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Python to generate nice looking SVG graph
http://pygal.org/
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309 lines
8.8 KiB
309 lines
8.8 KiB
#!python |
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import re |
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from dateutil.parser import parse |
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from dateutil.relativedelta import relativedelta |
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from lxml import etree |
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from svg.charts.graph import Graph |
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from util import grouper, date_range, divide_timedelta_float, TimeScale |
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__all__ = ('Schedule') |
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class Schedule(Graph): |
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""" |
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# === For creating SVG plots of scalar temporal data |
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= Synopsis |
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require 'SVG/Graph/Schedule' |
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# Data sets are label, start, end tripples. |
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data1 = [ |
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"Housesitting", "6/17/04", "6/19/04", |
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"Summer Session", "6/15/04", "8/15/04", |
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] |
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graph = SVG::Graph::Schedule.new( { |
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:width => 640, |
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:height => 480, |
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:graph_title => title, |
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:show_graph_title => true, |
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:no_css => true, |
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:scale_x_integers => true, |
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:scale_y_integers => true, |
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:min_x_value => 0, |
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:min_y_value => 0, |
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:show_data_labels => true, |
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:show_x_guidelines => true, |
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:show_x_title => true, |
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:x_title => "Time", |
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:stagger_x_labels => true, |
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:stagger_y_labels => true, |
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:x_label_format => "%m/%d/%y", |
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}) |
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graph.add_data({ |
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:data => data1, |
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:title => 'Data', |
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}) |
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print graph.burn() |
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= Description |
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Produces a graph of temporal scalar data. |
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= Examples |
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http://www.germane-software/repositories/public/SVG/test/schedule.rb |
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= Notes |
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The default stylesheet handles upto 10 data sets, if you |
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use more you must create your own stylesheet and add the |
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additional settings for the extra data sets. You will know |
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if you go over 10 data sets as they will have no style and |
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be in black. |
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Note that multiple data sets within the same chart can differ in |
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length, and that the data in the datasets needn't be in order; |
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they will be ordered by the plot along the X-axis. |
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The dates must be parseable by ParseDate, but otherwise can be |
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any order of magnitude (seconds within the hour, or years) |
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= See also |
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* SVG::Graph::Graph |
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* SVG::Graph::BarHorizontal |
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* SVG::Graph::Bar |
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* SVG::Graph::Line |
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* SVG::Graph::Pie |
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* SVG::Graph::Plot |
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* SVG::Graph::TimeSeries |
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== Author |
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Sean E. Russell <serATgermaneHYPHENsoftwareDOTcom> |
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Copyright 2004 Sean E. Russell |
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This software is available under the Ruby license[LICENSE.txt] |
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""" |
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"The format string to be used to format the X axis labels" |
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x_label_format = '%Y-%m-%d %H:%M:%S' |
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""" |
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Use this to set the spacing between dates on the axis. The value |
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must be of the form |
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"\d+ ?((year|month|week|day|hour|minute|second)s?)?" |
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e.g. |
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graph.timescale_divisions = '2 weeks' |
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graph.timescale_divisions = '1 month' |
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graph.timescale_divisions = '3600 seconds' # easier would be '1 hour' |
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""" |
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timescale_divisions = None |
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"The formatting used for the popups. See x_label_format" |
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popup_format = '%Y-%m-%d %H:%M:%S' |
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_min_x_value = None |
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scale_x_divisions = False |
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scale_x_integers = False |
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bar_gap = True |
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stylesheet_names = Graph.stylesheet_names + ['bar.css'] |
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def add_data(self, data): |
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""" |
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Add data to the plot. |
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# A data set with 1 point: Lunch from 12:30 to 14:00 |
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d1 = [ "Lunch", "12:30", "14:00" ] |
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# A data set with 2 points: "Cats" runs from 5/11/03 to 7/15/04, and |
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# "Henry V" runs from 6/12/03 to 8/20/03 |
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d2 = [ "Cats", "5/11/03", "7/15/04", |
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"Henry V", "6/12/03", "8/20/03" ] |
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graph.add_data( |
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:data => d1, |
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:title => 'Meetings' |
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) |
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graph.add_data( |
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:data => d2, |
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:title => 'Plays' |
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) |
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Note that the data must be in time,value pairs, and that the date format |
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may be any date that is parseable by ParseDate. |
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Also note that, in this example, we're mixing scales; the data from d1 |
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will probably not be discernable if both data sets are plotted on the same |
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graph, since d1 is too granular. |
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""" |
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# The ruby version does something different here, throwing out |
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# any previously added data. |
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super(Schedule, self).add_data(data) |
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# copied from Bar |
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# TODO, refactor this into a common base class (or mix-in) |
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def get_bar_gap(self, field_size): |
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bar_gap = 10 # default gap |
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if field_size < 10: |
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# adjust for narrow fields |
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bar_gap = field_size / 2 |
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# the following zero's out the gap if bar_gap is False |
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bar_gap = int(self.bar_gap) * bar_gap |
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return bar_gap |
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def validate_data(self, conf): |
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super(Schedule, self).validate_data(conf) |
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msg = "Data supplied must be (title, from, to) tripples!" |
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assert len(conf['data']) % 3 == 0, msg |
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def process_data(self, conf): |
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super(Schedule, self).process_data(conf) |
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data = conf['data'] |
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triples = grouper(3, data) |
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labels, begin_dates, end_dates = zip(*triples) |
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begin_dates = map(self.parse_date, begin_dates) |
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end_dates = map(self.parse_date, end_dates) |
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# reconstruct the triples in a new order |
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reordered_triples = zip(begin_dates, end_dates, labels) |
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# because of the reordering, this will sort by begin_date |
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# then end_date, then label. |
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reordered_triples.sort() |
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conf['data'] = reordered_triples |
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def parse_date(self, date_string): |
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return parse(date_string) |
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def set_min_x_value(self, value): |
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if isinstance(value, basestring): |
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value = self.parse_date(value) |
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self._min_x_value = value |
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def get_min_x_value(self): |
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return self._min_x_value |
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min_x_value = property(get_min_x_value, set_min_x_value) |
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def format(self, x, y): |
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return x.strftime(self.popup_format) |
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def get_x_labels(self): |
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format = lambda x: x.strftime(self.x_label_format) |
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return map(format, self.get_x_values()) |
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def y_label_offset(self, height): |
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return height / -2.0 |
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def get_y_labels(self): |
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# ruby version uses the last data supplied |
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last = -1 |
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data = self.data[last]['data'] |
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begin_dates, start_dates, labels = zip(*data) |
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return labels |
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def draw_data(self): |
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bar_gap = self.get_bar_gap(self.get_field_height()) |
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subbar_height = self.get_field_height() - bar_gap |
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y_mod = (subbar_height / 2) + (self.font_size / 2) |
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x_min,x_max,div = self._x_range() |
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x_range = x_max - x_min |
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width = (float(self.graph_width) - self.font_size*2) |
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# time_scale |
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#scale /= x_range |
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scale = TimeScale(width, x_range) |
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# ruby version uses the last data supplied |
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last = -1 |
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data = self.data[last]['data'] |
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for index, (x_start, x_end, label) in enumerate(data): |
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count = index + 1 # index is 0-based, count is 1-based |
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y = self.graph_height - (self.get_field_height()*count) |
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bar_width = scale*(x_end-x_start) |
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bar_start = scale*(x_start-x_min) |
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etree.SubElement(self.graph, 'rect', { |
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'x': str(bar_start), |
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'y': str(y), |
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'width': str(bar_width), |
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'height': str(subbar_height), |
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'class': 'fill%s' % (count+1), |
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}) |
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def _x_range(self): |
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# ruby version uses teh last data supplied |
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last = -1 |
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data = self.data[last]['data'] |
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start_dates, end_dates, labels = zip(*data) |
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all_dates = start_dates + end_dates |
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max_value = max(all_dates) |
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if not self.min_x_value is None: |
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all_dates.append(self.min_x_value) |
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min_value = min(all_dates) |
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range = max_value - min_value |
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right_pad = divide_timedelta_float(range, 20.0) or relativedelta(days=10) |
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scale_range = (max_value + right_pad) - min_value |
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#scale_division = self.scale_x_divisions or (scale_range / 10.0) |
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# todo, remove timescale_x_divisions and use scale_x_divisions only |
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# but as a time delta |
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scale_division = divide_timedelta_float(scale_range, 10.0) |
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# this doesn't make sense, because x is a timescale |
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#if self.scale_x_integers: |
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# scale_division = min(round(scale_division), 1) |
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return min_value, max_value, scale_division |
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def get_x_values(self): |
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x_min, x_max, scale_division = self._x_range() |
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if self.timescale_divisions: |
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pattern = re.compile('(\d+) ?(\w+)') |
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m = pattern.match(self.timescale_divisions) |
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if not m: |
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raise ValueError, "Invalid timescale_divisions: %s" % self.timescale_divisions |
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magnitude = int(m.group(1)) |
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units = m.group(2) |
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parameter = self.lookup_relativedelta_parameter(units) |
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delta = relativedelta(**{parameter:magnitude}) |
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scale_division = delta |
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return date_range(x_min, x_max, scale_division) |
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def lookup_relativedelta_parameter(self, unit_string): |
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from util import reverse_mapping, flatten_mapping |
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unit_string = unit_string.lower() |
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mapping = dict( |
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years = ('years', 'year', 'yrs', 'yr'), |
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months = ('months', 'month', 'mo'), |
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weeks = ('weeks', 'week', 'wks' ,'wk'), |
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days = ('days', 'day'), |
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hours = ('hours', 'hour', 'hr', 'hrs', 'h'), |
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minutes = ('minutes', 'minute', 'min', 'mins', 'm'), |
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seconds = ('seconds', 'second', 'sec', 'secs', 's'), |
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) |
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mapping = reverse_mapping(mapping) |
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mapping = flatten_mapping(mapping) |
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if not unit_string in mapping: |
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raise ValueError, "%s doesn't match any supported time/date unit" |
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return mapping[unit_string] |