mirror of https://github.com/Kozea/pygal.git
Python to generate nice looking SVG graph
http://pygal.org/
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705 lines
22 KiB
705 lines
22 KiB
#!/usr/bin/env python |
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__all__ = ( 'Plot', 'TimeSeries' ) |
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from xml.dom import minidom as dom |
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from operator import itemgetter |
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from itertools import islice |
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try: |
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import zlib |
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__have_zlib = True |
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except ImportError: |
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__have_zlib = False |
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def sort_multiple( arrays ): |
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"sort multiple lists (of equal size) using the first list for the sort keys" |
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tuples = zip( *arrays ) |
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tuples.sort() |
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return zip( *tuples ) |
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class Graph( object ): |
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"""=== Base object for generating SVG Graphs |
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== Synopsis |
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This class is only used as a superclass of specialized charts. Do not |
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attempt to use this class directly, unless creating a new chart type. |
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For examples of how to subclass this class, see the existing specific |
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subclasses, such as SVG.Pie. |
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== Examples |
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For examples of how to use this package, see either the test files, or |
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the documentation for the specific class you want to use. |
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* file:test/plot.rb |
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* file:test/single.rb |
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* file:test/test.rb |
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* file:test/timeseries.rb |
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== Description |
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This package should be used as a base for creating SVG graphs. |
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== Acknowledgements |
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Sean E. Russel for creating the SVG::Graph Ruby package from which this |
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Python port is derived. |
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Leo Lapworth for creating the SVG::TT::Graph package which the Ruby |
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port is based on. |
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Stephen Morgan for creating the TT template and SVG. |
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== See |
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* SVG.BarHorizontal |
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* SVG.Bar |
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* SVG.Line |
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* SVG.Pie |
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* SVG.Plot |
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* SVG.TimeSeries |
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== Author |
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Jason R. Coombs <jaraco@jaraco.com> |
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Copyright 2005 Sandia National Laboratories |
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""" |
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width= 500 |
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height= 300 |
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show_x_guidelines= False |
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show_y_guidelines= True |
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show_data_values= True |
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min_scale_value= 0 |
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show_x_labels= True |
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stagger_x_labels= False |
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rotate_x_labels= False |
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step_x_labels= 1 |
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step_include_first_x_label= True |
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show_y_labels= True |
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rotate_y_labels= False |
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stagger_y_labels= False |
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step_include_first_y_label= True |
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step_y_labels= 1 |
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scale_integers= False |
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show_x_title= False |
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x_title= 'X Field names' |
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show_y_title= False |
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y_title_text_direction= 'bt' |
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y_title= 'Y Scale' |
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show_graph_title= False |
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graph_title= 'Graph Title' |
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show_graph_subtitle= False |
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graph_subtitle= 'Graph Subtitle' |
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key= True |
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key_position= 'right' # 'bottom' or 'right', |
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font_size= 12 |
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title_font_size= 16 |
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subtitle_font_size= 14 |
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x_label_font_size= 12 |
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x_title_font_size= 14 |
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y_label_font_size= 12 |
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y_title_font_size= 14 |
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key_font_size= 10 |
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no_css= False |
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add_popups= False |
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top_align = top_font = right_align = right_font = 0 |
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def __init__( self, config = {} ): |
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"""Initialize the graph object with the graph settings. You won't |
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instantiate this class directly; see the subclass for options.""" |
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self.load_config( config ) |
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self.clear_data() |
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def load_config( self, config ): |
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self.__dict__.update( config ) |
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def add_data( self, conf ): |
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"""This method allows you do add data to the graph object. |
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It can be called several times to add more data sets in. |
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>>> data_sales_02 = [12, 45, 21] |
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>>> graph.add_data({ |
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... 'data': data_sales_02, |
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... 'title': 'Sales 2002' |
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... }) |
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""" |
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self.validate_data( conf ) |
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self.process_data( conf ) |
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self.data.append( conf ) |
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def validate_data( self, data ): |
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try: |
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assert( isinstance( conf['data'], ( tuple, list ) ) ) |
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except TypeError, e: |
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raise TypeError, "conf should be dictionary with 'data' and other items" |
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except AssertionError: |
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if not hasattr( conf['data'], '__iter__' ): |
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raise TypeError, "conf['data'] should be tuple or list or iterable" |
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def process_data( data ): pass |
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def clear_data( self ): |
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"""This method removes all data from the object so that you can |
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reuse it to create a new graph but with the same config options. |
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>>> graph.clear_data()""" |
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self.data = [] |
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def burn( self ): |
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"""This method processes the template with the data and |
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config which has been set and returns the resulting SVG. |
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This method will croak unless at least one data set has |
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been added to the graph object. |
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Ex: graph.burn()""" |
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if not self.data: raise ValueError( "No data available" ) |
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if hasattr( self, 'calculations' ): self.calculations() |
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self.start_svg() |
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self.calculate_graph_dimensions() |
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self.foreground = self._create_element( "g" ) |
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self.draw_graph() |
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self.draw_titles() |
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self.draw_legend() |
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self.draw_data() |
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self.graph.appendChild( self.foreground ) |
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self.style() |
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data = self._doc.toprettyxml() |
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if hasattr( self, 'compress' ) and self.compress: |
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if __have_zlib: |
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data = zlib.compress( data ) |
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else: |
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data += '<!-- Python zlib not available for SVGZ -->' |
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return data |
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KEY_BOX_SIZE = 12 |
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def calculate_left_margin( self ): |
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"""Override this (and call super) to change the margin to the left |
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of the plot area. Results in border_left being set.""" |
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bl = 7 |
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# Check for Y labels |
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if self.rotate_y_labels: |
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max_y_label_height_px = self.y_label_font_size |
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else: |
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label_lengths = map( len, self.get_y_labels() ) |
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max_y_label_len = reduce( max, label_lengths ) |
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max_y_label_height_px = 0.6 * max_y_label_len * self.y_label_font_size |
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if self.show_y_labels: bl += max_y_label_height_px |
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if self.stagger_y_labels: bl += max_y_label_height_px + 10 |
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if self.show_y_title: bl += self.y_title_font_size + 5 |
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self.border_left = bl |
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def max_y_label_width_px( self ): |
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"""Calculates the width of the widest Y label. This will be the |
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character height if the Y labels are rotated.""" |
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if self.rotate_y_labels: |
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return self.font_size |
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def calculate_right_margin( self ): |
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"""Override this (and call super) to change the margin to the right |
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of the plot area. Results in border_right being set.""" |
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br = 7 |
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if self.key and self.key_position == 'right': |
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max_key_len = max( map( len, self.keys() ) ) |
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br += max_key_len * self.key_font_size * 0.6 |
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br += self.KEY_BOX_SIZE |
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br += 10 # Some padding around the box |
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self.border_right = br |
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def calculate_top_margin( self ): |
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"""Override this (and call super) to change the margin to the top |
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of the plot area. Results in border_top being set.""" |
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self.border_top = 5 |
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if self.show_graph_title: self.border_top += self.title_font_size |
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self.border_top += 5 |
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if self.show_graph_subtitle: self.border_top += self.subtitle_font_size |
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def add_popup( self, x, y, label ): |
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"Adds pop-up point information to a graph." |
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txt_width = len( label ) * self.font_size * 0.6 + 10 |
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tx = x + [5,-5][int(x+txt_width > self.width)] |
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t = self._create_element( 'text' ) |
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anchor = ['start', 'end'][x+txt_width > self.width] |
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style = 'fill: #000; text-anchor: %s;' % anchor |
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id = 'label-%s' % label |
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attributes = { 'x': str( tx ), |
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'y': str( y - self.font_size ), |
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'visibility': 'hidden', |
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'style': style, |
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'text': label, |
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'id': id |
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} |
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map( lambda a: t.setAttribute( *a ), attributes.items() ) |
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self.foreground.appendChild( t ) |
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visibility = "document.getElementById(%s).setAttribute('visibility', %%s )" % id |
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t = self._create_element( 'circle' ) |
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attributes = { 'cx': str( x ), |
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'cy': str( y ), |
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'r': 10, |
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'style': 'opacity: 0;', |
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'onmouseover': visibility % 'visible', |
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'onmouseout': visibility % 'hidden', |
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} |
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map( lambda a: t.setAttribute( *a ), attributes.items() ) |
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def calculate_bottom_margin( self ): |
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"""Override this (and call super) to change the margin to the bottom |
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of the plot area. Results in border_bottom being set.""" |
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bb = 7 |
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if self.key and self.key_position == 'bottom': |
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bb += len( self.data ) * ( self.font_size + 5 ) |
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bb += 10 |
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if self.show_x_labels: |
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max_x_label_height_px = self.x_label_font_size |
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if self.rotate_x_labels: |
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label_lengths = map( len, self.get_x_labels() ) |
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max_x_label_len = reduce( max, label_lengths ) |
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max_x_label_height_px *= 0.6 * max_x_label_len |
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bb += max_x_label_height_px |
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if self.stagger_x_labels: bb += max_x_label_height_px + 10 |
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if self.show_x_title: bb += self.x_title_font_size + 5 |
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self.border_bottom = bb |
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def draw_graph( self ): |
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transform = 'translate ( %s %s )' % ( self.border_left, self.border_top ) |
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self.graph = self._create_element( 'g', { 'transform': transform } ) |
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self.root.appendChild( self.graph ) |
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self.graph.appendChild( self._create_element( 'rect', { |
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'x': '0', |
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'y': '0', |
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'width': str( self.graph_width ), |
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'height': str( self.graph_height ), |
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'class': 'graphBackground' |
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} ) ) |
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#Axis |
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self.graph.appendChild( self._create_element( 'path', { |
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'd': 'M 0 0 v%s' % self.graph_height, |
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'class': 'axis', |
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'id': 'xAxis' |
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} ) ) |
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self.graph.appendChild( self._create_element( 'path', { |
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'd': 'M 0 %s h%s' % ( self.graph_height, self.graph_width ), |
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'class': 'axis', |
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'id': 'yAxis' |
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} ) ) |
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self.draw_x_labels() |
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self.draw_y_labels() |
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def x_label_offset( self, width ): |
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"""Where in the X area the label is drawn |
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Centered in the field, should be width/2. Start, 0.""" |
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return 0 |
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def make_datapoint_text( self, x, y, value, style='' ): |
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if self.show_data_values: |
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e = self._create_element( 'text', { |
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'x': str( x ), |
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'y': str( y ), |
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'class': 'dataPointLabel', |
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'style': '%(style)s stroke: #fff; stroke-width: 2;' % vars(), |
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} ) |
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e.appendChild( self._doc.createTextNode( str( value ) ) ) |
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self.foreground.appendChild( e ) |
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e = self._create_element( 'text', { |
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'x': str( x ), |
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'y': str( y ), |
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'class': 'dataPointLabel' } ) |
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e.appendChild( self._doc.createTextNode( str( value ) ) ) |
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if style: e.setAttribute( 'style', style ) |
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self.foreground.appendChild( e ) |
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def draw_x_labels( self ): |
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"Draw the X axis labels" |
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if self.show_x_labels: |
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labels = self.get_x_labels() |
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count = len( labels ) |
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labels = enumerate( iter( labels ) ) |
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start = int( not self.step_include_first_x_label ) |
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labels = islice( labels, start, None, self.step_x_labels ) |
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map( self.draw_x_label, labels ) |
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self.draw_x_guidelines( self.field_width(), count ) |
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def draw_x_label( self, label ): |
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label_width = self.field_width() |
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index, label = label |
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text = self._create_element( 'text', { 'class': 'xAxisLabels' } ) |
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text.appendChild( self._doc.createTextNode( label ) ) |
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self.graph.appendChild( text ) |
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x = index * label_width + self.x_label_offset( label_width ) |
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y = self.graph_height + self.x_label_font_size + 3 |
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t = 0 - ( self.font_size / 2 ) |
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if self.stagger_x_labels and (index % 2 ): |
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stagger = self.x_label_font_size + 5 |
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y += stagger |
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graph_height = self.graph_height |
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path = self._create_element( 'path', { |
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'd': 'M%(x)f %(graph_height)f v%(stagger)d' % vars(), |
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'class': 'staggerGuideLine' |
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} ) |
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self.graph.appendChild( path ) |
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text.setAttribute( 'x', str( x ) ) |
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text.setAttribute( 'y', str( y ) ) |
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if self.rotate_x_labels: |
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transform = 'rotate( 90 %d %d ) translate( 0 -%d )' % \ |
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( x, y-self.x_label_font_size, x_label_font_size/4 ) |
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text.setAttribute( 'transform', transform ) |
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text.setAttribute( 'style', 'text-anchor: start' ) |
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else: |
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text.setAttribute( 'style', 'text-anchor: middle' ) |
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def y_label_offset( self, height ): |
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"""Where in the Y area the label is drawn |
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Centered in the field, should be width/2. Start, 0.""" |
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return 0 |
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def get_field_width( self ): |
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return float( self.graph_width - self.font_size*2*self.right_font ) / \ |
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( len( self.get_x_labels() ) - self.right_align ) |
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field_width = property( get_field_width ) |
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def get_field_height( self ): |
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return float( self.graph_height - self.font_size*2*self.top_font ) / \ |
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( len( self.get_y_labels() ) - self.top_align ) |
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field_height = property( get_field_height ) |
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def draw_y_labels( self ): |
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"Draw the Y axis labels" |
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if self.show_y_labels: |
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labels = self.get_y_labels() |
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count = len( labels ) |
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labels = enumerate( iter( labels ) ) |
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start = int( not self.step_include_first_y_label ) |
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labels = islice( labels, start, None, self.step_y_labels ) |
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map( self.draw_y_label, labels ) |
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self.draw_y_guidelines( self.field_height(), count ) |
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def get_y_offset( self ): |
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#result = self.graph_height + self.y_label_offset( label_height ) |
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result = self.graph_height + self.y_label_offset( self.field_height() ) |
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if not self.rotate_y_labels: result += self.font_size/1.2 |
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return result |
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y_offset = property( get_y_offset ) |
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def draw_y_label( self, label ): |
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label_height = self.field_height() |
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index, label = label |
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text = self._create_element( 'text', { 'class': 'yAxisLabels' } ) |
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text.appendChild( self._doc.createTextNode( label ) ) |
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self.graph.appendChild( text ) |
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y = self.y_offset - ( label_height * index ) |
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x = {True: 0, False:-3}[self.rotate_y_labels] |
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if self.stagger_y_labels and (index % 2 ): |
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stagger = self.y_label_font_size + 5 |
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x -= stagger |
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path = self._create_element( 'path', { |
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'd': 'M%(x)f %(y)f h%(stagger)d' % vars(), |
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'class': 'staggerGuideLine' |
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} ) |
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self.graph.appendChild( path ) |
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text.setAttribute( 'x', str( x ) ) |
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text.setAttribute( 'y', str( y ) ) |
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if self.rotate_y_labels: |
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transform = 'translate( -%d 0 ) rotate ( 90 %d %d )' % \ |
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( self.font_size, x, y ) |
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text.setAttribute( 'transform', transform ) |
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text.setAttribute( 'style', 'text-anchor: middle' ) |
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else: |
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text.setAttribute( 'y', str( y - self.y_label_font_size/2 ) ) |
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text.setAttribute( 'style', 'text-anchor: end' ) |
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def draw_x_guidelines( self, label_height, count ): |
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"Draw the X-axis guidelines" |
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if not self.show_x_guidelines: return |
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# skip the first one |
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for count in range(1,count): |
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start = label_height*count |
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stop = self.graph_height |
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path = self._create_element( 'path', { |
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'd': 'M %(start)s 0 v%(stop)s' % vars(), |
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'class': 'guideLines' } ) |
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self.graph.appendChild( path ) |
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def draw_y_guidelines( self, label_height, count ): |
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"Draw the Y-axis guidelines" |
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if not self.show_y_guidelines: return |
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for count in range( 1, count ): |
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start = self.graph_height - label_height*count |
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stop = self.graph_width |
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path = self._create_element( 'path', { |
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'd': 'M 0 %(start)s h%(stop)s' % vars(), |
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'class': 'guideLines' } ) |
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self.graph.appendChild( path ) |
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def draw_titles( self ): |
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"Draws the graph title and subtitle" |
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if self.show_graph_title: draw_graph_title() |
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if self.show_graph_subtitle: draw_graph_subtitle() |
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if self.show_x_title: draw_x_title() |
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if self.show_y_title: draw_y_title() |
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def draw_graph_title( self ): |
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text = self._create_element( 'text', { |
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'x': str( self.width / 2 ), |
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'y': str( self.title_font_size ), |
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'class': 'mainTitle' } ) |
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text.appendChild( self._doc.createTextNode( self.graph_title ) ) |
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self.root.appendChild( text ) |
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def draw_graph_subtitle( self ): |
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raise NotImplementedError |
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draw_x_title = draw_y_title = draw_graph_subtitle |
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def keys( self ): |
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return map( itemgetter( 'title' ), self.data ) |
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def draw_legend( self ): |
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if self.key: |
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group = self._create_element( 'g' ) |
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self.root.appendChild( group ) |
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for key_count, key_name in enumerate( self.keys() ): |
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y_offset = ( self.KEY_BOX_SIZE * key_count ) + (key_count * 5 ) |
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rect = self._create_element( 'rect', { |
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'x': '0', |
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'y': str( y_offset ), |
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'width': str( self.KEY_BOX_SIZE ), |
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'height': str( self.KEY_BOX_SIZE ), |
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'class': 'key%s' % (key_count + 1), |
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} ) |
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group.appendChild( rect ) |
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text = self._create_element( 'text', { |
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'x': str( self.KEY_BOX_SIZE + 5 ), |
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'y': str( y_offset + self.KEY_BOX_SIZE ), |
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'class': 'keyText' } ) |
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text.appendChild( self._doc.createTextNode( key_name ) ) |
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group.appendChild( text ) |
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if self.key_position == 'right': |
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x_offset = self.graph_width + self.border_left + 10 |
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y_offset = self.border_top + 20 |
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if self.key_position == 'bottom': |
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raise NotImplementedError |
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group.setAttribute( 'transform', 'translate(%(x_offset)d %(y_offset)d)' % vars() ) |
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def style( self ): |
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"hard code the styles into the xml if style sheets are not used." |
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if self.no_css: |
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styles = self.parse_css() |
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for node in xpath.Evaluate( '//*[@class]', self.root ): |
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cl = node.getAttribute( 'class' ) |
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style = styles[ cl ] |
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if node.hasAttribute( 'style' ): |
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style += node.getAtrtibute( 'style' ) |
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node.setAttribute( 'style', style ) |
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def parse_css( self ): |
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"""Take a .css file (classes only please) and parse it into a dictionary |
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of class/style pairs.""" |
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css = self.get_style() |
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result = {} |
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for match in re.finditer( '^(?<names>\.(\w+)(?:\s*,\s*\.\w+)*)\s*\{(?<content>[^}]+)\}' ): |
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names = match.group_dict()['names'] |
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# apperantly, we're only interested in class names |
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names = filter( None, re.split( '\s*,?\s*\.' ) ) |
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content = match.group_dict()['content'] |
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# convert all whitespace to |
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content = re.sub( '\s+', ' ', content ) |
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for name in names: |
|
result[name] = ';'.join( result[name], content ) |
|
return result |
|
|
|
def add_defs( self, defs ): |
|
"Override and place code to add defs here" |
|
pass |
|
|
|
def start_svg( self ): |
|
"Base SVG Document Creation" |
|
impl = dom.getDOMImplementation() |
|
#dt = impl.createDocumentType( 'svg', 'PUBLIC' |
|
self._doc = impl.createDocument( None, 'svg', None ) |
|
self.root = self._doc.documentElement |
|
if hasattr( self, 'style_sheet' ): |
|
pi = self._doc.createProcessingInstruction( 'xml-stylesheet', |
|
'href="%s" type="text/css"' % self.style_sheet ) |
|
attributes = { |
|
'width': str( self.width ), |
|
'height': str( self.height ), |
|
'viewBox': '0 0 %s %s' % ( self.width, self.height ), |
|
'xmlns': 'http://www.w3.org/2000/svg', |
|
'xmlns:xlink': 'http://www.w3.org/1999/xlink', |
|
'xmlns:a3': 'http://ns.adobe.com/AdobeSVGViewerExtensions/3.0/', |
|
'a3:scriptImplementation': 'Adobe' } |
|
map( lambda a: self.root.setAttribute( *a ), attributes.items() ) |
|
self.root.appendChild( self._doc.createComment( ' Created with SVG.Graph ' ) ) |
|
self.root.appendChild( self._doc.createComment( ' SVG.Graph by Jason R. Coombs ' ) ) |
|
self.root.appendChild( self._doc.createComment( ' Based on SVG::Graph by Sean E. Russel ' ) ) |
|
self.root.appendChild( self._doc.createComment( ' Based on Perl SVG:TT:Graph by Leo Lapworth & Stephan Morgan ' ) ) |
|
self.root.appendChild( self._doc.createComment( ' '+'/'*66 ) ) |
|
|
|
defs = self._create_element( 'defs' ) |
|
self.add_defs( defs ) |
|
self.root.appendChild( defs ) |
|
if not hasattr( self, 'style_sheet' ) and not self.no_css: |
|
self.root.appendChild( self._doc.createComment( ' include default stylesheet if none specified ' ) ) |
|
style = self._create_element( 'style', { 'type': 'text/css' } ) |
|
defs.appendChild( style ) |
|
style_data = self._doc.createCDATASection( self.get_style() ) |
|
style.appendChild( style_data ) |
|
|
|
self.root.appendChild( self._doc.createComment( 'SVG Background' ) ) |
|
rect = self._create_element( 'rect', { |
|
'width': str( self.width ), |
|
'height': str( self.height ), |
|
'x': '0', |
|
'y': '0', |
|
'class': 'svgBackground' } ) |
|
self.root.appendChild( rect ) |
|
|
|
def calculate_graph_dimensions( self ): |
|
self.calculate_left_margin() |
|
self.calculate_right_margin() |
|
self.calculate_bottom_margin() |
|
self.calculate_top_margin() |
|
self.graph_width = self.width - self.border_left - self.border_right |
|
self.graph_height = self.height - self.border_top - self.border_bottom |
|
|
|
def get_style( self ): |
|
result = """/* Copy from here for external style sheet */ |
|
.svgBackground{ |
|
fill:#ffffff; |
|
} |
|
.graphBackground{ |
|
fill:#f0f0f0; |
|
} |
|
|
|
/* graphs titles */ |
|
.mainTitle{ |
|
text-anchor: middle; |
|
fill: #000000; |
|
font-size: %(title_font_size)dpx; |
|
font-family: "Arial", sans-serif; |
|
font-weight: normal; |
|
} |
|
.subTitle{ |
|
text-anchor: middle; |
|
fill: #999999; |
|
font-size: %(subtitle_font_size)dpx; |
|
font-family: "Arial", sans-serif; |
|
font-weight: normal; |
|
} |
|
|
|
.axis{ |
|
stroke: #000000; |
|
stroke-width: 1px; |
|
} |
|
|
|
.guideLines{ |
|
stroke: #666666; |
|
stroke-width: 1px; |
|
stroke-dasharray: 5 5; |
|
} |
|
|
|
.xAxisLabels{ |
|
text-anchor: middle; |
|
fill: #000000; |
|
font-size: %(x_label_font_size)dpx; |
|
font-family: "Arial", sans-serif; |
|
font-weight: normal; |
|
} |
|
|
|
.yAxisLabels{ |
|
text-anchor: end; |
|
fill: #000000; |
|
font-size: %(y_label_font_size)dpx; |
|
font-family: "Arial", sans-serif; |
|
font-weight: normal; |
|
} |
|
|
|
.xAxisTitle{ |
|
text-anchor: middle; |
|
fill: #ff0000; |
|
font-size: %(x_title_font_size)dpx; |
|
font-family: "Arial", sans-serif; |
|
font-weight: normal; |
|
} |
|
|
|
.yAxisTitle{ |
|
fill: #ff0000; |
|
text-anchor: middle; |
|
font-size: %(y_title_font_size)dpx; |
|
font-family: "Arial", sans-serif; |
|
font-weight: normal; |
|
} |
|
|
|
.dataPointLabel{ |
|
fill: #000000; |
|
text-anchor:middle; |
|
font-size: 10px; |
|
font-family: "Arial", sans-serif; |
|
font-weight: normal; |
|
} |
|
|
|
.staggerGuideLine{ |
|
fill: none; |
|
stroke: #000000; |
|
stroke-width: 0.5px; |
|
} |
|
|
|
%%s |
|
|
|
.keyText{ |
|
fill: #000000; |
|
text-anchor:start; |
|
font-size: %(key_font_size)dpx; |
|
font-family: "Arial", sans-serif; |
|
font-weight: normal; |
|
} |
|
/* End copy for external style sheet */ |
|
""" % class_dict( self ) |
|
result = result % self.get_css() |
|
return result |
|
|
|
def _create_element( self, nodeName, attributes={} ): |
|
"Create an XML node and set the attributes from a dict" |
|
node = self._doc.createElement( nodeName ) |
|
map( lambda a: node.setAttribute( *a ), attributes.items() ) |
|
return node |
|
|
|
class class_dict( object ): |
|
"Emulates a dictionary, but retrieves class attributes" |
|
def __init__( self, obj ): |
|
self.__obj__ = obj |
|
|
|
def __getitem__( self, item ): |
|
return getattr( self.__obj__, item ) |
|
|
|
def keys( self ): |
|
# dir returns a good guess of what attributes might be available |
|
return dir( self.__obj__ ) |