data Classes

59

# -----------------------------------------------------------------------------

60

61

class Data(object):

62

def __init__(self, data):

63

assert(type(self) != Data) # This is an abstract class

64

self.data = data

65

66

class SimpleData(Data):

67

enc_map = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789'

68

def __repr__(self):

69

encoded_data = []

70

for data in self.data:

71

sub_data = []

72

for value in data:

73

if value is None:

74

sub_data.append('_')

75

elif value >= 0 and value <= SimpleData.max_value:

76

sub_data.append(SimpleData.enc_map[value])

77

else:

78

raise DataOutOfRangeException()

79

encoded_data.append(''.join(sub_data))

80

return 'chd=s:' + ','.join(encoded_data)

81

@staticmethod

82

def max_value():

83

return 61

84

85

class TextData(Data):

86

def __repr__(self):

87

encoded_data = []

88

for data in self.data:

89

sub_data = []

90

for value in data:

91

if value is None:

92

sub_data.append(-1)

93

elif value >= 0 and value <= TextData.max_value:

94

sub_data.append(str(float(value)))

95

else:

96

raise DataOutOfRangeException()

97

encoded_data.append(','.join(sub_data))

98

return 'chd=t:' + '|'.join(encoded_data)

99

@staticmethod

100

def max_value():

101

return 100

102

103

class ExtendedData(Data):

104

enc_map = \

105

'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-.'

106

def __repr__(self):

107

encoded_data = []

108

enc_size = len(ExtendedData.enc_map)

109

for data in self.data:

110

sub_data = []

111

for value in data:

112

if value is None:

113

sub_data.append('__')

114

elif value >= 0 and value <= ExtendedData.max_value:

115

first, second = divmod(int(value), enc_size)

116

sub_data.append('%s%s' % (

117

ExtendedData.enc_map[first],

118

ExtendedData.enc_map[second]))

119

else:

120

raise DataOutOfRangeException( \

121

'Item #%i "%s" is out of range' % (data.index(value), \

122

value))

123

encoded_data.append(''.join(sub_data))

124

return 'chd=e:' + ','.join(encoded_data)

125

@staticmethod

126

def max_value():

127

return 4095

128

129

# Axis Classes

130

# -----------------------------------------------------------------------------

131

132

class Axis(object):

133

BOTTOM = 'x'

134

TOP = 't'

135

LEFT = 'y'

136

RIGHT = 'r'

137

TYPES = (BOTTOM, TOP, LEFT, RIGHT)

138

def __init__(self, axis, **kw):

139

assert(axis in Axis.TYPES)

140

self.has_style = False

141

self.index = None

142

self.positions = None

143

def set_index(self, index):

144

self.index = index

145

def set_positions(self, positions):

146

self.positions = positions

147

def set_style(self, colour, font_size=None, alignment=None):

148

_check_colour(colour)

149

self.colour = colour

150

self.font_size = font_size

151

self.alignment = alignment

152

self.has_style = True

153

def style_to_url(self):

154

bits = []

155

bits.append(str(self.index))

156

bits.append(self.colour)

157

if self.font_size is not None:

158

bits.append(str(self.font_size))

159

if self.alignment is not None:

160

bits.append(str(self.alignment))

161

return ','.join(bits)

162

def positions_to_url(self):

163

bits = []

164

bits.append(str(self.index))

165

bits += [ str(a) for a in self.positions ]

166

return ','.join(bits)

167

168

class LabelAxis(Axis):

169

def __init__(self, axis, values, **kwargs):

170

Axis.__init__(self, axis, **kwargs)

171

self.values = [ str(a) for a in values ]

172

def __repr__(self):

173

return '%i:|%s' % (self.index, '|'.join(self.values))

174

175

class RangeAxis(Axis):

176

def __init__(self, axis, low, high, **kwargs):

177

Axis.__init__(self, axis, **kwargs)

178

self.low = low

179

self.high = high

180

def __repr__(self):

181

return '%i,%s,%s' % (self.index, self.low, self.high)

182

183

# Chart Classes

184

# -----------------------------------------------------------------------------

185

186

class Chart(object):

187

188

BASE_URL = 'http://chart.apis.google.com/chart?'

189

BACKGROUND = 'bg'

190

CHART = 'c'

191

SOLID = 's'

192

LINEAR_GRADIENT = 'lg'

193

LINEAR_STRIPES = 'ls'

194

195

def __init__(self, width, height, title=None, legend=None, colours=None):

196

assert(type(self) != Chart) # This is an abstract class

197

assert(isinstance(width, int))

198

assert(isinstance(height, int))

199

self.width = width

200

self.height = height

201

self.data = []

202

self.set_title(title)

203

self.set_legend(legend)

204

self.set_colours(colours)

205

self.fill_types = {

206

Chart.BACKGROUND: None,

207

Chart.CHART: None,

208

}

209

self.fill_area = {

210

Chart.BACKGROUND: None,

211

Chart.CHART: None,

212

}

213

self.axis = {

214

Axis.TOP: None,

215

Axis.BOTTOM: None,

216

Axis.LEFT: None,

217

Axis.RIGHT: None,

218

}

219

self.markers = []

220

221

# URL generation

222

# -------------------------------------------------------------------------

223

224

def get_url(self):

225

url_bits = self.get_url_bits()

226

return self.BASE_URL + '&'.join(url_bits)

227

228

def get_url_bits(self):

229

url_bits = []

230

# required arguments

231

url_bits.append(self.type_to_url())

232

url_bits.append('chs=%ix%i' % (self.width, self.height))

233

url_bits.append(self.data_to_url())

234

# optional arguments

235

if self.title:

236

url_bits.append('chtt=%s' % self.title)

237

if self.legend:

238

url_bits.append('chdl=%s' % '|'.join(self.legend))

239

if self.colours:

240

url_bits.append('chco=%s' % ','.join(self.colours))

241

ret = self.fill_to_url()

242

if ret:

243

url_bits.append(ret)

244

ret = self.axis_to_url()

245

if ret:

246

url_bits.append(ret)

247

if self.markers:

248

url_bits.append(self.markers_to_url())

249

return url_bits

250

251

# Downloading

252

# -------------------------------------------------------------------------

253

def download(self, file_name):

254

open(file_name, 'wb').write(urllib.urlopen(self.get_url()).read())

255

256

# Simple settings

257

# -------------------------------------------------------------------------

258

259

def set_title(self, title):

260

if title:

261

self.title = urllib.quote(title)

262

else:

263

self.title = None

264

265

def set_legend(self, legend):

266

# legend needs to be a list, tuple or None

267

assert(isinstance(legend, list) or isinstance(legend, tuple) or

268

legend is None)

269

if legend:

270

self.legend = [ urllib.quote(a) for a in legend ]

271

else:

272

self.legend = None

273

274

# Chart colours

275

# -------------------------------------------------------------------------

276

277

def set_colours(self, colours):

278

# colours needs to be a list, tuple or None

279

assert(isinstance(colours, list) or isinstance(colours, tuple) or

280

colours is None)

281

# make sure the colours are in the right format

282

if colours:

283

for col in colours:

284

_check_colour(col)

285

self.colours = colours

286

287

# Background/Chart colours

288

# -------------------------------------------------------------------------

289

290

def fill_solid(self, area, colour):

291

assert(area in (Chart.BACKGROUND, Chart.CHART))

292

_check_colour(colour)

293

self.fill_area[area] = colour

294

self.fill_types[area] = Chart.SOLID

295

296

def _check_fill_linear(self, angle, *args):

297

assert(isinstance(args, list) or isinstance(args, tuple))

298

assert(angle >= 0 and angle <= 90)

299

assert(len(args) % 2 == 0)

300

args = list(args) # args is probably a tuple and we need to mutate

301

for a in xrange(len(args) / 2):

302

col = args[a * 2]

303

offset = args[a * 2 + 1]

304

_check_colour(col)

305

assert(offset >= 0 and offset <= 1)

306

args[a * 2 + 1] = str(args[a * 2 + 1])

307

return args

308

309

def fill_linear_gradient(self, area, angle, *args):

310

assert(area in (Chart.BACKGROUND, Chart.CHART))

311

args = self._check_fill_linear(angle, *args)

312

self.fill_types[area] = Chart.LINEAR_GRADIENT

313

self.fill_area[area] = ','.join([str(angle)] + args)

314

315

def fill_linear_stripes(self, area, angle, *args):

316

assert(area in (Chart.BACKGROUND, Chart.CHART))

317

args = self._check_fill_linear(angle, *args)

318

self.fill_types[area] = Chart.LINEAR_STRIPES

319

self.fill_area[area] = ','.join([str(angle)] + args)

320

321

def fill_to_url(self):

322

areas = []

323

for area in (Chart.BACKGROUND, Chart.CHART):

324

if self.fill_types[area]:

325

areas.append('%s,%s,%s' % (area, self.fill_types[area], \

326

self.fill_area[area]))

327

if areas:

328

return 'chf=' + '|'.join(areas)

329

330

# Data

331

# -------------------------------------------------------------------------

332

333

def data_class_detection(self, data):

334

"""

335

Detects and returns the data type required based on the range of the

336

data given. The data given must be lists of numbers within a list.

337

"""

338

assert(isinstance(data, list) or isinstance(data, tuple))

339

max_value = None

340

for a in data:

341

assert(isinstance(a, list) or isinstance(a, tuple))

342

if max_value is None or max(a) > max_value:

343

max_value = max(a)

344

for data_class in (SimpleData, TextData, ExtendedData):

345

if max_value <= data_class.max_value():

346

return data_class

347

raise DataOutOfRangeException()

348

349

def add_data(self, data):

350

self.data.append(data)

351

352

def data_to_url(self, data_class=None):

353

if not data_class:

354

data_class = self.data_class_detection(self.data)

355

if not issubclass(data_class, Data):

356

raise UnknownDataTypeException()

357

return repr(data_class(self.data))

358

359

# Axis Labels

360

# -------------------------------------------------------------------------

361

362

def set_axis_labels(self, axis, values):

363

assert(axis in Axis.TYPES)

364

self.axis[axis] = LabelAxis(axis, values)

365

366

def set_axis_range(self, axis, low, high):

367

assert(axis in Axis.TYPES)

368

self.axis[axis] = RangeAxis(axis, low, high)

369

370

def set_axis_positions(self, axis, positions):

371

assert(axis in Axis.TYPES)

372

if not self.axis[axis]:

373

raise InvalidParametersException('Please create an axis first')

374

self.axis[axis].set_positions(positions)

375

376

def set_axis_style(self, axis, colour, font_size=None, alignment=None):

377

assert(axis in Axis.TYPES)

378

if not self.axis[axis]:

379

raise InvalidParametersException('Please create an axis first')

380

self.axis[axis].set_style(colour, font_size, alignment)

381

382

def axis_to_url(self):

383

available_axis = []

384

label_axis = []

385

range_axis = []

386

positions = []

387

styles = []

388

index = -1

389

for position, axis in self.axis.items():

390

if not axis:

391

continue

392

index += 1

393

axis.set_index(index)

394

available_axis.append(position)

395

if isinstance(axis, RangeAxis):

396

range_axis.append(repr(axis))

397

if isinstance(axis, LabelAxis):

398

label_axis.append(repr(axis))

399

if axis.positions:

400

positions.append(axis.positions_to_url())

401

if axis.has_style:

402

styles.append(axis.style_to_url())

403

if not available_axis:

404

return

405

url_bits = []

406

url_bits.append('chxt=%s' % ','.join(available_axis))

407

if label_axis:

408

url_bits.append('chxl=%s' % '|'.join(label_axis))

409

if range_axis:

410

url_bits.append('chxr=%s' % '|'.join(range_axis))

411

if positions:

412

url_bits.append('chxp=%s' % '|'.join(positions))

413

if styles:

414

url_bits.append('chxs=%s' % '|'.join(styles))

415

return '&'.join(url_bits)

416

417

# Markers, Ranges and Fill area (chm)

418

# -------------------------------------------------------------------------

419

420

def markers_to_url(self):

421

return 'chm=%s' % '|'.join([ ','.join(a) for a in self.markers ])

422

423

def add_marker(self, index, point, marker_type, colour, size):

424

self.markers.append((marker_type, colour, str(index), str(point), \

425

str(size)))

426

427

def add_horizontal_range(self, colour, start, stop):

428

self.markers.append(('r', colour, '1', str(start), str(stop)))

429

430

def add_vertical_range(self, colour, start, stop):

431

self.markers.append(('R', colour, '1', str(start), str(stop)))

432

433

def add_fill_range(self, colour, index_start, index_end):

434

self.markers.append(('b', colour, str(index_start), str(index_end), \

435

'1'))

436

437

def add_fill_simple(self, colour):

438

self.markers.append(('B', colour, '1', '1', '1'))

439

440

class ScatterChart(Chart):

441

def __init__(self, *args, **kwargs):

442

Chart.__init__(self, *args, **kwargs)

443

def type_to_url(self):

444

return 'cht=s'

445

446

447

class LineChart(Chart):

448

def __init__(self, *args, **kwargs):

449

Chart.__init__(self, *args, **kwargs)

450

self.line_styles = {}

451

self.grid = None

452

def set_line_style(self, index, thickness=1, line_segment=None, \

453

blank_segment=None):

454

value = []

455

value.append(str(thickness))

456

if line_segment:

457

value.append(str(line_segment))

458

value.append(str(blank_segment))

459

self.line_styles[index] = value

460

def set_grid(self, x_step, y_step, line_segment=1, \

461

blank_segment=0):

462

self.grid = '%s,%s,%s,%s' % (x_step, y_step, line_segment, \

463

blank_segment)

464

def get_url_bits(self):

465

url_bits = Chart.get_url_bits(self)

466

if self.line_styles:

467

style = []

468

# for index, values in self.line_style.items():

469

for index in xrange(max(self.line_styles) + 1):

470

if index in self.line_styles:

471

values = self.line_styles[index]

472

else:

473

values = ('1', )

474

style.append(','.join(values))

475

url_bits.append('chls=%s' % '|'.join(style))

476

if self.grid:

477

url_bits.append('chg=%s' % self.grid)

478

return url_bits

479

480

class SimpleLineChart(LineChart):

481

def type_to_url(self):

482

return 'cht=lc'

483

484

class XYLineChart(LineChart):

485

def type_to_url(self):

486

return 'cht=lxy'

487

488

class BarChart(Chart):

489

def __init__(self, *args, **kwargs):

490

assert(type(self) != BarChart) # This is an abstract class

491

Chart.__init__(self, *args, **kwargs)

492

self.bar_width = None

493

def set_bar_width(self, bar_width):

494

self.bar_width = bar_width

495

def get_url_bits(self):

496

url_bits = Chart.get_url_bits(self)

497

url_bits.append('chbh=%i' % self.bar_width)

498

return url_bits

499

500

class StackedHorizontalBarChart(BarChart):

501

def type_to_url(self):

502

return 'cht=bhs'

503

504

class StackedVerticalBarChart(BarChart):

505

def type_to_url(self):

506

return 'cht=bvs'

507

508

class GroupedBarChart(BarChart):

509

def __init__(self, *args, **kwargs):

510

assert(type(self) != GroupedBarChart) # This is an abstract class

511

BarChart.__init__(self, *args, **kwargs)

512

self.bar_spacing = None

513

def set_bar_spacing(self, spacing):

514

self.bar_spacing = spacing

515

def get_url_bits(self):

516

# Skip 'BarChart.get_url_bits' and call Chart directly so the parent

517

# doesn't add "chbh" before we do.

518

url_bits = Chart.get_url_bits(self)

519

if self.bar_spacing is not None:

520

if self.bar_width is None:

521

raise InvalidParametersException('Bar width is required to ' \

522

'be set when setting spacing')

523

url_bits.append('chbh=%i,%i' % (self.bar_width, self.bar_spacing))

524

else:

525

url_bits.append('chbh=%i' % self.bar_width)

526

return url_bits

527

528

class GroupedHorizontalBarChart(GroupedBarChart):

529

def type_to_url(self):

530

return 'cht=bhg'

531

532

class GroupedVerticalBarChart(GroupedBarChart):

533

def type_to_url(self):

534

return 'cht=bvg'

535

536

class PieChart(Chart):

537

def __init__(self, *args, **kwargs):

538

assert(type(self) != PieChart) # This is an abstract class

539

Chart.__init__(self, *args, **kwargs)

540

self.pie_labels = []

541

def set_pie_labels(self, labels):

542

self.pie_labels = labels

543

def get_url_bits(self):

544

url_bits = Chart.get_url_bits(self)

545

if self.pie_labels:

546

url_bits.append('chl=%s' % '|'.join(self.pie_labels))

547

return url_bits

548

549

class PieChart2D(PieChart):

550

def type_to_url(self):

551

return 'cht=p'

552

553

class PieChart3D(PieChart):

554

def type_to_url(self):

555

return 'cht=p3'

556

557

class VennChart(Chart):

558

def type_to_url(self):

559

return 'cht=v'

560

561

def test():

562

chart = GroupedVerticalBarChart(320, 200)

563

chart = PieChart2D(320, 200)

564

chart = ScatterChart(320, 200)

565

chart = SimpleLineChart(320, 200)

566

sine_data = [ math.sin(float(a) / 10) * 2000 + 2000 for a in xrange(100) ]

567

random_data = [ a * random.random() * 30 for a in xrange(40) ]

568

random_data2 = [ random.random() * 4000 for a in xrange(10) ]

569

# chart.set_bar_width(50)

570

# chart.set_bar_spacing(0)

571

chart.add_data(sine_data)

572

chart.add_data(random_data)

573

chart.add_data(random_data2)

574

# chart.set_line_style(1, thickness=2)

575

# chart.set_line_style(2, line_segment=10, blank_segment=5)

576

# chart.set_title('heloooo')

577

# chart.set_legend(('sine wave', 'random * x'))

578

# chart.set_colours(('ee2000', 'DDDDAA', 'fF03f2'))

579

# chart.fill_solid(Chart.BACKGROUND, '123456')

580

# chart.fill_linear_gradient(Chart.CHART, 20, '004070', 1, '300040', 0,

581

# 'aabbcc00', 0.5)

582

# chart.fill_linear_stripes(Chart.CHART, 20, '204070', .2, '300040', .2,

583

# 'aabbcc00', 0.2)

584

chart.set_axis_range(Axis.LEFT, 0, 10)

585

chart.set_axis_range(Axis.RIGHT, 5, 30)

586

chart.set_axis_labels(Axis.BOTTOM, [1, 25, 95])

587

chart.set_axis_positions(Axis.BOTTOM, [1, 25, 95])

588

chart.set_axis_style(Axis.BOTTOM, 'FFFFFF', 15)

589

590

# chart.set_pie_labels(('apples', 'oranges', 'bananas'))

591

592

# chart.set_grid(10, 10)

593

594

# for a in xrange(0, 100, 10):

595

# chart.add_marker(1, a, 'a', 'AACA20', 10)

596

597

chart.add_horizontal_range('00A020', .2, .5)

598

chart.add_vertical_range('00c030', .2, .4)

599

600

chart.add_fill_simple('303030A0')

601

602

603

chart = SimpleLineChart(320, 200)

604

data = [ 1, 5, 30, 10, 25 ]

605

chart.add_data(data)

606

chart.set_title('Hello World!')

607

chart.set_axis_range(Axis.LEFT, 0, 10)

608

print chart.get_url()

609

chart.download('hello.png')

610

611

url = chart.get_url()

612

print url

613

if 0:

614

data = urllib.urlopen(chart.get_url()).read()

615

open('meh.png', 'wb').write(data)

616

os.system('start meh.png')

617

618

if __name__ == '__main__':

619

test()

620