2011-10-29 16:19:11 +04:00
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#-- encoding: UTF-8
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2007-03-25 21:11:46 +04:00
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require 'SVG/Graph/Plot'
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require 'parsedate'
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module SVG
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module Graph
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# === For creating SVG plots of scalar temporal data
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#
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# = Synopsis
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#
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# require 'SVG/Graph/Schedule'
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#
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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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#
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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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#
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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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#
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# print graph.burn()
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#
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# = Description
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#
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# Produces a graph of temporal scalar data.
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#
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# = Examples
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#
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# http://www.germane-software/repositories/public/SVG/test/schedule.rb
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#
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# = Notes
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#
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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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#
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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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#
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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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#
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# = See also
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#
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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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#
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# == Author
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#
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# Sean E. Russell <serATgermaneHYPHENsoftwareDOTcom>
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#
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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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class Schedule < Graph
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# In addition to the defaults set by Graph::initialize and
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# Plot::set_defaults, sets:
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# [x_label_format] '%Y-%m-%d %H:%M:%S'
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# [popup_format] '%Y-%m-%d %H:%M:%S'
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def set_defaults
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init_with(
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:x_label_format => '%Y-%m-%d %H:%M:%S',
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:popup_format => '%Y-%m-%d %H:%M:%S',
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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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)
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end
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# The format string use do format the X axis labels.
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# See Time::strformat
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attr_accessor :x_label_format
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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+ ?(days|weeks|months|years|hours|minutes|seconds)?"
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#
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# EG:
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#
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# graph.timescale_divisions = "2 weeks"
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#
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# will cause the chart to try to divide the X axis up into segments of
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# two week periods.
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attr_accessor :timescale_divisions
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# The formatting used for the popups. See x_label_format
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attr_accessor :popup_format
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attr_accessor :min_x_value
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attr_accessor :scale_x_divisions
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attr_accessor :scale_x_integers
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attr_accessor :bar_gap
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# Add data to the plot.
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#
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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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#
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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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#
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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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def add_data data
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@data = [] unless @data
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raise "No data provided by #{conf.inspect}" unless data[:data] and
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data[:data].kind_of? Array
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raise "Data supplied must be title,from,to tripples! "+
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"The data provided contained an odd set of "+
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"data points" unless data[:data].length % 3 == 0
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return if data[:data].length == 0
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y = []
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x_start = []
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x_end = []
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data[:data].each_index {|i|
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im3 = i%3
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if im3 == 0
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y << data[:data][i]
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else
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arr = ParseDate.parsedate( data[:data][i] )
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t = Time.local( *arr[0,6].compact )
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(im3 == 1 ? x_start : x_end) << t.to_i
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end
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}
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sort( x_start, x_end, y )
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@data = [x_start, x_end, y ]
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end
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protected
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def min_x_value=(value)
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arr = ParseDate.parsedate( value )
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@min_x_value = Time.local( *arr[0,6].compact ).to_i
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end
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def format x, y
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Time.at( x ).strftime( popup_format )
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end
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def get_x_labels
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rv = get_x_values.collect { |v| Time.at(v).strftime( x_label_format ) }
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end
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def y_label_offset( height )
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height / -2.0
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end
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def get_y_labels
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@data[2]
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end
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def draw_data
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fieldheight = field_height
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fieldwidth = field_width
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bargap = bar_gap ? (fieldheight < 10 ? fieldheight / 2 : 10) : 0
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subbar_height = fieldheight - bargap
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field_count = 1
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y_mod = (subbar_height / 2) + (font_size / 2)
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min,max,div = x_range
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scale = (@graph_width.to_f - font_size*2) / (max-min)
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@data[0].each_index { |i|
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x_start = @data[0][i]
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x_end = @data[1][i]
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y = @graph_height - (fieldheight * field_count)
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bar_width = (x_end-x_start) * scale
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bar_start = x_start * scale - (min * scale)
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@graph.add_element( "rect", {
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"x" => bar_start.to_s,
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"y" => y.to_s,
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"width" => bar_width.to_s,
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"height" => subbar_height.to_s,
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"class" => "fill#{field_count+1}"
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})
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field_count += 1
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}
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end
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def get_css
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return <<EOL
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/* default fill styles for multiple datasets (probably only use a single dataset on this graph though) */
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.key1,.fill1{
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fill: #ff0000;
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fill-opacity: 0.5;
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stroke: none;
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stroke-width: 0.5px;
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}
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.key2,.fill2{
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fill: #0000ff;
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fill-opacity: 0.5;
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stroke: none;
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stroke-width: 1px;
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}
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.key3,.fill3{
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fill: #00ff00;
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fill-opacity: 0.5;
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stroke: none;
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stroke-width: 1px;
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}
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.key4,.fill4{
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fill: #ffcc00;
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fill-opacity: 0.5;
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stroke: none;
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stroke-width: 1px;
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}
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.key5,.fill5{
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fill: #00ccff;
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fill-opacity: 0.5;
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stroke: none;
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stroke-width: 1px;
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}
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.key6,.fill6{
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fill: #ff00ff;
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fill-opacity: 0.5;
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stroke: none;
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stroke-width: 1px;
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}
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.key7,.fill7{
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fill: #00ffff;
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fill-opacity: 0.5;
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stroke: none;
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stroke-width: 1px;
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}
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.key8,.fill8{
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fill: #ffff00;
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fill-opacity: 0.5;
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stroke: none;
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stroke-width: 1px;
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}
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.key9,.fill9{
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fill: #cc6666;
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fill-opacity: 0.5;
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stroke: none;
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stroke-width: 1px;
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}
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.key10,.fill10{
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fill: #663399;
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fill-opacity: 0.5;
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stroke: none;
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stroke-width: 1px;
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}
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.key11,.fill11{
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fill: #339900;
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fill-opacity: 0.5;
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stroke: none;
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stroke-width: 1px;
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}
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.key12,.fill12{
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fill: #9966FF;
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fill-opacity: 0.5;
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stroke: none;
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stroke-width: 1px;
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}
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EOL
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end
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private
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def x_range
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max_value = [ @data[0][-1], @data[1].max ].max
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min_value = [ @data[0][0], @data[1].min ].min
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min_value = min_value<min_x_value ? min_value : min_x_value if min_x_value
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range = max_value - min_value
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right_pad = range == 0 ? 10 : range / 20.0
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scale_range = (max_value + right_pad) - min_value
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scale_division = scale_x_divisions || (scale_range / 10.0)
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if scale_x_integers
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scale_division = scale_division < 1 ? 1 : scale_division.round
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end
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[min_value, max_value, scale_division]
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end
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def get_x_values
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rv = []
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min, max, scale_division = x_range
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if timescale_divisions
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timescale_divisions =~ /(\d+) ?(days|weeks|months|years|hours|minutes|seconds)?/
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division_units = $2 ? $2 : "days"
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amount = $1.to_i
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if amount
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step = nil
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case division_units
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when "months"
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cur = min
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while cur < max
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rv << cur
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arr = Time.at( cur ).to_a
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arr[4] += amount
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if arr[4] > 12
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arr[5] += (arr[4] / 12).to_i
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arr[4] = (arr[4] % 12)
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end
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cur = Time.local(*arr).to_i
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end
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when "years"
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cur = min
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while cur < max
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rv << cur
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arr = Time.at( cur ).to_a
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arr[5] += amount
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cur = Time.local(*arr).to_i
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end
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when "weeks"
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step = 7 * 24 * 60 * 60 * amount
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when "days"
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step = 24 * 60 * 60 * amount
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when "hours"
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step = 60 * 60 * amount
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when "minutes"
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step = 60 * amount
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when "seconds"
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step = amount
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end
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min.step( max, step ) {|v| rv << v} if step
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return rv
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end
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end
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min.step( max, scale_division ) {|v| rv << v}
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return rv
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end
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end
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end
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end
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