#!/usr/bin/env python import svg.charts.plot import re import pkg_resources pkg_resources.require("python-dateutil>=1.1") from dateutil.parser import parse from dateutil.relativedelta import relativedelta from time import mktime import datetime fromtimestamp = datetime.datetime.fromtimestamp from util import float_range class Plot(svg.charts.plot.Plot): """=== For creating SVG plots of scalar temporal data = Synopsis import SVG.TimeSeries # Data sets are x,y pairs data1 = ["6/17/72", 11, "1/11/72", 7, "4/13/04 17:31", 11, "9/11/01", 9, "9/1/85", 2, "9/1/88", 1, "1/15/95", 13] data2 = ["8/1/73", 18, "3/1/77", 15, "10/1/98", 4, "5/1/02", 14, "3/1/95", 6, "8/1/91", 12, "12/1/87", 6, "5/1/84", 17, "10/1/80", 12] graph = SVG::Graph::TimeSeries.new({ :width => 640, :height => 480, :graph_title => title, :show_graph_title => true, :no_css => true, :key => true, :scale_x_integers => true, :scale_y_integers => true, :min_x_value => 0, :min_y_value => 0, :show_data_labels => true, :show_x_guidelines => true, :show_x_title => true, :x_title => "Time", :show_y_title => true, :y_title => "Ice Cream Cones", :y_title_text_direction => :bt, :stagger_x_labels => true, :x_label_format => "%m/%d/%y", }) graph.add_data({ :data => projection :title => 'Projected', }) graph.add_data({ :data => actual, :title => 'Actual', }) print graph.burn() = Description Produces a graph of temporal scalar data. = Examples http://www.germane-software/repositories/public/SVG/test/timeseries.rb = Notes The default stylesheet handles upto 10 data sets, if you use more you must create your own stylesheet and add the additional settings for the extra data sets. You will know if you go over 10 data sets as they will have no style and be in black. Unlike the other types of charts, data sets must contain x,y pairs: ["12:30", 2] # A data set with 1 point: ("12:30",2) ["01:00",2, "14:20",6] # A data set with 2 points: ("01:00",2) and # ("14:20",6) Note that multiple data sets within the same chart can differ in length, and that the data in the datasets needn't be in order; they will be ordered by the plot along the X-axis. The dates must be parseable by ParseDate, but otherwise can be any order of magnitude (seconds within the hour, or years) = See also * SVG::Graph::Graph * SVG::Graph::BarHorizontal * SVG::Graph::Bar * SVG::Graph::Line * SVG::Graph::Pie * SVG::Graph::Plot == Author Sean E. Russell Copyright 2004 Sean E. Russell This software is available under the Ruby license[LICENSE.txt] """ popup_format = x_label_format = '%Y-%m-%d %H:%M:%S' __doc_popup_format_ = "The formatting usped for the popups. See x_label_format" __doc_x_label_format_ = "The format string used to format the X axis labels. See strftime." timescale_divisions = None __doc_timescale_divisions_ = """Use this to set the spacing between dates on the axis. The value must be of the form "\d+ ?(days|weeks|months|years|hours|minutes|seconds)?" EG: graph.timescale_divisions = "2 weeks" will cause the chart to try to divide the X axis up into segments of two week periods.""" def add_data(self, data): """Add data to the plot. d1 = ["12:30", 2] # A data set with 1 point: ("12:30",2) d2 = ["01:00",2, "14:20",6] # A data set with 2 points: ("01:00",2) and # ("14:20",6) graph.add_data( :data => d1, :title => 'One' ) graph.add_data( :data => d2, :title => 'Two' ) Note that the data must be in time,value pairs, and that the date format may be any date that is parseable by ParseDate.""" super(Plot, self).add_data(data) def process_data(self, data): super(Plot, self).process_data(data) # the date should be in the first element, so parse it out data['data'][0] = map(self.parse_date, data['data'][0]) _min_x_value = svg.charts.plot.Plot.min_x_value def get_min_x_value(self): return self._min_x_value def set_min_x_value(self, date): self._min_x_value = self.parse_date(date) min_x_value = property(get_min_x_value, set_min_x_value) def format(self, x, y): return fromtimestamp(x).strftime(self.popup_format) def get_x_labels(self): return map(lambda t: fromtimestamp(t).strftime(self.x_label_format), self.get_x_values()) def get_x_values(self): result = self.get_x_timescale_division_values() if result: return result return tuple(float_range(*self.x_range())) def get_x_timescale_division_values(self): if not self.timescale_divisions: return min, max, scale_division = self.x_range() m = re.match('(?P\d+) ?(?Pdays|weeks|months|years|hours|minutes|seconds)?', self.timescale_divisions) # copy amount and division_units into the local namespace division_units = m.groupdict()['division_units'] or 'days' amount = int(m.groupdict()['amount']) if not amount: return delta = relativedelta(**{division_units: amount}) result = tuple(self.get_time_range(min, max, delta)) return result def get_time_range(self, start, stop, delta): start, stop = map(fromtimestamp, (start, stop)) current = start while current <= stop: yield mktime(current.timetuple()) current += delta def parse_date(self, date_string): return mktime(parse(date_string).timetuple())