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- Committer: Gerald Kaszuba
- Date: 2010-12-24 05:59:49 UTC
- Revision ID: git-v1:4e7f551c4d02050a9462528eacb81e9bb3d0d81d
Fixed README link
- files added:
- .gitignore
- examples/helpers
- scripts
- test
- files modified:
- examples/helper.py
added
removed
pygooglechart.py
1
"""
2
PyGoogleChart - A complete Python wrapper for the Google Chart API
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4
http://pygooglechart.slowchop.com/
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6
Copyright 2007 Gerald Kaszuba
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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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13
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
15
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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21
"""
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23
import os
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import urllib
25
import urllib2
26
import math
27
import random
28
import re
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30
# Helper variables and functions
31
# -----------------------------------------------------------------------------
32
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reo_colour = re.compile('^([A-Fa-f0-9]{2,2}){3,4}$')
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35
36
def _check_colour(colour):
37
if not reo_colour.match(colour):
38
raise InvalidParametersException('Colours need to be in ' \
39
'RRGGBB or RRGGBBAA format. One of your colours has %s' % \
40
colour)
41
42
# Exception Classes
43
# -----------------------------------------------------------------------------
44
45
46
class PyGoogleChartException(Exception):
47
pass
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49
50
class DataOutOfRangeException(PyGoogleChartException):
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pass
52
53
54
class UnknownDataTypeException(PyGoogleChartException):
55
pass
56
57
58
class NoDataGivenException(PyGoogleChartException):
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pass
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61
62
class InvalidParametersException(PyGoogleChartException):
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pass
64
65
66
class BadContentTypeException(PyGoogleChartException):
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pass
68
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70
# Data Classes
71
# -----------------------------------------------------------------------------
72
73
74
class Data(object):
75
76
def __init__(self, data):
77
assert(type(self) != Data) # This is an abstract class
78
self.data = data
79
80
81
class SimpleData(Data):
82
enc_map = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789'
83
84
def __repr__(self):
85
encoded_data = []
86
for data in self.data:
87
sub_data = []
88
for value in data:
89
if value is None:
90
sub_data.append('_')
91
elif value >= 0 and value <= SimpleData.max_value:
92
sub_data.append(SimpleData.enc_map[value])
93
else:
94
raise DataOutOfRangeException()
95
encoded_data.append(''.join(sub_data))
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return 'chd=s:' + ','.join(encoded_data)
97
98
@staticmethod
99
def max_value():
100
return 61
101
102
103
class TextData(Data):
104
105
def __repr__(self):
106
encoded_data = []
107
for data in self.data:
108
sub_data = []
109
for value in data:
110
if value is None:
111
sub_data.append(-1)
112
elif value >= 0 and value <= TextData.max_value:
113
sub_data.append(str(float(value)))
114
else:
115
raise DataOutOfRangeException()
116
encoded_data.append(','.join(sub_data))
117
return 'chd=t:' + '|'.join(encoded_data)
118
119
@staticmethod
120
def max_value():
121
return 100
122
123
124
class ExtendedData(Data):
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enc_map = \
126
'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-.'
127
128
def __repr__(self):
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encoded_data = []
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enc_size = len(ExtendedData.enc_map)
131
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 <= ExtendedData.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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148
@staticmethod
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def max_value():
150
return 4095
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152
# Axis Classes
153
# -----------------------------------------------------------------------------
154
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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, **kw):
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assert(axis in Axis.TYPES)
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self.has_style = False
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self.index = None
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self.positions = None
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def set_index(self, index):
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self.index = 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):
176
_check_colour(colour)
177
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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182
def style_to_url(self):
183
bits = []
184
bits.append(str(self.index))
185
bits.append(self.colour)
186
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:
189
bits.append(str(self.alignment))
190
return ','.join(bits)
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192
def positions_to_url(self):
193
bits = []
194
bits.append(str(self.index))
195
bits += [str(a) for a in self.positions]
196
return ','.join(bits)
197
198
199
class LabelAxis(Axis):
200
201
def __init__(self, axis, values, **kwargs):
202
Axis.__init__(self, axis, **kwargs)
203
self.values = [str(a) for a in values]
204
205
def __repr__(self):
206
return '%i:|%s' % (self.index, '|'.join(self.values))
207
208
209
class RangeAxis(Axis):
210
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def __init__(self, axis, low, high, **kwargs):
212
Axis.__init__(self, axis, **kwargs)
213
self.low = low
214
self.high = high
215
216
def __repr__(self):
217
return '%i,%s,%s' % (self.index, self.low, self.high)
218
219
# Chart Classes
220
# -----------------------------------------------------------------------------
221
222
223
class Chart(object):
224
"""Abstract class for all chart types.
225
226
width are height specify the dimensions of the image. title sets the title
227
of the chart. legend requires a list that corresponds to datasets.
228
"""
229
230
BASE_URL = 'http://chart.apis.google.com/chart?'
231
BACKGROUND = 'bg'
232
CHART = 'c'
233
SOLID = 's'
234
LINEAR_GRADIENT = 'lg'
235
LINEAR_STRIPES = 'ls'
236
237
def __init__(self, width, height, title=None, legend=None, colours=None):
238
assert(type(self) != Chart) # This is an abstract class
239
assert(isinstance(width, int))
240
assert(isinstance(height, int))
241
self.width = width
242
self.height = height
243
self.data = []
244
self.set_title(title)
245
self.set_legend(legend)
246
self.set_colours(colours)
247
self.fill_types = {
248
Chart.BACKGROUND: None,
249
Chart.CHART: None,
250
}
251
self.fill_area = {
252
Chart.BACKGROUND: None,
253
Chart.CHART: None,
254
}
255
self.axis = {
256
Axis.TOP: None,
257
Axis.BOTTOM: None,
258
Axis.LEFT: None,
259
Axis.RIGHT: None,
260
}
261
self.markers = []
262
263
# URL generation
264
# -------------------------------------------------------------------------
265
266
def get_url(self):
267
url_bits = self.get_url_bits()
268
return self.BASE_URL + '&'.join(url_bits)
269
270
def get_url_bits(self):
271
url_bits = []
272
# required arguments
273
url_bits.append(self.type_to_url())
274
url_bits.append('chs=%ix%i' % (self.width, self.height))
275
url_bits.append(self.data_to_url())
276
# optional arguments
277
if self.title:
278
url_bits.append('chtt=%s' % self.title)
279
if self.legend:
280
url_bits.append('chdl=%s' % '|'.join(self.legend))
281
if self.colours:
282
url_bits.append('chco=%s' % ','.join(self.colours))
283
ret = self.fill_to_url()
284
if ret:
285
url_bits.append(ret)
286
ret = self.axis_to_url()
287
if ret:
288
url_bits.append(ret)
289
if self.markers:
290
url_bits.append(self.markers_to_url())
291
return url_bits
292
293
# Downloading
294
# -------------------------------------------------------------------------
295
296
def download(self, file_name):
297
opener = urllib2.urlopen(self.get_url())
298
299
if opener.headers['content-type'] != 'image/png':
300
raise BadContentTypeException('Server responded with a ' \
301
'content-type of %s' % opener.headers['content-type'])
302
303
open(file_name, 'wb').write(urllib.urlopen(self.get_url()).read())
304
305
# Simple settings
306
# -------------------------------------------------------------------------
307
308
def set_title(self, title):
309
if title:
310
self.title = urllib.quote(title)
311
else:
312
self.title = None
313
314
def set_legend(self, legend):
315
# legend needs to be a list, tuple or None
316
assert(isinstance(legend, list) or isinstance(legend, tuple) or
317
legend is None)
318
if legend:
319
self.legend = [urllib.quote(a) for a in legend]
320
else:
321
self.legend = None
322
323
# Chart colours
324
# -------------------------------------------------------------------------
325
326
def set_colours(self, colours):
327
# colours needs to be a list, tuple or None
328
assert(isinstance(colours, list) or isinstance(colours, tuple) or
329
colours is None)
330
# make sure the colours are in the right format
331
if colours:
332
for col in colours:
333
_check_colour(col)
334
self.colours = colours
335
336
# Background/Chart colours
337
# -------------------------------------------------------------------------
338
339
def fill_solid(self, area, colour):
340
assert(area in (Chart.BACKGROUND, Chart.CHART))
341
_check_colour(colour)
342
self.fill_area[area] = colour
343
self.fill_types[area] = Chart.SOLID
344
345
def _check_fill_linear(self, angle, *args):
346
assert(isinstance(args, list) or isinstance(args, tuple))
347
assert(angle >= 0 and angle <= 90)
348
assert(len(args) % 2 == 0)
349
args = list(args) # args is probably a tuple and we need to mutate
350
for a in xrange(len(args) / 2):
351
col = args[a * 2]
352
offset = args[a * 2 + 1]
353
_check_colour(col)
354
assert(offset >= 0 and offset <= 1)
355
args[a * 2 + 1] = str(args[a * 2 + 1])
356
return args
357
358
def fill_linear_gradient(self, area, angle, *args):
359
assert(area in (Chart.BACKGROUND, Chart.CHART))
360
args = self._check_fill_linear(angle, *args)
361
self.fill_types[area] = Chart.LINEAR_GRADIENT
362
self.fill_area[area] = ','.join([str(angle)] + args)
363
364
def fill_linear_stripes(self, area, angle, *args):
365
assert(area in (Chart.BACKGROUND, Chart.CHART))
366
args = self._check_fill_linear(angle, *args)
367
self.fill_types[area] = Chart.LINEAR_STRIPES
368
self.fill_area[area] = ','.join([str(angle)] + args)
369
370
def fill_to_url(self):
371
areas = []
372
for area in (Chart.BACKGROUND, Chart.CHART):
373
if self.fill_types[area]:
374
areas.append('%s,%s,%s' % (area, self.fill_types[area], \
375
self.fill_area[area]))
376
if areas:
377
return 'chf=' + '|'.join(areas)
378
379
# Data
380
# -------------------------------------------------------------------------
381
382
def data_class_detection(self, data):
383
"""
384
Detects and returns the data type required based on the range of the
385
data given. The data given must be lists of numbers within a list.
386
"""
387
assert(isinstance(data, list) or isinstance(data, tuple))
388
max_value = None
389
for a in data:
390
assert(isinstance(a, list) or isinstance(a, tuple))
391
if max_value is None or max(a) > max_value:
392
max_value = max(a)
393
for data_class in (SimpleData, TextData, ExtendedData):
394
if max_value <= data_class.max_value():
395
return data_class
396
raise DataOutOfRangeException()
397
398
def add_data(self, data):
399
self.data.append(data)
400
return len(self.data) - 1 # return the "index" of the data set
401
402
def data_to_url(self, data_class=None):
403
if not data_class:
404
data_class = self.data_class_detection(self.data)
405
if not issubclass(data_class, Data):
406
raise UnknownDataTypeException()
407
return repr(data_class(self.data))
408
409
# Axis Labels
410
# -------------------------------------------------------------------------
411
412
def set_axis_labels(self, axis, values):
413
assert(axis in Axis.TYPES)
414
self.axis[axis] = LabelAxis(axis, values)
415
416
def set_axis_range(self, axis, low, high):
417
assert(axis in Axis.TYPES)
418
self.axis[axis] = RangeAxis(axis, low, high)
419
420
def set_axis_positions(self, axis, positions):
421
assert(axis in Axis.TYPES)
422
if not self.axis[axis]:
423
raise InvalidParametersException('Please create an axis first')
424
self.axis[axis].set_positions(positions)
425
426
def set_axis_style(self, axis, colour, font_size=None, alignment=None):
427
assert(axis in Axis.TYPES)
428
if not self.axis[axis]:
429
raise InvalidParametersException('Please create an axis first')
430
self.axis[axis].set_style(colour, font_size, alignment)
431
432
def axis_to_url(self):
433
available_axis = []
434
label_axis = []
435
range_axis = []
436
positions = []
437
styles = []
438
index = -1
439
for position, axis in self.axis.items():
440
if not axis:
441
continue
442
index += 1
443
axis.set_index(index)
444
available_axis.append(position)
445
if isinstance(axis, RangeAxis):
446
range_axis.append(repr(axis))
447
if isinstance(axis, LabelAxis):
448
label_axis.append(repr(axis))
449
if axis.positions:
450
positions.append(axis.positions_to_url())
451
if axis.has_style:
452
styles.append(axis.style_to_url())
453
if not available_axis:
454
return
455
url_bits = []
456
url_bits.append('chxt=%s' % ','.join(available_axis))
457
if label_axis:
458
url_bits.append('chxl=%s' % '|'.join(label_axis))
459
if range_axis:
460
url_bits.append('chxr=%s' % '|'.join(range_axis))
461
if positions:
462
url_bits.append('chxp=%s' % '|'.join(positions))
463
if styles:
464
url_bits.append('chxs=%s' % '|'.join(styles))
465
return '&'.join(url_bits)
466
467
# Markers, Ranges and Fill area (chm)
468
# -------------------------------------------------------------------------
469
470
def markers_to_url(self):
471
return 'chm=%s' % '|'.join([','.join(a) for a in self.markers])
472
473
def add_marker(self, index, point, marker_type, colour, size):
474
self.markers.append((marker_type, colour, str(index), str(point), \
475
str(size)))
476
477
def add_horizontal_range(self, colour, start, stop):
478
self.markers.append(('r', colour, '1', str(start), str(stop)))
479
480
def add_vertical_range(self, colour, start, stop):
481
self.markers.append(('R', colour, '1', str(start), str(stop)))
482
483
def add_fill_range(self, colour, index_start, index_end):
484
self.markers.append(('b', colour, str(index_start), str(index_end), \
485
'1'))
486
487
def add_fill_simple(self, colour):
488
self.markers.append(('B', colour, '1', '1', '1'))
489
490
491
class ScatterChart(Chart):
492
493
def __init__(self, *args, **kwargs):
494
Chart.__init__(self, *args, **kwargs)
495
496
def type_to_url(self):
497
return 'cht=s'
498
499
500
class LineChart(Chart):
501
502
def __init__(self, *args, **kwargs):
503
assert(type(self) != LineChart) # This is an abstract class
504
Chart.__init__(self, *args, **kwargs)
505
self.line_styles = {}
506
self.grid = None
507
508
def set_line_style(self, index, thickness=1, line_segment=None, \
509
blank_segment=None):
510
value = []
511
value.append(str(thickness))
512
if line_segment:
513
value.append(str(line_segment))
514
value.append(str(blank_segment))
515
self.line_styles[index] = value
516
517
def set_grid(self, x_step, y_step, line_segment=1, \
518
blank_segment=0):
519
self.grid = '%s,%s,%s,%s' % (x_step, y_step, line_segment, \
520
blank_segment)
521
522
def get_url_bits(self):
523
url_bits = Chart.get_url_bits(self)
524
if self.line_styles:
525
style = []
526
# for index, values in self.line_style.items():
527
for index in xrange(max(self.line_styles) + 1):
528
if index in self.line_styles:
529
values = self.line_styles[index]
530
else:
531
values = ('1', )
532
style.append(','.join(values))
533
url_bits.append('chls=%s' % '|'.join(style))
534
if self.grid:
535
url_bits.append('chg=%s' % self.grid)
536
return url_bits
537
538
539
class SimpleLineChart(LineChart):
540
541
def type_to_url(self):
542
return 'cht=lc'
543
544
545
class XYLineChart(LineChart):
546
547
def type_to_url(self):
548
return 'cht=lxy'
549
550
551
class BarChart(Chart):
552
553
def __init__(self, *args, **kwargs):
554
assert(type(self) != BarChart) # This is an abstract class
555
Chart.__init__(self, *args, **kwargs)
556
self.bar_width = None
557
558
def set_bar_width(self, bar_width):
559
self.bar_width = bar_width
560
561
def get_url_bits(self):
562
url_bits = Chart.get_url_bits(self)
563
url_bits.append('chbh=%i' % self.bar_width)
564
return url_bits
565
566
567
class StackedHorizontalBarChart(BarChart):
568
569
def type_to_url(self):
570
return 'cht=bhs'
571
572
573
class StackedVerticalBarChart(BarChart):
574
575
def type_to_url(self):
576
return 'cht=bvs'
577
578
579
class GroupedBarChart(BarChart):
580
581
def __init__(self, *args, **kwargs):
582
assert(type(self) != GroupedBarChart) # This is an abstract class
583
BarChart.__init__(self, *args, **kwargs)
584
self.bar_spacing = None
585
586
def set_bar_spacing(self, spacing):
587
self.bar_spacing = spacing
588
589
def get_url_bits(self):
590
# Skip 'BarChart.get_url_bits' and call Chart directly so the parent
591
# doesn't add "chbh" before we do.
592
url_bits = Chart.get_url_bits(self)
593
if self.bar_spacing is not None:
594
if self.bar_width is None:
595
raise InvalidParametersException('Bar width is required to ' \
596
'be set when setting spacing')
597
url_bits.append('chbh=%i,%i' % (self.bar_width, self.bar_spacing))
598
else:
599
url_bits.append('chbh=%i' % self.bar_width)
600
return url_bits
601
602
603
class GroupedHorizontalBarChart(GroupedBarChart):
604
605
def type_to_url(self):
606
return 'cht=bhg'
607
608
609
class GroupedVerticalBarChart(GroupedBarChart):
610
611
def type_to_url(self):
612
return 'cht=bvg'
613
614
615
class PieChart(Chart):
616
617
def __init__(self, *args, **kwargs):
618
assert(type(self) != PieChart) # This is an abstract class
619
Chart.__init__(self, *args, **kwargs)
620
self.pie_labels = []
621
622
def set_pie_labels(self, labels):
623
self.pie_labels = labels
624
625
def get_url_bits(self):
626
url_bits = Chart.get_url_bits(self)
627
if self.pie_labels:
628
url_bits.append('chl=%s' % '|'.join(self.pie_labels))
629
return url_bits
630
631
632
class PieChart2D(PieChart):
633
634
def type_to_url(self):
635
return 'cht=p'
636
637
638
class PieChart3D(PieChart):
639
640
def type_to_url(self):
641
return 'cht=p3'
642
643
644
class VennChart(Chart):
645
646
def type_to_url(self):
647
return 'cht=v'
648
649
650
def test():
651
chart = GroupedVerticalBarChart(320, 200)
652
chart = PieChart2D(320, 200)
653
chart = ScatterChart(320, 200)
654
chart = SimpleLineChart(320, 200)
655
sine_data = [math.sin(float(a) / 10) * 2000 + 2000 for a in xrange(100)]
656
random_data = [a * random.random() * 30 for a in xrange(40)]
657
random_data2 = [random.random() * 4000 for a in xrange(10)]
658
# chart.set_bar_width(50)
659
# chart.set_bar_spacing(0)
660
chart.add_data(sine_data)
661
chart.add_data(random_data)
662
chart.add_data(random_data2)
663
# chart.set_line_style(1, thickness=2)
664
# chart.set_line_style(2, line_segment=10, blank_segment=5)
665
# chart.set_title('heloooo')
666
# chart.set_legend(('sine wave', 'random * x'))
667
# chart.set_colours(('ee2000', 'DDDDAA', 'fF03f2'))
668
# chart.fill_solid(Chart.BACKGROUND, '123456')
669
# chart.fill_linear_gradient(Chart.CHART, 20, '004070', 1, '300040', 0,
670
# 'aabbcc00', 0.5)
671
# chart.fill_linear_stripes(Chart.CHART, 20, '204070', .2, '300040', .2,
672
# 'aabbcc00', 0.2)
673
chart.set_axis_range(Axis.LEFT, 0, 10)
674
chart.set_axis_range(Axis.RIGHT, 5, 30)
675
chart.set_axis_labels(Axis.BOTTOM, [1, 25, 95])
676
chart.set_axis_positions(Axis.BOTTOM, [1, 25, 95])
677
chart.set_axis_style(Axis.BOTTOM, 'FFFFFF', 15)
678
679
# chart.set_pie_labels(('apples', 'oranges', 'bananas'))
680
681
# chart.set_grid(10, 10)
682
683
# for a in xrange(0, 100, 10):
684
# chart.add_marker(1, a, 'a', 'AACA20', 10)
685
686
chart.add_horizontal_range('00A020', .2, .5)
687
chart.add_vertical_range('00c030', .2, .4)
688
689
chart.add_fill_simple('303030A0')
690
691
chart.download('test.png')
692
693
url = chart.get_url()
694
print url
695
if 0:
696
data = urllib.urlopen(chart.get_url()).read()
697
open('meh.png', 'wb').write(data)
698
os.system('start meh.png')
699
700
701
if __name__ == '__main__':
702
test()
1
"""
2
pygooglechart - A complete Python wrapper for the Google Chart API
3
4
http://pygooglechart.slowchop.com/
5
6
Copyright 2007-2009 Gerald Kaszuba
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
from __future__ import division
23
24
import os
25
import urllib
26
import urllib2
27
import math
28
import random
29
import re
30
import warnings
31
import copy
32
33
# Helper variables and functions
34
# -----------------------------------------------------------------------------
35
36
__version__ = '0.3.0'
37
__author__ = 'Gerald Kaszuba'
38
39
reo_colour = re.compile('^([A-Fa-f0-9]{2,2}){3,4}$')
40
41
def _check_colour(colour):
42
if not reo_colour.match(colour):
43
raise InvalidParametersException('Colours need to be in ' \
44
'RRGGBB or RRGGBBAA format. One of your colours has %s' % \
45
colour)
46
47
48
def _reset_warnings():
49
"""Helper function to reset all warnings. Used by the unit tests."""
50
globals()['__warningregistry__'] = None
51
52
53
# Exception Classes
54
# -----------------------------------------------------------------------------
55
56
57
class PyGoogleChartException(Exception):
58
pass
59
60
61
class DataOutOfRangeException(PyGoogleChartException):
62
pass
63
64
65
class UnknownDataTypeException(PyGoogleChartException):
66
pass
67
68
69
class NoDataGivenException(PyGoogleChartException):
70
pass
71
72
73
class InvalidParametersException(PyGoogleChartException):
74
pass
75
76
77
class BadContentTypeException(PyGoogleChartException):
78
pass
79
80
81
class AbstractClassException(PyGoogleChartException):
82
pass
83
84
85
class UnknownChartType(PyGoogleChartException):
86
pass
87
88
class UnknownCountryCodeException(PyGoogleChartException):
89
pass
90
91
# Data Classes
92
# -----------------------------------------------------------------------------
93
94
95
class Data(object):
96
97
def __init__(self, data):
98
if type(self) == Data:
99
raise AbstractClassException('This is an abstract class')
100
self.data = data
101
102
@classmethod
103
def float_scale_value(cls, value, range):
104
lower, upper = range
105
assert(upper > lower)
106
scaled = (value - lower) * (cls.max_value / (upper - lower))
107
return scaled
108
109
@classmethod
110
def clip_value(cls, value):
111
return max(0, min(value, cls.max_value))
112
113
@classmethod
114
def int_scale_value(cls, value, range):
115
return int(round(cls.float_scale_value(value, range)))
116
117
@classmethod
118
def scale_value(cls, value, range):
119
scaled = cls.int_scale_value(value, range)
120
clipped = cls.clip_value(scaled)
121
Data.check_clip(scaled, clipped)
122
return clipped
123
124
@staticmethod
125
def check_clip(scaled, clipped):
126
if clipped != scaled:
127
warnings.warn('One or more of of your data points has been '
128
'clipped because it is out of range.')
129
130
131
class SimpleData(Data):
132
133
max_value = 61
134
enc_map = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789'
135
136
def __repr__(self):
137
encoded_data = []
138
for data in self.data:
139
sub_data = []
140
for value in data:
141
if value is None:
142
sub_data.append('_')
143
elif value >= 0 and value <= self.max_value:
144
sub_data.append(SimpleData.enc_map[value])
145
else:
146
raise DataOutOfRangeException('cannot encode value: %d'
147
% value)
148
encoded_data.append(''.join(sub_data))
149
return 'chd=s:' + ','.join(encoded_data)
150
151
152
class TextData(Data):
153
154
max_value = 100
155
156
def __repr__(self):
157
encoded_data = []
158
for data in self.data:
159
sub_data = []
160
for value in data:
161
if value is None:
162
sub_data.append(-1)
163
elif value >= 0 and value <= self.max_value:
164
sub_data.append("%.1f" % float(value))
165
else:
166
raise DataOutOfRangeException()
167
encoded_data.append(','.join(sub_data))
168
return 'chd=t:' + '%7c'.join(encoded_data)
169
170
@classmethod
171
def scale_value(cls, value, range):
172
# use float values instead of integers because we don't need an encode
173
# map index
174
scaled = cls.float_scale_value(value, range)
175
clipped = cls.clip_value(scaled)
176
Data.check_clip(scaled, clipped)
177
return clipped
178
179
180
class ExtendedData(Data):
181
182
max_value = 4095
183
enc_map = \
184
'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-.'
185
186
def __repr__(self):
187
encoded_data = []
188
enc_size = len(ExtendedData.enc_map)
189
for data in self.data:
190
sub_data = []
191
for value in data:
192
if value is None:
193
sub_data.append('__')
194
elif value >= 0 and value <= self.max_value:
195
first, second = divmod(int(value), enc_size)
196
sub_data.append('%s%s' % (
197
ExtendedData.enc_map[first],
198
ExtendedData.enc_map[second]))
199
else:
200
raise DataOutOfRangeException( \
201
'Item #%i "%s" is out of range' % (data.index(value), \
202
value))
203
encoded_data.append(''.join(sub_data))
204
return 'chd=e:' + ','.join(encoded_data)
205
206
207
# Axis Classes
208
# -----------------------------------------------------------------------------
209
210
211
class Axis(object):
212
213
BOTTOM = 'x'
214
TOP = 't'
215
LEFT = 'y'
216
RIGHT = 'r'
217
TYPES = (BOTTOM, TOP, LEFT, RIGHT)
218
219
def __init__(self, axis_index, axis_type, **kw):
220
assert(axis_type in Axis.TYPES)
221
self.has_style = False
222
self.axis_index = axis_index
223
self.axis_type = axis_type
224
self.positions = None
225
226
def set_index(self, axis_index):
227
self.axis_index = axis_index
228
229
def set_positions(self, positions):
230
self.positions = positions
231
232
def set_style(self, colour, font_size=None, alignment=None):
233
_check_colour(colour)
234
self.colour = colour
235
self.font_size = font_size
236
self.alignment = alignment
237
self.has_style = True
238
239
def style_to_url(self):
240
bits = []
241
bits.append(str(self.axis_index))
242
bits.append(self.colour)
243
if self.font_size is not None:
244
bits.append(str(self.font_size))
245
if self.alignment is not None:
246
bits.append(str(self.alignment))
247
return ','.join(bits)
248
249
def positions_to_url(self):
250
bits = []
251
bits.append(str(self.axis_index))
252
bits += [str(a) for a in self.positions]
253
return ','.join(bits)
254
255
256
class LabelAxis(Axis):
257
258
def __init__(self, axis_index, axis_type, values, **kwargs):
259
Axis.__init__(self, axis_index, axis_type, **kwargs)
260
self.values = [str(a) for a in values]
261
262
def __repr__(self):
263
return '%i:%%7c%s' % (self.axis_index, '%7c'.join(self.values))
264
265
266
class RangeAxis(Axis):
267
268
def __init__(self, axis_index, axis_type, low, high, **kwargs):
269
Axis.__init__(self, axis_index, axis_type, **kwargs)
270
self.low = low
271
self.high = high
272
273
def __repr__(self):
274
return '%i,%s,%s' % (self.axis_index, self.low, self.high)
275
276
# Chart Classes
277
# -----------------------------------------------------------------------------
278
279
280
class Chart(object):
281
"""Abstract class for all chart types.
282
283
width are height specify the dimensions of the image. title sets the title
284
of the chart. legend requires a list that corresponds to datasets.
285
"""
286
287
BASE_URL = 'http://chart.apis.google.com/chart'
288
BACKGROUND = 'bg'
289
CHART = 'c'
290
ALPHA = 'a'
291
VALID_SOLID_FILL_TYPES = (BACKGROUND, CHART, ALPHA)
292
SOLID = 's'
293
LINEAR_GRADIENT = 'lg'
294
LINEAR_STRIPES = 'ls'
295
296
def __init__(self, width, height, title=None, legend=None, colours=None,
297
auto_scale=True, x_range=None, y_range=None,
298
colours_within_series=None):
299
if type(self) == Chart:
300
raise AbstractClassException('This is an abstract class')
301
assert(isinstance(width, int))
302
assert(isinstance(height, int))
303
self.width = width
304
self.height = height
305
self.data = []
306
self.set_title(title)
307
self.set_title_style(None, None)
308
self.set_legend(legend)
309
self.set_legend_position(None)
310
self.set_colours(colours)
311
self.set_colours_within_series(colours_within_series)
312
313
# Data for scaling.
314
self.auto_scale = auto_scale # Whether to automatically scale data
315
self.x_range = x_range # (min, max) x-axis range for scaling
316
self.y_range = y_range # (min, max) y-axis range for scaling
317
self.scaled_data_class = None
318
self.scaled_x_range = None
319
self.scaled_y_range = None
320
321
self.fill_types = {
322
Chart.BACKGROUND: None,
323
Chart.CHART: None,
324
Chart.ALPHA: None,
325
}
326
self.fill_area = {
327
Chart.BACKGROUND: None,
328
Chart.CHART: None,
329
Chart.ALPHA: None,
330
}
331
self.axis = []
332
self.markers = []
333
self.line_styles = {}
334
self.grid = None
335
self.title_colour = None
336
self.title_font_size = None
337
338
# URL generation
339
# -------------------------------------------------------------------------
340
341
def get_url(self, data_class=None):
342
return self.BASE_URL + '?' + self.get_url_extension(data_class)
343
344
def get_url_extension(self, data_class=None):
345
url_bits = self.get_url_bits(data_class=data_class)
346
return '&'.join(url_bits)
347
348
def get_url_bits(self, data_class=None):
349
url_bits = []
350
# required arguments
351
url_bits.append(self.type_to_url())
352
url_bits.append('chs=%ix%i' % (self.width, self.height))
353
url_bits.append(self.data_to_url(data_class=data_class))
354
# optional arguments
355
if self.title:
356
url_bits.append('chtt=%s' % self.title)
357
if self.title_colour and self.title_font_size:
358
url_bits.append('chts=%s,%s' % (self.title_colour, \
359
self.title_font_size))
360
if self.legend:
361
url_bits.append('chdl=%s' % '%7c'.join(self.legend))
362
if self.legend_position:
363
url_bits.append('chdlp=%s' % (self.legend_position))
364
if self.colours:
365
url_bits.append('chco=%s' % ','.join(self.colours))
366
if self.colours_within_series:
367
url_bits.append('chco=%s' % '%7c'.join(self.colours_within_series))
368
ret = self.fill_to_url()
369
if ret:
370
url_bits.append(ret)
371
ret = self.axis_to_url()
372
if ret:
373
url_bits.append(ret)
374
if self.markers:
375
url_bits.append(self.markers_to_url())
376
if self.line_styles:
377
style = []
378
for index in xrange(max(self.line_styles) + 1):
379
if index in self.line_styles:
380
values = self.line_styles[index]
381
else:
382
values = ('1', )
383
style.append(','.join(values))
384
url_bits.append('chls=%s' % '%7c'.join(style))
385
if self.grid:
386
url_bits.append('chg=%s' % self.grid)
387
return url_bits
388
389
# Downloading
390
# -------------------------------------------------------------------------
391
392
def download(self, file_name, use_post=True):
393
if use_post:
394
opener = urllib2.urlopen(self.BASE_URL, self.get_url_extension())
395
else:
396
opener = urllib2.urlopen(self.get_url())
397
398
if opener.headers['content-type'] != 'image/png':
399
raise BadContentTypeException('Server responded with a ' \
400
'content-type of %s' % opener.headers['content-type'])
401
402
open(file_name, 'wb').write(opener.read())
403
404
# Simple settings
405
# -------------------------------------------------------------------------
406
407
def set_title(self, title):
408
if title:
409
self.title = urllib.quote(title)
410
else:
411
self.title = None
412
413
def set_title_style(self, colour=None, font_size=None):
414
if not colour is None:
415
_check_colour(colour)
416
if not colour and not font_size:
417
return
418
self.title_colour = colour or '333333'
419
self.title_font_size = font_size or 13.5
420
421
def set_legend(self, legend):
422
"""legend needs to be a list, tuple or None"""
423
assert(isinstance(legend, list) or isinstance(legend, tuple) or
424
legend is None)
425
if legend:
426
self.legend = [urllib.quote(a) for a in legend]
427
else:
428
self.legend = None
429
430
def set_legend_position(self, legend_position):
431
if legend_position:
432
self.legend_position = urllib.quote(legend_position)
433
else:
434
self.legend_position = None
435
436
# Chart colours
437
# -------------------------------------------------------------------------
438
439
def set_colours(self, colours):
440
# colours needs to be a list, tuple or None
441
assert(isinstance(colours, list) or isinstance(colours, tuple) or
442
colours is None)
443
# make sure the colours are in the right format
444
if colours:
445
for col in colours:
446
_check_colour(col)
447
self.colours = colours
448
449
def set_colours_within_series(self, colours):
450
# colours needs to be a list, tuple or None
451
assert(isinstance(colours, list) or isinstance(colours, tuple) or
452
colours is None)
453
# make sure the colours are in the right format
454
if colours:
455
for col in colours:
456
_check_colour(col)
457
self.colours_within_series = colours
458
459
# Background/Chart colours
460
# -------------------------------------------------------------------------
461
462
def fill_solid(self, area, colour):
463
assert(area in Chart.VALID_SOLID_FILL_TYPES)
464
_check_colour(colour)
465
self.fill_area[area] = colour
466
self.fill_types[area] = Chart.SOLID
467
468
def _check_fill_linear(self, angle, *args):
469
assert(isinstance(args, list) or isinstance(args, tuple))
470
assert(angle >= 0 and angle <= 90)
471
assert(len(args) % 2 == 0)
472
args = list(args) # args is probably a tuple and we need to mutate
473
for a in xrange(int(len(args) / 2)):
474
col = args[a * 2]
475
offset = args[a * 2 + 1]
476
_check_colour(col)
477
assert(offset >= 0 and offset <= 1)
478
args[a * 2 + 1] = str(args[a * 2 + 1])
479
return args
480
481
def fill_linear_gradient(self, area, angle, *args):
482
assert(area in Chart.VALID_SOLID_FILL_TYPES)
483
args = self._check_fill_linear(angle, *args)
484
self.fill_types[area] = Chart.LINEAR_GRADIENT
485
self.fill_area[area] = ','.join([str(angle)] + args)
486
487
def fill_linear_stripes(self, area, angle, *args):
488
assert(area in Chart.VALID_SOLID_FILL_TYPES)
489
args = self._check_fill_linear(angle, *args)
490
self.fill_types[area] = Chart.LINEAR_STRIPES
491
self.fill_area[area] = ','.join([str(angle)] + args)
492
493
def fill_to_url(self):
494
areas = []
495
for area in (Chart.BACKGROUND, Chart.CHART, Chart.ALPHA):
496
if self.fill_types[area]:
497
areas.append('%s,%s,%s' % (area, self.fill_types[area], \
498
self.fill_area[area]))
499
if areas:
500
return 'chf=' + '%7c'.join(areas)
501
502
# Data
503
# -------------------------------------------------------------------------
504
505
def data_class_detection(self, data):
506
"""Determines the appropriate data encoding type to give satisfactory
507
resolution (http://code.google.com/apis/chart/#chart_data).
508
"""
509
assert(isinstance(data, list) or isinstance(data, tuple))
510
if not isinstance(self, (LineChart, BarChart, ScatterChart)):
511
# From the link above:
512
# Simple encoding is suitable for all other types of chart
513
# regardless of size.
514
return SimpleData
515
elif self.height < 100:
516
# The link above indicates that line and bar charts less
517
# than 300px in size can be suitably represented with the
518
# simple encoding. I've found that this isn't sufficient,
519
# e.g. examples/line-xy-circle.png. Let's try 100px.
520
return SimpleData
521
else:
522
return ExtendedData
523
524
def _filter_none(self, data):
525
return [r for r in data if r is not None]
526
527
def data_x_range(self):
528
"""Return a 2-tuple giving the minimum and maximum x-axis
529
data range.
530
"""
531
try:
532
lower = min([min(self._filter_none(s))
533
for type, s in self.annotated_data()
534
if type == 'x'])
535
upper = max([max(self._filter_none(s))
536
for type, s in self.annotated_data()
537
if type == 'x'])
538
return (lower, upper)
539
except ValueError:
540
return None # no x-axis datasets
541
542
def data_y_range(self):
543
"""Return a 2-tuple giving the minimum and maximum y-axis
544
data range.
545
"""
546
try:
547
lower = min([min(self._filter_none(s))
548
for type, s in self.annotated_data()
549
if type == 'y'])
550
upper = max([max(self._filter_none(s)) + 1
551
for type, s in self.annotated_data()
552
if type == 'y'])
553
return (lower, upper)
554
except ValueError:
555
return None # no y-axis datasets
556
557
def scaled_data(self, data_class, x_range=None, y_range=None):
558
"""Scale `self.data` as appropriate for the given data encoding
559
(data_class) and return it.
560
561
An optional `y_range` -- a 2-tuple (lower, upper) -- can be
562
given to specify the y-axis bounds. If not given, the range is
563
inferred from the data: (0, <max-value>) presuming no negative
564
values, or (<min-value>, <max-value>) if there are negative
565
values. `self.scaled_y_range` is set to the actual lower and
566
upper scaling range.
567
568
Ditto for `x_range`. Note that some chart types don't have x-axis
569
data.
570
"""
571
self.scaled_data_class = data_class
572
573
# Determine the x-axis range for scaling.
574
if x_range is None:
575
x_range = self.data_x_range()
576
if x_range and x_range[0] > 0:
577
x_range = (x_range[0], x_range[1])
578
self.scaled_x_range = x_range
579
580
# Determine the y-axis range for scaling.
581
if y_range is None:
582
y_range = self.data_y_range()
583
if y_range and y_range[0] > 0:
584
y_range = (y_range[0], y_range[1])
585
self.scaled_y_range = y_range
586
587
scaled_data = []
588
for type, dataset in self.annotated_data():
589
if type == 'x':
590
scale_range = x_range
591
elif type == 'y':
592
scale_range = y_range
593
elif type == 'marker-size':
594
scale_range = (0, max(dataset))
595
scaled_dataset = []
596
for v in dataset:
597
if v is None:
598
scaled_dataset.append(None)
599
else:
600
scaled_dataset.append(
601
data_class.scale_value(v, scale_range))
602
scaled_data.append(scaled_dataset)
603
return scaled_data
604
605
def add_data(self, data):
606
self.data.append(data)
607
return len(self.data) - 1 # return the "index" of the data set
608
609
def data_to_url(self, data_class=None):
610
if not data_class:
611
data_class = self.data_class_detection(self.data)
612
if not issubclass(data_class, Data):
613
raise UnknownDataTypeException()
614
if self.auto_scale:
615
data = self.scaled_data(data_class, self.x_range, self.y_range)
616
else:
617
data = self.data
618
return repr(data_class(data))
619
620
def annotated_data(self):
621
for dataset in self.data:
622
yield ('x', dataset)
623
624
# Axis Labels
625
# -------------------------------------------------------------------------
626
627
def set_axis_labels(self, axis_type, values):
628
assert(axis_type in Axis.TYPES)
629
values = [urllib.quote(str(a)) for a in values]
630
axis_index = len(self.axis)
631
axis = LabelAxis(axis_index, axis_type, values)
632
self.axis.append(axis)
633
return axis_index
634
635
def set_axis_range(self, axis_type, low, high):
636
assert(axis_type in Axis.TYPES)
637
axis_index = len(self.axis)
638
axis = RangeAxis(axis_index, axis_type, low, high)
639
self.axis.append(axis)
640
return axis_index
641
642
def set_axis_positions(self, axis_index, positions):
643
try:
644
self.axis[axis_index].set_positions(positions)
645
except IndexError:
646
raise InvalidParametersException('Axis index %i has not been ' \
647
'created' % axis)
648
649
def set_axis_style(self, axis_index, colour, font_size=None, \
650
alignment=None):
651
try:
652
self.axis[axis_index].set_style(colour, font_size, alignment)
653
except IndexError:
654
raise InvalidParametersException('Axis index %i has not been ' \
655
'created' % axis)
656
657
def axis_to_url(self):
658
available_axis = []
659
label_axis = []
660
range_axis = []
661
positions = []
662
styles = []
663
index = -1
664
for axis in self.axis:
665
available_axis.append(axis.axis_type)
666
if isinstance(axis, RangeAxis):
667
range_axis.append(repr(axis))
668
if isinstance(axis, LabelAxis):
669
label_axis.append(repr(axis))
670
if axis.positions:
671
positions.append(axis.positions_to_url())
672
if axis.has_style:
673
styles.append(axis.style_to_url())
674
if not available_axis:
675
return
676
url_bits = []
677
url_bits.append('chxt=%s' % ','.join(available_axis))
678
if label_axis:
679
url_bits.append('chxl=%s' % '%7c'.join(label_axis))
680
if range_axis:
681
url_bits.append('chxr=%s' % '%7c'.join(range_axis))
682
if positions:
683
url_bits.append('chxp=%s' % '%7c'.join(positions))
684
if styles:
685
url_bits.append('chxs=%s' % '%7c'.join(styles))
686
return '&'.join(url_bits)
687
688
# Markers, Ranges and Fill area (chm)
689
# -------------------------------------------------------------------------
690
691
def markers_to_url(self):
692
return 'chm=%s' % '%7c'.join([','.join(a) for a in self.markers])
693
694
def add_marker(self, index, point, marker_type, colour, size, priority=0):
695
self.markers.append((marker_type, colour, str(index), str(point), \
696
str(size), str(priority)))
697
698
def add_horizontal_range(self, colour, start, stop):
699
self.markers.append(('r', colour, '0', str(start), str(stop)))
700
701
def add_data_line(self, colour, data_set, size, priority=0):
702
self.markers.append(('D', colour, str(data_set), '0', str(size), \
703
str(priority)))
704
705
def add_marker_text(self, string, colour, data_set, data_point, size, \
706
priority=0):
707
self.markers.append((str(string), colour, str(data_set), \
708
str(data_point), str(size), str(priority)))
709
710
def add_vertical_range(self, colour, start, stop):
711
self.markers.append(('R', colour, '0', str(start), str(stop)))
712
713
def add_fill_range(self, colour, index_start, index_end):
714
self.markers.append(('b', colour, str(index_start), str(index_end), \
715
'1'))
716
717
def add_fill_simple(self, colour):
718
self.markers.append(('B', colour, '1', '1', '1'))
719
720
# Line styles
721
# -------------------------------------------------------------------------
722
723
def set_line_style(self, index, thickness=1, line_segment=None, \
724
blank_segment=None):
725
value = []
726
value.append(str(thickness))
727
if line_segment:
728
value.append(str(line_segment))
729
value.append(str(blank_segment))
730
self.line_styles[index] = value
731
732
# Grid
733
# -------------------------------------------------------------------------
734
735
def set_grid(self, x_step, y_step, line_segment=1, \
736
blank_segment=0):
737
self.grid = '%s,%s,%s,%s' % (x_step, y_step, line_segment, \
738
blank_segment)
739
740
741
class ScatterChart(Chart):
742
743
def type_to_url(self):
744
return 'cht=s'
745
746
def annotated_data(self):
747
yield ('x', self.data[0])
748
yield ('y', self.data[1])
749
if len(self.data) > 2:
750
# The optional third dataset is relative sizing for point
751
# markers.
752
yield ('marker-size', self.data[2])
753
754
755
class LineChart(Chart):
756
757
def __init__(self, *args, **kwargs):
758
if type(self) == LineChart:
759
raise AbstractClassException('This is an abstract class')
760
Chart.__init__(self, *args, **kwargs)
761
762
763
class SimpleLineChart(LineChart):
764
765
def type_to_url(self):
766
return 'cht=lc'
767
768
def annotated_data(self):
769
# All datasets are y-axis data.
770
for dataset in self.data:
771
yield ('y', dataset)
772
773
774
class SparkLineChart(SimpleLineChart):
775
776
def type_to_url(self):
777
return 'cht=ls'
778
779
780
class XYLineChart(LineChart):
781
782
def type_to_url(self):
783
return 'cht=lxy'
784
785
def annotated_data(self):
786
# Datasets alternate between x-axis, y-axis.
787
for i, dataset in enumerate(self.data):
788
if i % 2 == 0:
789
yield ('x', dataset)
790
else:
791
yield ('y', dataset)
792
793
794
class BarChart(Chart):
795
796
def __init__(self, *args, **kwargs):
797
if type(self) == BarChart:
798
raise AbstractClassException('This is an abstract class')
799
Chart.__init__(self, *args, **kwargs)
800
self.bar_width = None
801
self.zero_lines = {}
802
803
def set_bar_width(self, bar_width):
804
self.bar_width = bar_width
805
806
def set_zero_line(self, index, zero_line):
807
self.zero_lines[index] = zero_line
808
809
def get_url_bits(self, data_class=None, skip_chbh=False):
810
url_bits = Chart.get_url_bits(self, data_class=data_class)
811
if not skip_chbh and self.bar_width is not None:
812
url_bits.append('chbh=%i' % self.bar_width)
813
zero_line = []
814
if self.zero_lines:
815
for index in xrange(max(self.zero_lines) + 1):
816
if index in self.zero_lines:
817
zero_line.append(str(self.zero_lines[index]))
818
else:
819
zero_line.append('0')
820
url_bits.append('chp=%s' % ','.join(zero_line))
821
return url_bits
822
823
824
class StackedHorizontalBarChart(BarChart):
825
826
def type_to_url(self):
827
return 'cht=bhs'
828
829
830
class StackedVerticalBarChart(BarChart):
831
832
def type_to_url(self):
833
return 'cht=bvs'
834
835
def annotated_data(self):
836
for dataset in self.data:
837
yield ('y', dataset)
838
839
840
class GroupedBarChart(BarChart):
841
842
def __init__(self, *args, **kwargs):
843
if type(self) == GroupedBarChart:
844
raise AbstractClassException('This is an abstract class')
845
BarChart.__init__(self, *args, **kwargs)
846
self.bar_spacing = None
847
self.group_spacing = None
848
849
def set_bar_spacing(self, spacing):
850
"""Set spacing between bars in a group."""
851
self.bar_spacing = spacing
852
853
def set_group_spacing(self, spacing):
854
"""Set spacing between groups of bars."""
855
self.group_spacing = spacing
856
857
def get_url_bits(self, data_class=None):
858
# Skip 'BarChart.get_url_bits' and call Chart directly so the parent
859
# doesn't add "chbh" before we do.
860
url_bits = BarChart.get_url_bits(self, data_class=data_class,
861
skip_chbh=True)
862
if self.group_spacing is not None:
863
if self.bar_spacing is None:
864
raise InvalidParametersException('Bar spacing is required ' \
865
'to be set when setting group spacing')
866
if self.bar_width is None:
867
raise InvalidParametersException('Bar width is required to ' \
868
'be set when setting bar spacing')
869
url_bits.append('chbh=%i,%i,%i'
870
% (self.bar_width, self.bar_spacing, self.group_spacing))
871
elif self.bar_spacing is not None:
872
if self.bar_width is None:
873
raise InvalidParametersException('Bar width is required to ' \
874
'be set when setting bar spacing')
875
url_bits.append('chbh=%i,%i' % (self.bar_width, self.bar_spacing))
876
elif self.bar_width:
877
url_bits.append('chbh=%i' % self.bar_width)
878
return url_bits
879
880
881
class GroupedHorizontalBarChart(GroupedBarChart):
882
883
def type_to_url(self):
884
return 'cht=bhg'
885
886
887
class GroupedVerticalBarChart(GroupedBarChart):
888
889
def type_to_url(self):
890
return 'cht=bvg'
891
892
def annotated_data(self):
893
for dataset in self.data:
894
yield ('y', dataset)
895
896
897
class PieChart(Chart):
898
899
def __init__(self, *args, **kwargs):
900
if type(self) == PieChart:
901
raise AbstractClassException('This is an abstract class')
902
Chart.__init__(self, *args, **kwargs)
903
self.pie_labels = []
904
if self.y_range:
905
warnings.warn('y_range is not used with %s.' % \
906
(self.__class__.__name__))
907
908
def set_pie_labels(self, labels):
909
self.pie_labels = [urllib.quote(a) for a in labels]
910
911
def get_url_bits(self, data_class=None):
912
url_bits = Chart.get_url_bits(self, data_class=data_class)
913
if self.pie_labels:
914
url_bits.append('chl=%s' % '%7c'.join(self.pie_labels))
915
return url_bits
916
917
def annotated_data(self):
918
# Datasets are all y-axis data. However, there should only be
919
# one dataset for pie charts.
920
for dataset in self.data:
921
yield ('x', dataset)
922
923
def scaled_data(self, data_class, x_range=None, y_range=None):
924
if not x_range:
925
x_range = [0, sum(self.data[0])]
926
return Chart.scaled_data(self, data_class, x_range, self.y_range)
927
928
929
class PieChart2D(PieChart):
930
931
def type_to_url(self):
932
return 'cht=p'
933
934
935
class PieChart3D(PieChart):
936
937
def type_to_url(self):
938
return 'cht=p3'
939
940
941
class VennChart(Chart):
942
943
def type_to_url(self):
944
return 'cht=v'
945
946
def annotated_data(self):
947
for dataset in self.data:
948
yield ('y', dataset)
949
950
951
class RadarChart(Chart):
952
953
def type_to_url(self):
954
return 'cht=r'
955
956
957
class SplineRadarChart(RadarChart):
958
959
def type_to_url(self):
960
return 'cht=rs'
961
962
963
class MapChart(Chart):
964
965
def __init__(self, *args, **kwargs):
966
Chart.__init__(self, *args, **kwargs)
967
self.geo_area = 'world'
968
self.codes = []
969
self.__areas = ('africa', 'asia', 'europe', 'middle_east',
970
'south_america', 'usa', 'world')
971
self.__ccodes = (
972
'AD', 'AE', 'AF', 'AG', 'AI', 'AL', 'AM', 'AN', 'AO', 'AQ', 'AR',
973
'AS', 'AT', 'AU', 'AW', 'AX', 'AZ', 'BA', 'BB', 'BD', 'BE', 'BF',
974
'BG', 'BH', 'BI', 'BJ', 'BL', 'BM', 'BN', 'BO', 'BR', 'BS', 'BT',
975
'BV', 'BW', 'BY', 'BZ', 'CA', 'CC', 'CD', 'CF', 'CG', 'CH', 'CI',
976
'CK', 'CL', 'CM', 'CN', 'CO', 'CR', 'CU', 'CV', 'CX', 'CY', 'CZ',
977
'DE', 'DJ', 'DK', 'DM', 'DO', 'DZ', 'EC', 'EE', 'EG', 'EH', 'ER',
978
'ES', 'ET', 'FI', 'FJ', 'FK', 'FM', 'FO', 'FR', 'GA', 'GB', 'GD',
979
'GE', 'GF', 'GG', 'GH', 'GI', 'GL', 'GM', 'GN', 'GP', 'GQ', 'GR',
980
'GS', 'GT', 'GU', 'GW', 'GY', 'HK', 'HM', 'HN', 'HR', 'HT', 'HU',
981
'ID', 'IE', 'IL', 'IM', 'IN', 'IO', 'IQ', 'IR', 'IS', 'IT', 'JE',
982
'JM', 'JO', 'JP', 'KE', 'KG', 'KH', 'KI', 'KM', 'KN', 'KP', 'KR',
983
'KW', 'KY', 'KZ', 'LA', 'LB', 'LC', 'LI', 'LK', 'LR', 'LS', 'LT',
984
'LU', 'LV', 'LY', 'MA', 'MC', 'MD', 'ME', 'MF', 'MG', 'MH', 'MK',
985
'ML', 'MM', 'MN', 'MO', 'MP', 'MQ', 'MR', 'MS', 'MT', 'MU', 'MV',
986
'MW', 'MX', 'MY', 'MZ', 'NA', 'NC', 'NE', 'NF', 'NG', 'NI', 'NL',
987
'NO', 'NP', 'NR', 'NU', 'NZ', 'OM', 'PA', 'PE', 'PF', 'PG', 'PH',
988
'PK', 'PL', 'PM', 'PN', 'PR', 'PS', 'PT', 'PW', 'PY', 'QA', 'RE',
989
'RO', 'RS', 'RU', 'RW', 'SA', 'SB', 'SC', 'SD', 'SE', 'SG', 'SH',
990
'SI', 'SJ', 'SK', 'SL', 'SM', 'SN', 'SO', 'SR', 'ST', 'SV', 'SY',
991
'SZ', 'TC', 'TD', 'TF', 'TG', 'TH', 'TJ', 'TK', 'TL', 'TM', 'TN',
992
'TO', 'TR', 'TT', 'TV', 'TW', 'TZ', 'UA', 'UG', 'UM', 'US', 'UY',
993
'UZ', 'VA', 'VC', 'VE', 'VG', 'VI', 'VN', 'VU', 'WF', 'WS', 'YE',
994
'YT', 'ZA', 'ZM', 'ZW')
995
996
def type_to_url(self):
997
return 'cht=t'
998
999
def set_codes(self, codes):
1000
'''Set the country code map for the data.
1001
Codes given in a list.
1002
1003
i.e. DE - Germany
1004
AT - Austria
1005
US - United States
1006
'''
1007
1008
codemap = ''
1009
1010
for cc in codes:
1011
cc = cc.upper()
1012
if cc in self.__ccodes:
1013
codemap += cc
1014
else:
1015
raise UnknownCountryCodeException(cc)
1016
1017
self.codes = codemap
1018
1019
def set_geo_area(self, area):
1020
'''Sets the geo area for the map.
1021
1022
* africa
1023
* asia
1024
* europe
1025
* middle_east
1026
* south_america
1027
* usa
1028
* world
1029
'''
1030
1031
if area in self.__areas:
1032
self.geo_area = area
1033
else:
1034
raise UnknownChartType('Unknown chart type for maps: %s' %area)
1035
1036
def get_url_bits(self, data_class=None):
1037
url_bits = Chart.get_url_bits(self, data_class=data_class)
1038
url_bits.append('chtm=%s' % self.geo_area)
1039
if self.codes:
1040
url_bits.append('chld=%s' % ''.join(self.codes))
1041
return url_bits
1042
1043
def add_data_dict(self, datadict):
1044
'''Sets the data and country codes via a dictionary.
1045
1046
i.e. {'DE': 50, 'GB': 30, 'AT': 70}
1047
'''
1048
1049
self.set_codes(datadict.keys())
1050
self.add_data(datadict.values())
1051
1052
1053
class GoogleOMeterChart(PieChart):
1054
"""Inheriting from PieChart because of similar labeling"""
1055
1056
def __init__(self, *args, **kwargs):
1057
PieChart.__init__(self, *args, **kwargs)
1058
if self.auto_scale and not self.x_range:
1059
warnings.warn('Please specify an x_range with GoogleOMeterChart, '
1060
'otherwise one arrow will always be at the max.')
1061
1062
def type_to_url(self):
1063
return 'cht=gom'
1064
1065
1066
class QRChart(Chart):
1067
1068
def __init__(self, *args, **kwargs):
1069
Chart.__init__(self, *args, **kwargs)
1070
self.encoding = None
1071
self.ec_level = None
1072
self.margin = None
1073
1074
def type_to_url(self):
1075
return 'cht=qr'
1076
1077
def data_to_url(self, data_class=None):
1078
if not self.data:
1079
raise NoDataGivenException()
1080
return 'chl=%s' % urllib.quote(self.data[0])
1081
1082
def get_url_bits(self, data_class=None):
1083
url_bits = Chart.get_url_bits(self, data_class=data_class)
1084
if self.encoding:
1085
url_bits.append('choe=%s' % self.encoding)
1086
if self.ec_level:
1087
url_bits.append('chld=%s%%7c%s' % (self.ec_level, self.margin))
1088
return url_bits
1089
1090
def set_encoding(self, encoding):
1091
self.encoding = encoding
1092
1093
def set_ec(self, level, margin):
1094
self.ec_level = level
1095
self.margin = margin
1096
1097
1098
class ChartGrammar(object):
1099
1100
def __init__(self):
1101
self.grammar = None
1102
self.chart = None
1103
1104
def parse(self, grammar):
1105
self.grammar = grammar
1106
self.chart = self.create_chart_instance()
1107
1108
for attr in self.grammar:
1109
if attr in ('w', 'h', 'type', 'auto_scale', 'x_range', 'y_range'):
1110
continue # These are already parsed in create_chart_instance
1111
attr_func = 'parse_' + attr
1112
if not hasattr(self, attr_func):
1113
warnings.warn('No parser for grammar attribute "%s"' % (attr))
1114
continue
1115
getattr(self, attr_func)(grammar[attr])
1116
1117
return self.chart
1118
1119
def parse_data(self, data):
1120
self.chart.data = data
1121
1122
@staticmethod
1123
def get_possible_chart_types():
1124
possible_charts = []
1125
for cls_name in globals().keys():
1126
if not cls_name.endswith('Chart'):
1127
continue
1128
cls = globals()[cls_name]
1129
# Check if it is an abstract class
1130
try:
1131
a = cls(1, 1, auto_scale=False)
1132
del a
1133
except AbstractClassException:
1134
continue
1135
# Strip off "Class"
1136
possible_charts.append(cls_name[:-5])
1137
return possible_charts
1138
1139
def create_chart_instance(self, grammar=None):
1140
if not grammar:
1141
grammar = self.grammar
1142
assert(isinstance(grammar, dict)) # grammar must be a dict
1143
assert('w' in grammar) # width is required
1144
assert('h' in grammar) # height is required
1145
assert('type' in grammar) # type is required
1146
chart_type = grammar['type']
1147
w = grammar['w']
1148
h = grammar['h']
1149
auto_scale = grammar.get('auto_scale', None)
1150
x_range = grammar.get('x_range', None)
1151
y_range = grammar.get('y_range', None)
1152
types = ChartGrammar.get_possible_chart_types()
1153
if chart_type not in types:
1154
raise UnknownChartType('%s is an unknown chart type. Possible '
1155
'chart types are %s' % (chart_type, ','.join(types)))
1156
return globals()[chart_type + 'Chart'](w, h, auto_scale=auto_scale,
1157
x_range=x_range, y_range=y_range)
1158
1159
def download(self):
1160
pass
1161
Loggerhead is a web-based interface for Breezy
Version: 2.0.2.dev0