# -*- coding: utf-8 -*- require 'write_xlsx/package/xml_writer_simple' require 'write_xlsx/utility' require 'write_xlsx/chart/axis' module Writexlsx class Table include Writexlsx::Utility attr_reader :horizontal, :vertical, :outline, :show_keys def initialize(params = {}) @horizontal, @vertical, @outline, @show_keys = true, true, true, false @horizontal = params[:horizontal] if params.has_key?(:horizontal) @vertical = params[:vertical] if params.has_key?(:vertical) @outline = params[:outline] if params.has_key?(:outline) @show_keys = params[:show_keys] if params.has_key?(:show_keys) end def write_d_table(writer) writer.tag_elements('c:dTable') do writer.empty_tag('c:showHorzBorder', attributes) if ptrue?(horizontal) writer.empty_tag('c:showVertBorder', attributes) if ptrue?(vertical) writer.empty_tag('c:showOutline', attributes) if ptrue?(outline) writer.empty_tag('c:showKeys', attributes) if ptrue?(show_keys) end end private def attributes ['val', 1] end end # ==SYNOPSIS # # To create a simple Excel file with a chart using WriteXLSX: # # require 'rubygems' # require 'write_xlsx' # # workbook = WriteXLSX.new('chart.xlsx') # worksheet = workbook.add_worksheet # # # Add the worksheet data the chart refers to. # data = [ # [ 'Category', 2, 3, 4, 5, 6, 7 ], # [ 'Value', 1, 4, 5, 2, 1, 5 ] # ] # # worksheet.write( 'A1', data ) # # # Add a worksheet chart. # chart = workbook.add_chart( type => 'column' ) # # # Configure the chart. # chart.add_series( # :categories => '=Sheet1!$A$2:$A$7', # :values => '=Sheet1!$B$2:$B$7' # ) # # workbook.close # # ==DESCRIPTION # # The Chart is an abstract base class for modules that implement # charts in WriteXLSX. The information below is applicable to all of # the available subclasses. # # The Chart isn't used directly. A chart object is created via # the {WriteXLXS#add_chart()} # method where the chart type is specified: # # chart = workbook.add_chart( :type => 'column' ) # # Currently the supported chart types are: # # ===area # Creates an Area (filled line) style chart. See Writexlsx::Chart::Area. # # ===bar # Creates a Bar style (transposed histogram) chart. See Writexlsx::Chart::Bar. # # ===column # Creates a Column style (histogram) chart. See Writexlsx::Chart::Column. # # ===line # Creates a Line style chart. See Writexlsx::Chart::Line. # # ===pie # Creates a Pie style chart. See Writexlsx::Chart::Pie. # # ===scatter # Creates a Scatter style chart. See Writexlsx::Chart::Scatter. # # ===stock # Creates a Stock style chart. See Writexlsx::Chart::Stock. # # ===radar # Creates a Radar style chart. See Writexlsx::Chart::Radar. # # Chart subtypes are also supported in some cases: # # workbook.add_chart(:type => 'bar', :subtype => 'stacked') # # The currently available subtypes are: # # area # stacked # percent_stacked # # bar # stacked # percent_stacked # # column # stacked # percent_stacked # # scatter # straight_with_markers # straight # smooth_with_markers # smooth # # radar # with_markers # filled # # ==CHART FORMATTING # # The following chart formatting properties can be set for any chart object # that they apply to (and that are supported by WriteXLSX) such # as chart lines, column fill areas, plot area borders, markers and other # chart elements documented above. # # line # border # fill # marker # trendline # data_labels # # Chart formatting properties are generally set using hash refs. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :line => { color => 'blue' } # ) # # In some cases the format properties can be nested. For example a marker # may contain border and fill sub-properties. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :line => { color => 'blue' }, # :marker => { # :type => 'square', # :size => 5, # :border => { color => 'red' }, # :fill => { color => 'yellow' } # } # ) # # ===Line # # The line format is used to specify properties of line objects that appear # in a chart such as a plotted line on a chart or a border. # # The following properties can be set for line formats in a chart. # # none # color # width # dash_type # The none property is uses to turn the line off (it is always on by default # except in Scatter charts). This is useful if you wish to plot a series # with markers but without a line. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :line => { none => 1 } # ) # The color property sets the color of the line. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :line => { color => 'red' } # ) # The available colors are shown in the main WriteXLSX documentation. # It is also possible to set the color of a line with a HTML style RGB color: # # chart.add_series( # :line => { color => '#FF0000' } # ) # The width property sets the width of the line. It should be specified # in increments of 0.25 of a point as in Excel. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :line => { width => 3.25 } # ) # The dash_type property sets the dash style of the line. # # chart->add_series( # :values => '=Sheet1!$B$1:$B$5', # :line => { dash_type => 'dash_dot' } # ) # The following dash_type values are available. They are shown in the # order that they appear in the Excel dialog. # # solid # round_dot # square_dot # dash # dash_dot # long_dash # long_dash_dot # long_dash_dot_dot # The default line style is solid. # # More than one line property can be specified at time: # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :line => { # :color => 'red', # :width => 1.25, # :dash_type => 'square_dot' # } # ) # ===Border # # The border property is a synonym for line. # # It can be used as a descriptive substitute for line in chart types such # as Bar and Column that have a border and fill style rather than a line # style. In general chart objects with a border property will also have a # fill property. # # ===Fill # # The fill format is used to specify filled areas of chart objects such # as the interior of a column or the background of the chart itself. # # The following properties can be set for fill formats in a chart. # # none # color # The none property is uses to turn the fill property off (it is # generally on by default). # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :fill => { none => 1 } # ) # The color property sets the color of the fill area. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :fill => { color => 'red' } # ) # The available colors are shown in the main WriteXLSX documentation. # It is also possible to set the color of a fill with a HTML style RGB color: # # chart.add_series( # :fill => { color => '#FF0000' } # ) # The fill format is generally used in conjunction with a border format # which has the same properties as a line format. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :border => { color => 'red' }, # :fill => { color => 'yellow' } # ) # ===Marker # # The marker format specifies the properties of the markers used to # distinguish series on a chart. In general only Line and Scatter # chart types and trendlines use markers. # # The following properties can be set for marker formats in a chart. # # type # size # border # fill # The type property sets the type of marker that is used with a series. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :marker => { type => 'diamond' } # ) # The following type properties can be set for marker formats in a chart. # These are shown in the same order as in the Excel format dialog. # # automatic # none # square # diamond # triangle # x # star # short_dash # long_dash # circle # plus # The automatic type is a special case which turns on a marker using the # default marker style for the particular series number. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :marker => { type => 'automatic' } # ) # If automatic is on then other marker properties such as size, # border or fill cannot be set. # # The size property sets the size of the marker and is generally used in # conjunction with type. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :marker => { type => 'diamond', size => 7 } # ) # Nested border and fill properties can also be set for a marker. # These have the same sub-properties as shown above. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :marker => { # :type => 'square', # :size => 5, # :border => { color => 'red' }, # :fill => { color => 'yellow' } # } # ) # ===Trendline # # A trendline can be added to a chart series to indicate trends in the data # such as a moving average or a polynomial fit. # # The following properties can be set for trendline formats in a chart. # # type # order (for polynomial trends) # period (for moving average) # forward (for all except moving average) # backward (for all except moving average) # name # line # The type property sets the type of trendline in the series. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :trendline => { type => 'linear' } # ) # The available trendline types are: # # exponential # linear # log # moving_average # polynomial # power # A polynomial trendline can also specify the order of the polynomial. # The default value is 2. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :trendline => { # :type => 'polynomial', # :order => 3 # } # ) # A moving_average trendline can also the period of the moving average. # The default value is 2. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :trendline => { # :type => 'moving_average', # :period => 3 # } # ) # The forward and backward properties set the forecast period of the # trendline. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :trendline => { # :type => 'linear', # :forward => 0.5, # :backward => 0.5 # } # ) # The name property sets an optional name for the trendline that will # appear in the chart legend. If it isn't specified the Excel default # name will be displayed. This is usually a combination of the trendline # type and the series name. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :trendline => { # :type => 'linear', # :name => 'Interpolated trend' # } # ) # Several of these properties can be set in one go: # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :trendline => { # :type => 'linear', # :name => 'My trend name', # :forward => 0.5, # :backward => 0.5, # :line => { # :color => 'red', # :width => 1, # :dash_type => 'long_dash' # } # } # ) # Trendlines cannot be added to series in a stacked chart or pie chart or # (when implemented) to 3-D, radar, surface, or doughnut charts. # # ==Data Labels # # Data labels can be added to a chart series to indicate the values of # the plotted data points. # # The following properties can be set for data_labels formats in a chart. # # :value # :category # :series_name # :position # :leader_lines # :percentage # # The value property turns on the Value data label for a series. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :data_labels => { :value => 1 } # ) # The category property turns on the Category Name data label for a series. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :data_labels => { :category => 1 } # ) # The series_name property turns on the Series Name data label for a series. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :data_labels => { :series_name => 1 } # ) # The C property is used to position the data label for a series. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :data_labels => { :value => 1, :position => 'center' } # ) # # Valid positions are: # # :center # :right # :left # :top # :bottom # :above # Same as top # :below # Same as bottom # :inside_end # Pie chart mainly. # :outside_end # Pie chart mainly. # :best_fit # Pie chart mainly. # # The C property is used to turn on the I # for the data label for a series. It is mainly used for pie charts. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :data_labels => { :percentage => 1 } # ) # # The C property is used to turn on I # for the data label for a series. It is mainly used for pie charts. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :data_labels => { :value => 1, :leader_lines => 1 } # ) # class Chart include Writexlsx::Utility attr_accessor :id, :name # :nodoc: attr_writer :index, :palette, :protection # :nodoc: attr_reader :embedded, :formula_ids, :formula_data # :nodoc: attr_reader :x_scale, :y_scale, :x_offset, :y_offset # :nodoc: attr_reader :width, :height # :nodoc: # # Factory method for returning chart objects based on their class type. # def self.factory(current_subclass, subtype = nil) # :nodoc: case current_subclass.downcase.capitalize when 'Area' require 'write_xlsx/chart/area' Chart::Area.new(subtype) when 'Bar' require 'write_xlsx/chart/bar' Chart::Bar.new(subtype) when 'Column' require 'write_xlsx/chart/column' Chart::Column.new(subtype) when 'Line' require 'write_xlsx/chart/line' Chart::Line.new(subtype) when 'Pie' require 'write_xlsx/chart/pie' Chart::Pie.new(subtype) when 'Radar' require 'write_xlsx/chart/radar' Chart::Radar.new(subtype) when 'Scatter' require 'write_xlsx/chart/scatter' Chart::Scatter.new(subtype) when 'Stock' require 'write_xlsx/chart/stock' Chart::Stock.new(subtype) end end def initialize(subtype) # :nodoc: @writer = Package::XMLWriterSimple.new @subtype = subtype @sheet_type = 0x0200 @orientation = 0x0 @series = [] @embedded = 0 @id = '' @series_index = 0 @style_id = 2 @axis_ids = [] @axis2_ids = [] @cat_has_num_fmt = false @requires_category = 0 @legend_position = 'right' @cat_axis_position = 'b' @val_axis_position = 'l' @formula_ids = {} @formula_data = [] @horiz_cat_axis = 0 @horiz_val_axis = 1 @protection = 0 @chartarea = {} @plotarea = {} @x_axis = Axis.new @y_axis = Axis.new @x2_axis = Axis.new @y2_axis = Axis.new @name = '' @show_blanks = 'gap' @show_hidden_data = false @show_crosses = true @width = 480 @height = 288 @x_scale = 1 @y_scale = 1 @x_offset = 0 @y_offset = 0 @table = nil @smooth_allowed = 0 set_default_properties end def set_xml_writer(filename) # :nodoc: @writer.set_xml_writer(filename) end # # Assemble and write the XML file. # def assemble_xml_file # :nodoc: @writer.xml_decl # Write the c:chartSpace element. write_chart_space do # Write the c:lang element. write_lang # Write the c:style element. write_style # Write the c:protection element. write_protection # Write the c:chart element. write_chart # Write the c:spPr element for the chartarea formatting. write_sp_pr(@chartarea) # Write the c:printSettings element. write_print_settings if @embedded && @embedded != 0 end # Close the XML writer object and filehandle. @writer.crlf @writer.close end # # Add a series and it's properties to a chart. # # In an Excel chart a "series" is a collection of information such as # values, x-axis labels and the formatting that define which data is # plotted. # # With a WriteXLSX chart object the add_series() method is used to # set the properties for a series: # # chart.add_series( # :categories => '=Sheet1!$A$2:$A$10', # Optional. # :values => '=Sheet1!$B$2:$B$10', # Required. # :line => { :color => 'blue' } # ) # # The properties that can be set are: # # ===:values # This is the most important property of a series and must be set # for every chart object. It links the chart with the worksheet data # that it displays. A formula or array ref can be used for the # data range, see below. # # ===:categories # This sets the chart category labels. The category is more or less # the same as the X-axis. In most chart types the categories property # is optional and the chart will just assume a sequential series # from 1 .. n. # # ===:name # Set the name for the series. The name is displayed in the chart # legend and in the formula bar. The name property is optional and # if it isn't supplied it will default to Series 1 .. n. # # ===:line # Set the properties of the series line type such as colour and # width. See the "CHART FORMATTING" section below. # # ===:border # Set the border properties of the series such as colour and style. # See the "CHART FORMATTING" section below. # # ===:fill # Set the fill properties of the series such as colour. See the # "CHART FORMATTING" # section below. # # ==:marker # Set the properties of the series marker such as style and color. # See the "CHART FORMATTING" section below. # # ===:trendline # Set the properties of the series trendline such as linear, # polynomial and moving average types. See the "CHART FORMATTING" # section below. # # ===:data_labels # Set data labels for the series. See the "CHART FORMATTING" # section below. # # ===:invert_if_negative # Invert the fill colour for negative values. Usually only applicable # to column and bar charts. # # ===:overlap # Set the overlap between series in a Bar/Column chart. The range is # +/- 100. Default is 0. # # :overlap => 20 # # Note, it is only necessary to apply this property to one series of the chart. # # ===:gap # Set the gap between series in a Bar/Column chart. The range is # 0 to 500. Default is 150. # # :gap => 200, # # Note, it is only necessary to apply this property to one series of the # chart. # # The categories and values can take either a range formula such # as =Sheet1!$A$2:$A$7 or, more usefully when generating the range # programmatically, an array ref with zero indexed row/column values: # # [ sheetname, row_start, row_end, col_start, col_end ] # # The following are equivalent: # # chart.add_series( categories => '=Sheet1!$A$2:$A$7' ) # Same as ... # chart.add_series( categories => [ 'Sheet1', 1, 6, 0, 0 ] ) # Zero-indexed. # # You can add more than one series to a chart. In fact, some chart # types such as stock require it. The series numbering and order in # the Excel chart will be the same as the order in which that are added # in WriteXLSX. # # # Add the first series. # chart.add_series( # :categories => '=Sheet1!$A$2:$A$7', # :values => '=Sheet1!$B$2:$B$7', # :name => 'Test data series 1' # ) # # # Add another series. Same categories. Different range values. # chart.add_series( # :categories => '=Sheet1!$A$2:$A$7', # :values => '=Sheet1!$C$2:$C$7', # :name => 'Test data series 2' # ) # # ==SERIES OPTIONS # # This section details the following properties of add_series() in more # detail: # # marker # trendline # y_error_bars # x_error_bars # data_labels # points # # ===Marker # # The marker format specifies the properties of the markers used to # distinguish series on a chart. In general only Line and Scatter chart # types and trendlines use markers. # # The following properties can be set for marker formats in a chart. # # type # size # border # fill # # The type property sets the type of marker that is used with a series. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :marker => { :type => 'diamond' } # ) # # The following type properties can be set for marker formats in a chart. # These are shown in the same order as in the Excel format dialog. # # automatic # none # square # diamond # triangle # x # star # short_dash # long_dash # circle # plus # # The automatic type is a special case which turns on a marker using the # default marker style for the particular series number. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :marker => { :type => 'automatic' } # ) # # If automatic is on then other marker properties such as size, border or # fill cannot be set. # # The size property sets the size of the marker and is generally used in # conjunction with type. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :marker => { :type => 'diamond', :size => 7 } # ) # # Nested border and fill properties can also be set for a marker. See the # "CHART FORMATTING" # section below. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :marker => { # :type => 'square', # :size => 5, # :border => { :color => 'red' }, # :fill => { :color => 'yellow' } # } # ) # # ===Trendline # # A trendline can be added to a chart series to indicate trends in the data # such as a moving average or a polynomial fit. # # The following properties can be set for trendlines in a chart series. # # type # order (for polynomial trends) # period (for moving average) # forward (for all except moving average) # backward (for all except moving average) # name # line # # The type property sets the type of trendline in the series. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :trendline => { :type => 'linear' } # ) # # The available trendline types are: # # exponential # linear # log # moving_average # polynomial # power # # A polynomial trendline can also specify the order of the polynomial. # The default value is 2. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :trendline => { # :type => 'polynomial', # :order => 3 # } # ) # # A moving_average trendline can also specify the period of the moving # average. The default value is 2. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :trendline => { # :type => 'moving_average', # :period => 3, # } # ) # # The forward and backward properties set the forecast period of the # trendline. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :trendline => { # :type => 'linear', # :forward => 0.5, # :backward => 0.5 # } # ) # # The name property sets an optional name for the trendline that will # appear in the chart legend. If it isn't specified the Excel default # name will be displayed. This is usually a combination of the # trendline type and the series name. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :trendline => { # :type => 'linear', # :name => 'Interpolated trend' # } # ) # # Several of these properties can be set in one go: # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :trendline => { # :type => 'linear', # :name => 'My trend name', # :forward => 0.5, # :backward => 0.5, # :line => { # :color => 'red', # :width => 1, # :dash_type => 'long_dash' # } # } # ) # # Trendlines cannot be added to series in a stacked chart or pie chart, # radar chart or (when implemented) to 3D, surface, or doughnut charts. # # ===Error Bars # # Error bars can be added to a chart series to indicate error bounds in the # data. The error bars can be vertical y_error_bars (the most common type) # or horizontal x_error_bars (for Bar and Scatter charts only). # # The following properties can be set for error bars in a chart series. # # type # value (for all types except standard error) # direction # end_style # line # # The type property sets the type of error bars in the series. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :y_error_bars => { :type => 'standard_error' } # ) # # The available error bars types are available: # # fixed # percentage # standard_deviation # standard_error # # Note, the "custom" error bars type is not supported. # # All error bar types, except for standard_error must also have a value # associated with it for the error bounds: # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :y_error_bars => { # :type => 'percentage', # :value => 5 # } # ) # # The direction property sets the direction of the error bars. It should # be one of the following: # # plus # Positive direction only. # minus # Negative direction only. # both # Plus and minus directions, The default. # # The end_style property sets the style of the error bar end cap. The # options are 1 (the default) or 0 (for no end cap): # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :y_error_bars => { # :type => 'fixed', # :value => 2, # :end_style => 0, # :direction => 'minus' # } # ) # # ===Data Labels # # Data labels can be added to a chart series to indicate the values of the # plotted data points. # # The following properties can be set for data_labels formats in a chart. # # value # category # series_name # position # leader_lines # percentage # # The value property turns on the Value data label for a series. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :data_labels => { :value => 1 } # ) # The category property turns on the Category Name data label for a series. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :data_labels => { :category => 1 } # ) # # The series_name property turns on the Series Name data label for a series. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :data_labels => { :series_name => 1 } # ) # # The position property is used to position the data label for a series. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :data_labels => { :value => 1, :position => 'center' }, # ) # # Valid positions are: # # center # right # left # top # bottom # above # Same as top # below # Same as bottom # inside_end # Pie chart mainly. # outside_end # Pie chart mainly. # best_fit # Pie chart mainly. # # The percentage property is used to turn on the display of data labels as # a Percentage for a series. It is mainly used for pie charts. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :data_labels => { :percentage => 1 } # ) # # The leader_lines property is used to turn on Leader Lines for the data # label for a series. It is mainly used for pie charts. # # chart.add_series( # :values => '=Sheet1!$B$1:$B$5', # :data_labels => { :value => 1, :leader_lines => 1 } # ) # # Note: Even when leader lines are turned on they aren't automatically # visible in Excel or Excel::Writer::XLSX. Due to an Excel limitation # (or design) leader lines only appear if the data label is moved # manually or if the data labels are very close and need to be adjusted # automatically. # # ===Points # # In general formatting is applied to an entire series in a chart. However, # it is occasionally required to format individual points in a series. In # particular this is required for Pie charts where each segment is # represented by a point. # # In these cases it is possible to use the points property of add_series(): # # chart.add_series( # :values => '=Sheet1!$A$1:$A$3', # :points => [ # { :fill => { :color => '#FF0000' } }, # { :fill => { ?color => '#CC0000' } }, # { :fill => { :color => '#990000' } } # ] # ) # # The points property takes an array ref of format options (see the # "CHART FORMATTING" # section below). To assign default properties to points in a series pass # nil values in the array ref: # # # Format point 3 of 3 only. # chart.add_series( # :values => '=Sheet1!$A$1:$A$3', # :points => [ # nil, # nil, # { :fill => { :color => '#990000' } } # ] # ) # # # Format the first point only. # chart.add_series( # :values => '=Sheet1!$A$1:$A$3', # :points => [ { :fill => { :color => '#FF0000' } } ] # ) def add_series(params) # Check that the required input has been specified. unless params.has_key?(:values) raise "Must specify ':values' in add_series" end if @requires_category != 0 && !params.has_key?(:categories) raise "Must specify ':categories' in add_series for this chart type" end # Convert aref params into a formula string. values = aref_to_formula(params[:values]) categories = aref_to_formula(params[:categories]) # Switch name and name_formula parameters if required. name, name_formula = process_names(params[:name], params[:name_formula]) # Get an id for the data equivalent to the range formula. cat_id = get_data_id(categories, params[:categories_data]) val_id = get_data_id(values, params[:values_data]) name_id = get_data_id(name_formula, params[:name_data]) # Set the line properties for the series. line = line_properties(params[:line]) # Allow 'border' as a synonym for 'line' in bar/column style charts. line = line_properties(params[:border]) if params[:border] # Set the fill properties for the series. fill = fill_properties(params[:fill]) # Set the marker properties for the series. marker = marker_properties(params[:marker]) # Set the trendline properties for the series. trendline = trendline_properties(params[:trendline]) # Set the line smooth property for the series. smooth = params[:smooth] # Set the error bars properties for the series. y_error_bars = error_bars_properties(params[:y_error_bars]) x_error_bars = error_bars_properties(params[:x_error_bars]) # Set the point properties for the series. points = points_properties(params[:points]) # Set the labels properties for the series. labels = labels_properties(params[:data_labels]) # Set the "invert if negative" fill property. invert_if_neg = params[:invert_if_negative] # Set the gap for Bar/Column charts. if params[:gap] @series_gap = params[:gap] end # Set the overlap for Bar/Column charts. if params[:overlap] @series_overlap = params[:overlap] end # Set the secondary axis properties. x2_axis = params[:x2_axis] y2_axis = params[:y2_axis] # Add the user supplied data to the internal structures. @series << { :_values => values, :_categories => categories, :_name => name, :_name_formula => name_formula, :_name_id => name_id, :_val_data_id => val_id, :_cat_data_id => cat_id, :_line => line, :_fill => fill, :_marker => marker, :_trendline => trendline, :_smooth => smooth, :_labels => labels, :_invert_if_neg => invert_if_neg, :_x2_axis => x2_axis, :_y2_axis => y2_axis, :_points => points, :_error_bars => { :_x_error_bars => x_error_bars, :_y_error_bars => y_error_bars } } end # # Set the properties of the X-axis. # # The set_x_axis() method is used to set properties of the X axis. # # chart.set_x_axis( :name => 'Quarterly results' ) # # The properties that can be set are: # # :name # :min # :max # :minor_unit # :major_unit # :crossing # :reverse # :log_base # :label_position # :major_gridlines # :minor_gridlines # :visible # # These are explained below. Some properties are only applicable to value # or category axes, as indicated. See "Value and Category Axes" for an # explanation of Excel's distinction between the axis types. # # ====:name # Set the name (title or caption) for the axis. The name is displayed # below the X axis. The name property is optional. The default is to # have no axis name. (Applicable to category and value axes). # # chart.set_x_axis( :name => 'Quarterly results' ) # # The name can also be a formula such as =Sheet1!$A$1. # # ====:min # Set the minimum value for the axis range. # (Applicable to value axes only). # # chart.set_x_axis( :min => 20 ) # ====:max # Set the maximum value for the axis range. # (Applicable to value axes only). # # chart.set_x_axis( :max => 80 ) # ====:minor_unit # Set the increment of the minor units in the axis range. # (Applicable to value axes only). # # chart.set_x_axis( :minor_unit => 0.4 ) # ====:major_unit # Set the increment of the major units in the axis range. # (Applicable to value axes only). # # chart.set_x_axis( :major_unit => 2 ) # ====:crossing # Set the position where the y axis will cross the x axis. # (Applicable to category and value axes). # # The crossing value can either be the string 'max' to set the crossing # at the maximum axis value or a numeric value. # # chart.set_x_axis( :crossing => 3 ) # # or # chart.set_x_axis( :crossing => 'max' ) # For category axes the numeric value must be an integer to represent # the category number that the axis crosses at. For value axes it can # have any value associated with the axis. # # If crossing is omitted (the default) the crossing will be set # automatically by Excel based on the chart data. # # ====:reverse # Reverse the order of the axis categories or values. # (Applicable to category and value axes). # # chart.set_x_axis( :reverse => 1 ) # ====:log_base # Set the log base of the axis range. # (Applicable to value axes only). # # chart.set_x_axis( :log_base => 10 ) # ====:label_position # Set the "Axis labels" position for the axis. # The following positions are available: # # next_to (the default) # high # low # none # More than one property can be set in a call to set_x_axis: # # chart.set_x_axis( # :name => 'Quarterly results', # :min => 10, # :max => 80 # ) # # ==CHART FONTS # # The following font properties can be set for any chart object that they # apply to (and that are supported by WriteXLSX) such as chart titles, # axis labels and axis numbering. They correspond to the equivalent # Worksheet cell Format object properties. See "FORMAT_METHODS" for more # information. # # name # size # bold # italic # underline # rotation # color # # The following explains the available font properties: # # ===name # Set the font name: # # chart.set_x_axis( :num_font => { :name => 'Arial' } ) # # ===size # Set the font size: # # chart.set_x_axis( :num_font => { :name => 'Arial', :size => 10 } ) # # ===bold # Set the font bold property, should be 0 or 1: # # chart.set_x_axis( :num_font => { :bold => 1 } ) # # ===italic # Set the font italic property, should be 0 or 1: # # chart.set_x_axis( :num_font => { :italic => 1 } ) # # ===underline # Set the font underline property, should be 0 or 1: # # chart.set_x_axis( :num_font => { :underline => 1 } ) # # ===rotation # See the font rotation in the range -90 to 90: # # chart.set_x_axis(:num_font => { :rotation => 45 }) # # This is useful for displaying large axis data such as dates in a more compact format. # # ===color # Set the font color property. Can be a color index, a color name or HTML # style RGB colour: # # chart.set_x_axis( :num_font => { :color => 'red' } ) # chart.set_y_axis( :num_font => { :color => '#92D050' } ) # # Here is an example of Font formatting in a Chart program: # # # Format the chart title. # chart.set_title( # :name => 'Sales Results Chart', # :name_font => { # :name => 'Calibri', # :color => 'yellow' # } # ) # # # Format the X-axis. # chart.set_x_axis( # :name => 'Month', # :name_font => { # :name => 'Arial', # :color => '#92D050' # }, # :num_font => { # :name => 'Courier New', # :color => '#00B0F0' # } # ) # # # Format the Y-axis. # chart.set_y_axis( # :name => 'Sales (1000 units)', # :name_font => { # :name => 'Century', # :underline => 1, # :color => 'red' # }, # :num_font => { # :bold => 1, # :italic => 1, # :color => '#7030A0' # } # ) def set_x_axis(params = {}) @x_axis.merge_with_hash(self, params) end # # Set the properties of the Y-axis. # # The set_y_axis() method is used to set properties of the Y axis. # The properties that can be set are the same as for set_x_axis, # def set_y_axis(params = {}) @y_axis.merge_with_hash(self, params) end # # Set the properties of the secondary X-axis. # def set_x2_axis(params = {}) @x2_axis.merge_with_hash(self, params) end # # Set the properties of the secondary Y-axis. # def set_y2_axis(params = {}) @y2_axis.merge_with_hash(self, params) end # # Set the properties of the chart title. # # The set_title() method is used to set properties of the chart title. # # chart.set_title( :name => 'Year End Results' ) # # The properties that can be set are: # # ===:name # Set the name (title) for the chart. The name is displayed above the # chart. The name can also be a formula such as +=Sheet1!$A$1+. The name # property is optional. The default is to have no chart title. # # ===:name_font # Set the font properties for the chart title. See the "CHART FONTS" section. # def set_title(params) name, name_formula = process_names(params[:name], params[:name_formula]) data_id = get_data_id(name_formula, params[:data]) @title_name = name @title_formula = name_formula @title_data_id = data_id # Set the font properties if present. @title_font = convert_font_args(params[:name_font]) end # # Set the properties of the chart legend. # # The set_legend() method is used to set properties of the chart legend. # # chart.set_legend( :position => 'none' ) # # The properties that can be set are: # # ===:position # Set the position of the chart legend. # # chart.set_legend( :position => 'bottom' ) # # The default legend position is right. The available positions are: # # none # top # bottom # left # right # overlay_left # overlay_right # # ===:delete_series # # This allows you to remove 1 or more series from the the legend # (the series will still display on the chart). This property takes # an array ref as an argument and the series are zero indexed: # # # Delete/hide series index 0 and 2 from the legend. # chart.set_legend(:delete_series => [0, 2]) # def set_legend(params) @legend_position = params[:position] || 'right' @legend_delete_series = params[:delete_series] end # # Set the properties of the chart plotarea. # # The set_plotarea() method is used to set properties of the plot area # of a chart. # # This method isn't implemented yet and is only available in # writeexcel gem. However, it can be simulated using the # set_style() method. # def set_plotarea(params) # Convert the user defined properties to internal properties. @plotarea = area_properties(params) end # # Set the properties of the chart chartarea. # # The set_chartarea() method is used to set the properties of the chart # area. # # chart.set_chartarea( # :border => { :none => 1 }, # :fill => { :color => 'red' } # ) # # The properties that can be set are: # ===:border # Set the border properties of the chartarea such as colour and style. # See the "CHART FORMATTING" section. # ===:fill # Set the fill properties of the plotarea such as colour. See the # "CHART FORMATTING" section. # def set_chartarea(params) # Convert the user defined properties to internal properties. @chartarea = area_properties(params) end # # Set on of the 42 built-in Excel chart styles. The default style is 2. # # The set_style() method is used to set the style of the chart to one # of the 42 built-in styles available on the 'Design' tab in Excel: # # chart.set_style( 4 ) # # The default style is 2. # def set_style(style_id = 2) style_id = 2 if style_id < 0 || style_id > 42 @style_id = style_id end # # Set the option for displaying blank data in a chart. The default is 'gap'. # # The show_blanks_as method controls how blank data is displayed in a chart. # # chart.show_blanks_as('span') # # The available options are: # # gap # Blank data is show as a gap. The default. # zero # Blank data is displayed as zero. # span # Blank data is connected with a line. # def show_blanks_as(option) return unless option unless [:gap, :zero, :span].include?(option.to_sym) raise "Unknown show_blanks_as() option '#{option}'\n" end @show_blanks = option end # # Display data in hidden rows or columns on the chart. # def show_hidden_data @show_hidden_data = true end # # Set dimensions for scale for the chart. # # The set_size() method is used to set the dimensions of the chart. # The size properties that can be set are: # # width # height # x_scale # y_scale # x_offset # y_offset # # The width and height are in pixels. The default chart width is 480 # pixels and the default height is 288 pixels. The size of the chart can # be modified by setting the width and height or by setting the :x_scale # and :y_scale: # # chart.set_size( :width => 720, :height => 576 ) # # # Same as: # # chart.set_size( :x_scale => 1.5, :y_scale => 2 ) # # The :x_offset and :y_offset position the top left corner of the chart # in the cell that it is inserted into. # # Note: the :x_scale, :y_scale, :x_offset and :y_offset parameters can also # be set via the insert_chart() method: # # worksheet.insert_chart( 'E2', chart, 2, 4, 1.5, 2 ) # def set_size(params = {}) @width = params[:width] if params[:width] @height = params[:height] if params[:height] @x_scale = params[:x_scale] if params[:x_scale] @y_scale = params[:y_scale] if params[:y_scale] @x_offset = params[:x_offset] if params[:x_offset] @y_offset = params[:y_offset] if params[:y_offset] end # Backward compatibility with poorly chosen method name. alias :size :set_size # # The set_table method adds a data table below the horizontal axis with the # data used to plot the chart. # # chart.set_table # # The available options, with default values are: # # :vertical => true # Display vertical lines in the table. # :horizontal => true # Display horizontal lines in the table. # :outline => true # Display an outline in the table. # :show_keys => false # Show the legend keys with the table data. # # The data table can only be shown with Bar, Column, Line, Area and Stock charts. # def set_table(params = {}) @table = Table.new(params) end # # Set properties for the chart up-down bars. # # The set_up_down_bars() method adds Up-Down bars to Line charts to # indicate the difference between the first and last data series. # # chart.set_up_down_bars # It is possible to format the up and down bars to add fill and border # properties if required. See the "CHART FORMATTING" section below. # # chart.set_up_down_bars( # :up => { :fill => { :color => 'green' } }, # :down => { :fill => { :color => 'red' } } # ) # Up-down bars can only be applied to Line charts and to Stock charts # (by default). # def set_up_down_bars(params = {}) # Map border to line. [:up, :down].each do |up_down| if params[up_down] params[up_down][:line] = params[up_down][:border] if params[up_down][:border] else params[up_down] = {} end end # Set the up and down bar properties. @up_down_bars = { :_up => { :_line => line_properties(params[:up][:line]), :_fill => line_properties(params[:up][:fill]) }, :_down => { :_line => line_properties(params[:down][:line]), :_fill => line_properties(params[:down][:fill]) } } end # # Set properties for the chart drop lines. # # The set_drop_lines() method adds Drop Lines to charts to show the # Category value of points in the data. # # chart.set_drop_lines # # It is possible to format the Drop Line line properties if required. # See the "CHART FORMATTING" section below. # # chart.set_drop_lines(:line => { :color => 'red', :dash_type => 'square_dot' } ) # # Drop Lines are only available in Line, Area and Stock charts. # def set_drop_lines(params = {}) # Set the drop line properties. line = line_properties(params[:line]) @drop_lines = { :_line => line } end # # Set properties for the chart high-low lines. # # The set_high_low_lines() method adds High-Low lines to charts to show # the maximum and minimum values of points in a Category. # # chart.set_high_low_lines # # It is possible to format the High-Low Line line properties if required. # See the "CHART FORMATTING" section below. # # chart.set_high_low_lines( :line => { :color => 'red' } ) # # High-Low Lines are only available in Line and Stock charts. # def set_high_low_lines(params = {}) # Set the drop line properties. line = line_properties(params[:line]) @hi_low_lines = { :_line => line } end # # Setup the default configuration data for an embedded chart. # def set_embedded_config_data @embedded = 1 end # # Write the element. # def write_bar_chart(params) # :nodoc: if ptrue?(params[:primary_axes]) series = get_primary_axes_series else series = get_secondary_axes_series end return if series.empty? subtype = @subtype subtype = 'percentStacked' if subtype == 'percent_stacked' # Set a default overlap for stacked charts. if @subtype =~ /stacked/ @series_overlap = 100 unless @series_overlap end @writer.tag_elements('c:barChart') do # Write the c:barDir element. write_bar_dir # Write the c:grouping element. write_grouping(subtype) # Write the c:ser elements. series.each {|s| write_ser(s)} # write the c:marker element. write_marker_value # Write the c:gapWidth element. write_gap_width(@series_gap) # write the c:overlap element. write_overlap(@series_overlap) # Write the c:axId elements write_axis_ids(params) end end # # Switch name and name_formula parameters if required. # def process_names(name = nil, name_formula = nil) # :nodoc: # Name looks like a formula, use it to set name_formula. if name && name =~ /^=[^!]+!\$/ name_formula = name name = '' end [name, name_formula] end # # Assign an id to a each unique series formula or title/axis formula. Repeated # formulas such as for categories get the same id. If the series or title # has user specified data associated with it then that is also stored. This # data is used to populate cached Excel data when creating a chart. # If there is no user defined data then it will be populated by the parent # workbook in Workbook::_add_chart_data # def get_data_id(formula, data) # :nodoc: # Ignore series without a range formula. return unless formula # Strip the leading '=' from the formula. formula = formula.sub(/^=/, '') # Store the data id in a hash keyed by the formula and store the data # in a separate array with the same id. if !@formula_ids.has_key?(formula) # Haven't seen this formula before. id = @formula_data.size @formula_data << data @formula_ids[formula] = id else # Formula already seen. Return existing id. id = @formula_ids[formula] # Store user defined data if it isn't already there. @formula_data[id] = data unless @formula_data[id] end id end # # Convert user defined font values into private hash values. # def convert_font_args(params) return unless params font = { :_name => params[:name], :_color => params[:color], :_size => params[:size], :_bold => params[:bold], :_italic => params[:italic], :_underline => params[:underline], :_pitch_family => params[:pitch_family], :_charset => params[:charset], :_baseline => params[:baseline] || 0, :_rotation => params[:rotation] } # Convert font size units. font[:_size] *= 100 if font[:_size] && font[:_size] != 0 # Convert rotation into 60,000ths of a degree. if ptrue?(font[:_rotation]) font[:_rotation] = 60_000 * font[:_rotation].to_i end font end # # Convert user defined line properties to the structure required internally. # def line_properties(line) # :nodoc: return { :_defined => 0 } unless line dash_types = { :solid => 'solid', :round_dot => 'sysDot', :square_dot => 'sysDash', :dash => 'dash', :dash_dot => 'dashDot', :long_dash => 'lgDash', :long_dash_dot => 'lgDashDot', :long_dash_dot_dot => 'lgDashDotDot', :dot => 'dot', :system_dash_dot => 'sysDashDot', :system_dash_dot_dot => 'sysDashDotDot' } # Check the dash type. dash_type = line[:dash_type] if dash_type line[:dash_type] = value_or_raise(dash_types, dash_type, 'dash type') end line[:_defined] = 1 line end private # # retun primary/secondary series by :primary_axes flag # def axes_series(params) if params[:primary_axes] != 0 primary_axes_series else secondary_axes_series end end # # Convert and aref of row col values to a range formula. # def aref_to_formula(data) # :nodoc: # If it isn't an array ref it is probably a formula already. return data unless data.kind_of?(Array) xl_range_formula(*data) end # # Find the overall type of the data associated with a series. # # TODO. Need to handle date type. # def get_data_type(data) # :nodoc: # Check for no data in the series. return 'none' unless data return 'none' if data.empty? # If the token isn't a number assume it is a string. data.each do |token| next unless token return 'str' unless token.kind_of?(Numeric) end # The series data was all numeric. 'num' end # # Convert the user specified colour index or string to a rgb colour. # def get_color(color) # :nodoc: # Convert a HTML style #RRGGBB color. if color and color =~ /^#[0-9a-fA-F]{6}$/ color = color.sub(/^#/, '') return color.upcase end index = Format.get_color(color) # Set undefined colors to black. unless index index = 0x08 raise "Unknown color '#{color}' used in chart formatting." end get_palette_color(index) end # # Convert from an Excel internal colour index to a XML style #RRGGBB index # based on the default or user defined values in the Workbook palette. # Note: This version doesn't add an alpha channel. # def get_palette_color(index) # :nodoc: palette = @palette # Adjust the colour index. index -= 8 # Palette is passed in from the Workbook class. rgb = palette[index] sprintf("%02X%02X%02X", *rgb) end # # Get the Spreadsheet::WriteExcel line pattern for backward compatibility. # def get_swe_line_pattern(val) value = val.downcase default = 'solid' patterns = { 0 => 'solid', 1 => 'dash', 2 => 'dot', 3 => 'dash_dot', 4 => 'long_dash_dot_dot', 5 => 'none', 6 => 'solid', 7 => 'solid', 8 => 'solid', 'solid' => 'solid', 'dash' => 'dash', 'dot' => 'dot', 'dash-dot' => 'dash_dot', 'dash-dot-dot' => 'long_dash_dot_dot', 'none' => 'none', 'dark-gray' => 'solid', 'medium-gray' => 'solid', 'light-gray' => 'solid' } patterns[value] || default end # # Get the Spreadsheet::WriteExcel line weight for backward compatibility. # def get_swe_line_weight(val) value = val.downcase default = 1 weights = { 1 => 0.25, 2 => 1, 3 => 2, 4 => 3, 'hairline' => 0.25, 'narrow' => 1, 'medium' => 2, 'wide' => 3 } weights[value] || default end # # Convert user defined fill properties to the structure required internally. # def fill_properties(fill) # :nodoc: return { :_defined => 0 } unless fill fill[:_defined] = 1 fill end # # Convert user defined marker properties to the structure required internally. # def marker_properties(marker) # :nodoc: return unless marker types = { :automatic => 'automatic', :none => 'none', :square => 'square', :diamond => 'diamond', :triangle => 'triangle', :x => 'x', :star => 'start', :dot => 'dot', :short_dash => 'dot', :dash => 'dash', :long_dash => 'dash', :circle => 'circle', :plus => 'plus', :picture => 'picture' } # Check for valid types. marker_type = marker[:type] if marker_type marker[:automatic] = 1 if marker_type == 'automatic' marker[:type] = value_or_raise(types, marker_type, 'maker type') end # Set the line properties for the marker.. line = line_properties(marker[:line]) # Allow 'border' as a synonym for 'line'. line = line_properties(marker[:border]) if marker[:border] # Set the fill properties for the marker. fill = fill_properties(marker[:fill]) marker[:_line] = line marker[:_fill] = fill marker end # # Convert user defined trendline properties to the structure required internally. # def trendline_properties(trendline) # :nodoc: return unless trendline types = { :exponential => 'exp', :linear => 'linear', :log => 'log', :moving_average => 'movingAvg', :polynomial => 'poly', :power => 'power' } # Check the trendline type. trend_type = trendline[:type] trendline[:type] = value_or_raise(types, trend_type, 'trendline type') # Set the line properties for the trendline.. line = line_properties(trendline[:line]) # Allow 'border' as a synonym for 'line'. line = line_properties(trendline[:border]) if trendline[:border] # Set the fill properties for the trendline. fill = fill_properties(trendline[:fill]) trendline[:_line] = line trendline[:_fill] = fill return trendline end # # Convert user defined error bars properties to structure required # internally. # def error_bars_properties(params = {}) return if !ptrue?(params) || params.empty? # Default values. error_bars = { :_type => 'fixedVal', :_value => 1, :_endcap => 1, :_direction => 'both' } types = { :fixed => 'fixedVal', :percentage => 'percentage', :standard_deviation => 'stdDev', :standard_error => 'stdErr' } # Check the error bars type. error_type = params[:type].to_sym if types.key?(error_type) error_bars[:_type] = types[error_type] else raise "Unknown error bars type '#{error_type}'\n" end # Set the value for error types that require it. if params.key?(:value) error_bars[:_value] = params[:value] end # Set the end-cap style. if params.key?(:end_style) error_bars[:_endcap] = params[:end_style] end # Set the error bar direction. if params.key?(:direction) if params[:direction] == 'minus' error_bars[:_direction] = 'minus' elsif params[:direction] == 'plus' error_bars[:_direction] = 'plus' else # Default to 'both' end end # Set the line properties for the error bars. error_bars[:_line] = line_properties(params[:line]) error_bars end # # Convert user defined labels properties to the structure required internally. # def labels_properties(labels) # :nodoc: return nil unless labels position = labels[:position] if position.nil? || position.empty? labels.delete(:position) else # Map user defined label positions to Excel positions. positions = { :center => 'ctr', :right => 'r', :left => 'l', :top => 't', :above => 't', :bottom => 'b', :below => 'b', :inside_end => 'inEnd', :outside_end => 'outEnd', :best_fit => 'bestFit' } labels[:position] = value_or_raise(positions, position, 'label position') end labels end # # Convert user defined area properties to the structure required internally. # def area_properties(arg) # :nodoc: area = {} # Map deprecated Spreadsheet::WriteExcel fill colour. arg[:fill] = { :color => arg[:color] } if arg[:color] # Map deprecated Spreadsheet::WriteExcel line_weight. if arg[:line_weight] width = get_swe_line_weight(arg[:line_weight]) arg[:border] = { :width => width } end # Map deprecated Spreadsheet::WriteExcel line_pattern. if arg[:line_pattern] pattern = get_swe_line_pattern(arg[:line_pattern]) if pattern == 'none' arg[:border] = { :none => 1 } else arg[:border][:dash_type] = pattern end end # Map deprecated Spreadsheet::WriteExcel line colour. arg[:border][:color] = arg[:line_color] if arg[:line_color] # Handle Excel::Writer::XLSX style properties. # Set the line properties for the chartarea. line = line_properties(arg[:line]) # Allow 'border' as a synonym for 'line'. line = line_properties(arg[:border]) if (arg[:border]) # Set the fill properties for the chartarea. fill = fill_properties(arg[:fill]) area[:_line] = line area[:_fill] = fill return area end # # Convert user defined points properties to structure required internally. # def points_properties(user_points = nil) return unless user_points points = [] user_points.each do |user_point| if user_point # Set the lline properties for the point. line = line_properties(user_point[:line]) # Allow 'border' as a synonym for 'line'. if user_point[:border] line = line_properties(user_point[:border]) end # Set the fill properties for the chartarea. fill = fill_properties(user_point[:fill]) point = {} point[:_line] = line point[:_fill] = fill end points << point end points end def value_or_raise(hash, key, msg) raise "Unknown #{msg} '#{key}'" unless hash[key.to_sym] hash[key.to_sym] end # # Returns series which use the primary axes. # def get_primary_axes_series @series.reject {|s| s[:_y2_axis]} end alias :primary_axes_series :get_primary_axes_series # # Returns series which use the secondary axes. # def get_secondary_axes_series @series.select {|s| s[:_y2_axis]} end alias :secondary_axes_series :get_secondary_axes_series # # Add a unique ids for primary or secondary axis. # def add_axis_ids(params) # :nodoc: chart_id = 1 + @id axis_count = 1 + @axis2_ids.size + @axis_ids.size id1 = sprintf('5%03d%04d', chart_id, axis_count) id2 = sprintf('5%03d%04d', chart_id, axis_count + 1) if ptrue?(params[:primary_axes]) @axis_ids << id1 << id2 else @axis2_ids << id1 << id2 end end # # Get the font style attributes from a font hash. # def get_font_style_attributes(font) return [] unless font attributes = [] attributes << 'sz' << font[:_size] if ptrue?(font[:_size]) attributes << 'b' << font[:_bold] if font[:_bold] attributes << 'i' << font[:_italic] if font[:_italic] attributes << 'u' << 'sng' if font[:_underline] attributes << 'baseline' << font[:_baseline] attributes end # # Get the font latin attributes from a font hash. # def get_font_latin_attributes(font) return [] unless font attributes = [] attributes << 'typeface' << font[:_name] if ptrue?(font[:_name]) attributes << 'pitchFamily' << font[:_pitch_family] if font[:_pitch_family] attributes << 'charset' << font[:_charset] if font[:_charset] attributes end # # Setup the default properties for a chart. # def set_default_properties # :nodoc: # Set the default axis properties. @x_axis.defaults = { :num_format => 'General', :major_gridlines => { :visible => 0 } } @y_axis.defaults = { :num_format => 'General', :major_gridlines => { :visible => 1 } } @x2_axis.defaults = { :num_format => 'General', :label_position => 'none', :crossing => 'max', :visible => 0 } @y2_axis.defaults = { :num_format => 'General', :major_gridlines => { :visible => 0 }, :position => 'right', :visible => 1 } set_x_axis set_y_axis set_x2_axis set_y2_axis end def default_chartarea_property { :_visible => 0, :_fg_color_index => 0x4E, :_fg_color_rgb => 0xFFFFFF, :_bg_color_index => 0x4D, :_bg_color_rgb => 0x000000, :_area_pattern => 0x0000, :_area_options => 0x0000, :_line_pattern => 0x0005, :_line_weight => 0xFFFF, :_line_color_index => 0x4D, :_line_color_rgb => 0x000000, :_line_options => 0x0008 } end def default_chartarea_property_for_embedded default_chartarea_property. merge( :_visible => 1, :_area_pattern => 0x0001, :_area_options => 0x0001, :_line_pattern => 0x0000, :_line_weight => 0x0000, :_line_options => 0x0009 ) end def default_plotarea_property { :_visible => 1, :_fg_color_index => 0x16, :_fg_color_rgb => 0xC0C0C0, :_bg_color_index => 0x4F, :_bg_color_rgb => 0x000000, :_area_pattern => 0x0001, :_area_options => 0x0000, :_line_pattern => 0x0000, :_line_weight => 0x0000, :_line_color_index => 0x17, :_line_color_rgb => 0x808080, :_line_options => 0x0000 } end # # Write the element. # def write_chart_space # :nodoc: @writer.tag_elements('c:chartSpace', chart_space_attributes) do yield end end # for element. def chart_space_attributes # :nodoc: schema = 'http://schemas.openxmlformats.org/' [ 'xmlns:c', "#{schema}drawingml/2006/chart", 'xmlns:a', "#{schema}drawingml/2006/main", 'xmlns:r', "#{schema}officeDocument/2006/relationships" ] end # # Write the element. # def write_lang # :nodoc: @writer.empty_tag('c:lang', ['val', 'en-US']) end # # Write the element. # def write_style # :nodoc: return if @style_id == 2 @writer.empty_tag('c:style', ['val', @style_id]) end # # Write the element. # def write_chart # :nodoc: @writer.tag_elements('c:chart') do # Write the chart title elements. if title = @title_formula write_title_formula(title, @title_data_id, nil, @title_font) elsif title = @title_name write_title_rich(title, nil, @title_font) end # Write the c:plotArea element. write_plot_area # Write the c:legend element. write_legend # Write the c:plotVisOnly element. write_plot_vis_only # Write the c:dispBlanksAs element. write_disp_blanks_as end end # # Write the element. # def write_disp_blanks_as return if @show_blanks == 'gap' @writer.empty_tag('c:dispBlanksAs', ['val', @show_blanks]) end # # Write the element. # def write_plot_area # :nodoc: write_plot_area_base end def write_plot_area_base(type = nil) # :nodoc: @writer.tag_elements('c:plotArea') do # Write the c:layout element. write_layout # Write the subclass chart type elements for primary and secondary axes. write_chart_type(:primary_axes => 1) write_chart_type(:primary_axes => 0) # Write the c:catAx elements for series using primary axes. params = { :x_axis => @x_axis, :y_axis => @y_axis, :axis_ids => @axis_ids } write_cat_or_date_axis(params, type) write_val_axis(params) # Write c:valAx and c:catAx elements for series using secondary axes. params = { :x_axis => @x2_axis, :y_axis => @y2_axis, :axis_ids => @axis2_ids } write_val_axis(params) write_cat_or_date_axis(params, type) # Write the c:dTable element. write_d_table # Write the c:spPr element for the plotarea formatting. write_sp_pr(@plotarea) end end def write_cat_or_date_axis(params, type) if type == :stock write_date_axis(params) else write_cat_axis(params) end end # # Write the element. # def write_layout # :nodoc: @writer.empty_tag('c:layout') end # # Write the chart type element. This method should be overridden by the # subclasses. # def write_chart_type # :nodoc: end # # Write the element. # def write_grouping(val) # :nodoc: @writer.empty_tag('c:grouping', ['val', val]) end # # Write the series elements. # def write_series(series) # :nodoc: write_ser(series) end def write_series_base # Write each series with subelements. index = 0 @series.each do |series| write_ser(index, series) index += 1 end # Write the c:marker element. write_marker_value # Write the c:overlap element # block given by Bar and Column yield # Generate the axis ids. add_axis_id add_axis_id # Write the c:axId element. write_axis_id(@axis_ids[0]) write_axis_id(@axis_ids[1]) end # # Write the element. # def write_ser(series) # :nodoc: index = @series_index @series_index += 1 @writer.tag_elements('c:ser') do # Write the c:idx element. write_idx(index) # Write the c:order element. write_order(index) # Write the series name. write_series_name(series) # Write the c:spPr element. write_sp_pr(series) # Write the c:marker element. write_marker(series[:_marker]) # Write the c:invertIfNegative element. write_c_invert_if_negative(series[:_invert_if_neg]) # Write the c:dPt element. write_d_pt(series[:_points]) # Write the c:dLbls element. write_d_lbls(series[:_labels]) # Write the c:trendline element. write_trendline(series[:_trendline]) # Write the c:errBars element. write_error_bars(series[:_error_bars]) # Write the c:cat element. write_cat(series) # Write the c:val element. write_val(series) # Write the c:smooth element. write_c_smooth(series[:_smooth]) if ptrue?(@smooth_allowed) end end # # Write the element. # def write_idx(val) # :nodoc: @writer.empty_tag('c:idx', ['val', val]) end # # Write the element. # def write_order(val) # :nodoc: @writer.empty_tag('c:order', ['val', val]) end # # Write the series name. # def write_series_name(series) # :nodoc: if name = series[:_name_formula] write_tx_formula(name, series[:_name_id]) elsif name = series[:_name] write_tx_value(name) end end # # Write the element. # def write_cat(series) # :nodoc: formula = series[:_categories] data_id = series[:_cat_data_id] data = @formula_data[data_id] if data_id # Ignore elements for charts without category values. return unless formula @writer.tag_elements('c:cat') do # Check the type of cached data. type = get_data_type(data) if type == 'str' @cat_has_num_fmt = false # Write the c:strRef element. write_str_ref(formula, data, type) else @cat_has_num_fmt = true # Write the c:numRef element. write_num_ref(formula, data, type) end end end # # Write the element. # def write_val(series) # :nodoc: write_val_base(series[:_values], series[:_val_data_id], 'c:val') end def write_val_base(formula, data_id, tag) # :nodoc: data = @formula_data[data_id] @writer.tag_elements(tag) do # Unlike Cat axes data should only be numeric. # Write the c:numRef element. write_num_ref(formula, data, 'num') end end # # Write the or element. # def write_num_or_str_ref(tag, formula, data, type) # :nodoc: @writer.tag_elements(tag) do # Write the c:f element. write_series_formula(formula) if type == 'num' # Write the c:numCache element. write_num_cache(data) elsif type == 'str' # Write the c:strCache element. write_str_cache(data) end end end # # Write the element. # def write_num_ref(formula, data, type) # :nodoc: write_num_or_str_ref('c:numRef', formula, data, type) end # # Write the element. # def write_str_ref(formula, data, type) # :nodoc: write_num_or_str_ref('c:strRef', formula, data, type) end # # Write the element. # def write_series_formula(formula) # :nodoc: # Strip the leading '=' from the formula. formula = formula.sub(/^=/, '') @writer.data_element('c:f', formula) end # # Write the elements for the primary or secondary axes. # def write_axis_ids(params) # Generate the axis ids. add_axis_ids(params) if params[:primary_axes] != 0 # Write the axis ids for the primary axes. write_axis_id(@axis_ids[0]) write_axis_id(@axis_ids[1]) else # Write the axis ids for the secondary axes. write_axis_id(@axis2_ids[0]) write_axis_id(@axis2_ids[1]) end end # # Write the element. # def write_axis_id(val) # :nodoc: @writer.empty_tag('c:axId', ['val', val]) end # # Write the element. Usually the X axis. # def write_cat_axis(params) # :nodoc: x_axis = params[:x_axis] y_axis = params[:y_axis] axis_ids = params[:axis_ids] # if there are no axis_ids then we don't need to write this element return unless axis_ids return if axis_ids.empty? position = @cat_axis_position horiz = @horiz_cat_axis # Overwrite the default axis position with a user supplied value. position = x_axis.position || position @writer.tag_elements('c:catAx') do write_axis_id(axis_ids[0]) # Write the c:scaling element. write_scaling(x_axis.reverse) write_delete(1) unless ptrue?(x_axis.visible) # Write the c:axPos element. write_axis_pos(position, y_axis.reverse) # Write the c:majorGridlines element. write_major_gridlines(x_axis.major_gridlines) # Write the c:minorGridlines element. write_minor_gridlines(x_axis.minor_gridlines) # Write the axis title elements. if title = x_axis.formula write_title_formula(title, @x_axis.data_id, horiz, @x_axis.name_font) elsif title = x_axis.name write_title_rich(title, horiz, x_axis.name_font) end # Write the c:numFmt element. write_cat_number_format(x_axis) # Write the c:majorTickMark element. write_major_tick_mark(x_axis.major_tick_mark) # Write the c:tickLblPos element. write_tick_label_pos(x_axis.label_position) # Write the axis font elements. write_axis_font(x_axis.num_font) # Write the c:crossAx element. write_cross_axis(axis_ids[1]) if @show_crosses || ptrue?(x_axis.visible) write_crossing(y_axis.crossing) end # Write the c:auto element. write_auto(1) # Write the c:labelAlign element. write_label_align('ctr') # Write the c:labelOffset element. write_label_offset(100) end end # # Write the element. Usually the Y axis. # # TODO. Maybe should have a _write_cat_val_axis method as well for scatter. # def write_val_axis(params) # :nodoc: x_axis = params[:x_axis] y_axis = params[:y_axis] axis_ids = params[:axis_ids] position = params[:position] || @val_axis_position horiz = @horiz_val_axis return unless axis_ids && !axis_ids.empty? # OVerwrite the default axis position with a user supplied value. position = y_axis.position || position @writer.tag_elements('c:valAx') do write_axis_id(axis_ids[1]) # Write the c:scaling element. write_scaling_with_param(y_axis) write_delete(1) unless ptrue?(y_axis.visible) # Write the c:axPos element. write_axis_pos(position, x_axis.reverse) # Write the c:majorGridlines element. write_major_gridlines(y_axis.major_gridlines) # Write the c:minorGridlines element. write_minor_gridlines(y_axis.minor_gridlines) # Write the axis title elements. if title = y_axis.formula write_title_formula(title, y_axis.data_id, horiz, y_axis.name_font) elsif title = y_axis.name write_title_rich(title, horiz, y_axis.name_font) end # Write the c:numberFormat element. write_number_format(y_axis) # Write the c:majorTickMark element. write_major_tick_mark(y_axis.major_tick_mark) # Write the tickLblPos element. write_tick_label_pos(y_axis.label_position) # Write the axis font elements. write_axis_font(y_axis.num_font) # Write the c:crossAx element. write_cross_axis(axis_ids[0]) write_crossing(x_axis.crossing) # Write the c:crossBetween element. write_cross_between # Write the c:majorUnit element. write_c_major_unit(y_axis.major_unit) # Write the c:minorUnit element. write_c_minor_unit(y_axis.minor_unit) end end # # Write the element. # This is for the second valAx in scatter plots. # # Usually the X axis. # def write_cat_val_axis(params) # :nodoc: x_axis = params[:x_axis] y_axis = params[:y_axis] axis_ids = params[:axis_ids] position = params[:position] || @val_axis_position horiz = @horiz_val_axis return unless axis_ids && !axis_ids.empty? # Overwrite the default axis position with a user supplied value. position = x_axis.position || position @writer.tag_elements('c:valAx') do write_axis_id(axis_ids[0]) # Write the c:scaling element. write_scaling_with_param(x_axis) write_delete(1) unless ptrue?(x_axis.visible) # Write the c:axPos element. write_axis_pos(position, y_axis.reverse) # Write the c:majorGridlines element. write_major_gridlines(x_axis.major_gridlines) # Write the c:minorGridlines element. write_minor_gridlines(x_axis.minor_gridlines) # Write the axis title elements. if title = x_axis.formula write_title_formula(title, y_axis.data_id, horiz, x_axis.name_font) elsif title = x_axis.name write_title_rich(title, horiz, x_axis.name_font) end # Write the c:numberFormat element. write_number_format(x_axis) # Write the c:majorTickMark element. write_major_tick_mark(x_axis.major_tick_mark) # Write the c:tickLblPos element. write_tick_label_pos(x_axis.label_position) # Write the axis font elements. write_axis_font(x_axis.num_font) # Write the c:crossAx element. write_cross_axis(axis_ids[1]) write_crossing(y_axis.crossing) # Write the c:crossBetween element. write_cross_between # Write the c:majorUnit element. write_c_major_unit(x_axis.major_unit) # Write the c:minorunit element. write_c_minor_unit(x_axis.minor_unit) end end # # Write the element. Usually the X axis. # def write_date_axis(params) # :nodoc: x_axis = params[:x_axis] y_axis = params[:y_axis] axis_ids = params[:axis_ids] return unless axis_ids && !axis_ids.empty? position = @cat_axis_position # Overwrite the default axis position with a user supplied value. position = x_axis.position || position @writer.tag_elements('c:dateAx') do write_axis_id(axis_ids[0]) # Write the c:scaling element. write_scaling_with_param(x_axis) write_delete(1) unless ptrue?(x_axis.visible) # Write the c:axPos element. write_axis_pos(position, y_axis.reverse) # Write the c:majorGridlines element. write_major_gridlines(x_axis.major_gridlines) # Write the c:minorGridlines element. write_minor_gridlines(x_axis.minor_gridlines) # Write the axis title elements. if title = x_axis.formula write_title_formula(title, x_axis.data_id, nil, x_axis.name_font) elsif title = x_axis.name write_title_rich(title, nil, x_axis.name_font) end # Write the c:numFmt element. write_number_format(x_axis) # Write the c:majorTickMark element. write_major_tick_mark(x_axis.major_tick_mark) # Write the c:tickLblPos element. write_tick_label_pos(x_axis.label_position) # Write the font elements. write_axis_font(x_axis.num_font) # Write the c:crossAx element. write_cross_axis(axis_ids[1]) if @show_crosses || ptrue?(x_axis.visible) write_crossing(y_axis.crossing) end # Write the c:auto element. write_auto(1) # Write the c:labelOffset element. write_label_offset(100) # Write the c:majorUnit element. write_c_major_unit(x_axis.major_unit) # Write the c:majorTimeUnit element. if !x_axis.major_unit.nil? write_c_major_time_unit(x_axis.major_unit_type) end # Write the c:minorUnit element. write_c_minor_unit(x_axis.minor_unit) # Write the c:minorTimeUnit element. if !x_axis.minor_unit.nil? write_c_minor_time_unit(x_axis.minor_unit_type) end end end def write_crossing(crossing) # Note, the category crossing comes from the value axis. if nil_or_max?(crossing) # Write the c:crosses element. write_crosses(crossing) else # Write the c:crossesAt element. write_c_crosses_at(crossing) end end def write_scaling_with_param(param) write_scaling( param.reverse, param.min, param.max, param.log_base ) end # # Write the element. # def write_scaling(reverse, min = nil, max = nil, log_base = nil) # :nodoc: @writer.tag_elements('c:scaling') do # Write the c:logBase element. write_c_log_base(log_base) # Write the c:orientation element. write_orientation(reverse) # Write the c:max element. write_c_max(max) # Write the c:min element. write_c_min(min) end end # # Write the element. # def write_c_log_base(val) # :nodoc: return unless ptrue?(val) @writer.empty_tag('c:logBase', ['val', val]) end # # Write the element. # def write_orientation(reverse = nil) # :nodoc: val = ptrue?(reverse) ? 'maxMin' : 'minMax' @writer.empty_tag('c:orientation', ['val', val]) end # # Write the element. # def write_c_max(max = nil) # :nodoc: return if max.nil? @writer.empty_tag('c:max', ['val', max]) end # # Write the element. # def write_c_min(min = nil) # :nodoc: return if min.nil? @writer.empty_tag('c:min', ['val', min]) end # # Write the element. # def write_axis_pos(val, reverse = false) # :nodoc: if reverse val = 'r' if val == 'l' val = 't' if val == 'b' end @writer.empty_tag('c:axPos', ['val', val]) end # # Write the element. Note: It is assumed that if a user # defined number format is supplied (i.e., non-default) then the sourceLinked # attribute is 0. The user can override this if required. # def write_number_format(axis) # :nodoc: axis.write_number_format(@writer) end # # Write the element. Special case handler for category axes which # don't always have a number format. # def write_cat_number_format(axis) axis.write_cat_number_format(@writer, @cat_has_num_fmt) end # # Write the element. # def write_major_tick_mark(val) return unless ptrue?(val) @writer.empty_tag('c:majorTickMark', ['val', val]) end # # Write the element. # def write_tick_label_pos(val) # :nodoc: val ||= 'nextTo' val = 'nextTo' if val == 'next_to' @writer.empty_tag('c:tickLblPos', ['val', val]) end # # Write the element. # def write_cross_axis(val = 'autoZero') # :nodoc: @writer.empty_tag('c:crossAx', ['val', val]) end # # Write the element. # def write_crosses(val) # :nodoc: val ||= 'autoZero' @writer.empty_tag('c:crosses', ['val', val]) end # # Write the element. # def write_c_crosses_at(val) # :nodoc: @writer.empty_tag('c:crossesAt', ['val', val]) end # # Write the element. # def write_auto(val) # :nodoc: @writer.empty_tag('c:auto', ['val', val]) end # # Write the element. # def write_label_align(val) # :nodoc: @writer.empty_tag('c:lblAlgn', ['val', val]) end # # Write the element. # def write_label_offset(val) # :nodoc: @writer.empty_tag('c:lblOffset', ['val', val]) end # # Write the element. # def write_major_gridlines(gridlines) # :nodoc: write_gridlines_base('c:majorGridlines', gridlines) end # # Write the element. # def write_minor_gridlines(gridlines) # :nodoc: write_gridlines_base('c:minorGridlines', gridlines) end def write_gridlines_base(tag, gridlines) # :nodoc: return if gridlines.respond_to?(:[]) and !ptrue?(gridlines[:_visible]) write_lines_base(tag, gridlines) end # # Write the element. # def write_cross_between # :nodoc: val = @cross_between || 'between' @writer.empty_tag('c:crossBetween', ['val', val]) end # # Write the element. # def write_c_major_unit(val = nil) # :nodoc: return unless val @writer.empty_tag('c:majorUnit', ['val', val]) end # # Write the element. # def write_c_minor_unit(val = nil) # :nodoc: return unless val @writer.empty_tag('c:minorUnit', ['val', val]) end # # Write the element. # def write_c_major_time_unit(val) # :nodoc: val ||= 'days' @writer.empty_tag('c:majorTimeUnit', ['val', val]) end # # Write the element. # def write_c_minor_time_unit(val) # :nodoc: val ||= 'days' @writer.empty_tag('c:minorTimeUnit', ['val', val]) end # # Write the element. # def write_legend # :nodoc: position = @legend_position overlay = false if @legend_delete_series && @legend_delete_series.kind_of?(Array) @delete_series = @legend_delete_series end if position =~ /^overlay_/ position.sub!(/^overlay_/, '') overlay = true if position end allowed = { 'right' => 'r', 'left' => 'l', 'top' => 't', 'bottom' => 'b' } return if position == 'none' return unless allowed.has_key?(position) position = allowed[position] @writer.tag_elements('c:legend') do # Write the c:legendPos element. write_legend_pos(position) # Remove series labels from the legend. @delete_series.each do |index| # Write the c:legendEntry element. write_legend_entry(index) end if @delete_series # Write the c:layout element. write_layout # Write the c:overlay element. write_overlay if overlay end end # # Write the element. # def write_legend_pos(val) # :nodoc: @writer.empty_tag('c:legendPos', ['val', val]) end # # Write the element. # def write_legend_entry(index) # :nodoc: @writer.tag_elements('c:legendEntry') do # Write the c:idx element. write_idx(index) # Write the c:delete element. write_delete(1) end end # # Write the element. # def write_overlay # :nodoc: @writer.empty_tag('c:overlay', ['val', 1]) end # # Write the element. # def write_plot_vis_only # :nodoc: val = 1 # Ignore this element if we are plotting hidden data. return if @show_hidden_data @writer.empty_tag('c:plotVisOnly', ['val', val]) end # # Write the element. # def write_print_settings # :nodoc: @writer.tag_elements('c:printSettings') do # Write the c:headerFooter element. write_header_footer # Write the c:pageMargins element. write_page_margins # Write the c:pageSetup element. write_page_setup end end # # Write the element. # def write_header_footer # :nodoc: @writer.empty_tag('c:headerFooter') end # # Write the element. # def write_page_margins # :nodoc: b = 0.75 l = 0.7 r = 0.7 t = 0.75 header = 0.3 footer = 0.3 attributes = [ 'b', b, 'l', l, 'r', r, 't', t, 'header', header, 'footer', footer ] @writer.empty_tag('c:pageMargins', attributes) end # # Write the element. # def write_page_setup # :nodoc: @writer.empty_tag('c:pageSetup') end # # Write the element for a rich string. # def write_title_rich(title, horiz = nil, font = nil) # :nodoc: @writer.tag_elements('c:title') do # Write the c:tx element. write_tx_rich(title, horiz, font) # Write the c:layout element. write_layout end end # # Write the element for a rich string. # def write_title_formula(title, data_id, horiz = nil, font = nil) # :nodoc: @writer.tag_elements('c:title') do # Write the c:tx element. write_tx_formula(title, data_id) # Write the c:layout element. write_layout # Write the c:txPr element. write_tx_pr(horiz, font) end end # # Write the element. # def write_tx_rich(title, horiz, font = nil) # :nodoc: @writer.tag_elements('c:tx') { write_rich(title, horiz, font) } end # # Write the element with a simple value such as for series names. # def write_tx_value(title) # :nodoc: @writer.tag_elements('c:tx') { write_v(title) } end # # Write the element. # def write_tx_formula(title, data_id) # :nodoc: data = @formula_data[data_id] if data_id @writer.tag_elements('c:tx') { write_str_ref(title, data, 'str') } end # # Write the element. # def write_rich(title, horiz, font) # :nodoc: @writer.tag_elements('c:rich') do # Write the a:bodyPr element. write_a_body_pr(horiz) # Write the a:lstStyle element. write_a_lst_style # Write the a:p element. write_a_p_rich(title, font) end end # # Write the element. # def write_a_body_pr(horiz) # :nodoc: rot = -5400000 vert = 'horz' attributes = [ 'rot', rot, 'vert', vert ] attributes = [] unless ptrue?(horiz) @writer.empty_tag('a:bodyPr', attributes) end # # Write the element for axis fonts. # def write_axis_body_pr(rot = nil, vert = nil) attributes = [] attributes << 'rot' << rot if rot attributes << 'vert' << vert if vert @writer.empty_tag('a:bodyPr', attributes) end # # Write the element. # def write_a_lst_style # :nodoc: @writer.empty_tag('a:lstStyle') end # # Write the element for rich string titles. # def write_a_p_rich(title, font) # :nodoc: @writer.tag_elements('a:p') do # Write the a:pPr element. write_a_p_pr_rich(font) # Write the a:r element. write_a_r(title, font) end end # # Write the element for formula titles. # def write_a_p_formula(font = nil) # :nodoc: @writer.tag_elements('a:p') do # Write the a:pPr element. write_a_p_pr_formula(font) # Write the a:endParaRPr element. write_a_end_para_rpr end end # # Write the element for rich string titles. # def write_a_p_pr_rich(font) # :nodoc: @writer.tag_elements('a:pPr') { write_a_def_rpr(font) } end # # Write the element for formula titles. # def write_a_p_pr_formula(font) # :nodoc: @writer.tag_elements('a:pPr') { write_a_def_rpr(font) } end # # Write the element. # def write_a_def_rpr(font = nil) # :nodoc: write_def_rpr_r_pr_common( font, get_font_style_attributes(font), 'a:defRPr') end # # Write the element. # def write_a_end_para_rpr # :nodoc: @writer.empty_tag('a:endParaRPr', ['lang', 'en-US']) end # # Write the element. # def write_a_r(title, font) # :nodoc: @writer.tag_elements('a:r') do # Write the a:rPr element. write_a_r_pr(font) # Write the a:t element. write_a_t(title) end end # # Write the element. # def write_a_r_pr(font) # :nodoc: write_def_rpr_r_pr_common( font, get_font_style_attributes(font).unshift('en-US').unshift('lang'), 'a:rPr' ) end def write_def_rpr_r_pr_common(font, style_attributes, tag) # :nodoc: latin_attributes = get_font_latin_attributes(font) has_color = ptrue?(font) && ptrue?(font[:_color]) if !latin_attributes.empty? || has_color @writer.tag_elements(tag, style_attributes) do if has_color write_a_solid_fill(:color => font[:_color]) end if !latin_attributes.empty? write_a_latin(latin_attributes) end end else @writer.empty_tag(tag, style_attributes) end end # # Write the element. # def write_a_t(title) # :nodoc: @writer.data_element('a:t', title) end # # Write the element. # def write_tx_pr(horiz, font) # :nodoc: @writer.tag_elements('c:txPr') do # Write the a:bodyPr element. write_a_body_pr(horiz) # Write the a:lstStyle element. write_a_lst_style # Write the a:p element. write_a_p_formula(font) end end # # Write the element. # def write_marker(marker = nil) # :nodoc: marker ||= @default_marker return unless ptrue?(marker) return if ptrue?(marker[:automatic]) @writer.tag_elements('c:marker') do # Write the c:symbol element. write_symbol(marker[:type]) # Write the c:size element. size = marker[:size] write_marker_size(size) if ptrue?(size) # Write the c:spPr element. write_sp_pr(marker) end end # # Write the element without a sub-element. # def write_marker_value # :nodoc: return unless @default_marker @writer.empty_tag('c:marker', ['val', 1]) end # # Write the element. # def write_marker_size(val) # :nodoc: @writer.empty_tag('c:size', ['val', val]) end # # Write the element. # def write_symbol(val) # :nodoc: @writer.empty_tag('c:symbol', ['val', val]) end # # Write the element. # def write_sp_pr(series) # :nodoc: return if (!series.has_key?(:_line) || !ptrue?(series[:_line][:_defined])) && (!series.has_key?(:_fill) || !ptrue?(series[:_fill][:_defined])) @writer.tag_elements('c:spPr') do # Write the fill elements for solid charts such as pie and bar. if series[:_fill] && series[:_fill][:_defined] != 0 if ptrue?(series[:_fill][:none]) # Write the a:noFill element. write_a_no_fill else # Write the a:solidFill element. write_a_solid_fill(series[:_fill]) end end # Write the a:ln element. write_a_ln(series[:_line]) if series[:_line] && ptrue?(series[:_line][:_defined]) end end # # Write the element. # def write_a_ln(line) # :nodoc: attributes = [] # Add the line width as an attribute. if width = line[:width] # Round width to nearest 0.25, like Excel. width = ((width + 0.125) * 4).to_i / 4.0 # Convert to internal units. width = (0.5 + (12700 * width)).to_i attributes = ['w', width] end @writer.tag_elements('a:ln', attributes) do # Write the line fill. if ptrue?(line[:none]) # Write the a:noFill element. write_a_no_fill elsif ptrue?(line[:color]) # Write the a:solidFill element. write_a_solid_fill(line) end # Write the line/dash type. if type = line[:dash_type] # Write the a:prstDash element. write_a_prst_dash(type) end end end # # Write the element. # def write_a_no_fill # :nodoc: @writer.empty_tag('a:noFill') end # # Write the element. # def write_a_solid_fill(line) # :nodoc: @writer.tag_elements('a:solidFill') do if line[:color] color = get_color(line[:color]) # Write the a:srgbClr element. write_a_srgb_clr(color) end end end # # Write the element. # def write_a_srgb_clr(val) # :nodoc: @writer.empty_tag('a:srgbClr', ['val', val]) end # # Write the element. # def write_a_prst_dash(val) # :nodoc: @writer.empty_tag('a:prstDash', ['val', val]) end # # Write the element. # def write_trendline(trendline) # :nodoc: return unless trendline @writer.tag_elements('c:trendline') do # Write the c:name element. write_name(trendline[:name]) # Write the c:spPr element. write_sp_pr(trendline) # Write the c:trendlineType element. write_trendline_type(trendline[:type]) # Write the c:order element for polynomial trendlines. write_trendline_order(trendline[:order]) if trendline[:type] == 'poly' # Write the c:period element for moving average trendlines. write_period(trendline[:period]) if trendline[:type] == 'movingAvg' # Write the c:forward element. write_forward(trendline[:forward]) # Write the c:backward element. write_backward(trendline[:backward]) end end # # Write the element. # def write_trendline_type(val) # :nodoc: @writer.empty_tag('c:trendlineType', ['val', val]) end # # Write the element. # def write_name(data) # :nodoc: return unless data @writer.data_element('c:name', data) end # # Write the element. # def write_trendline_order(val = 2) # :nodoc: @writer.empty_tag('c:order', ['val', val]) end # # Write the element. # def write_period(val = 2) # :nodoc: @writer.empty_tag('c:period', ['val', val]) end # # Write the element. # def write_forward(val) # :nodoc: return unless val @writer.empty_tag('c:forward', ['val', val]) end # # Write the element. # def write_backward(val) # :nodoc: return unless val @writer.empty_tag('c:backward', ['val', val]) end # # Write the element. # def write_hi_low_lines # :nodoc: write_lines_base('c:hiLowLines', @hi_low_lines) end # # Write the elent. # def write_drop_lines write_lines_base('c:dropLines', @drop_lines) end # # used from write_drop_lines and write_hi_low_lines # def write_lines_base(tag, lines) return unless lines if lines[:_line] && ptrue?(lines[:_line][:_defined]) @writer.tag_elements(tag) { write_sp_pr(lines) } else @writer.empty_tag(tag) end end # # Write the element. # def write_overlap(val = nil) # :nodoc: return unless val @writer.empty_tag('c:overlap', ['val', val]) end # # Write the element. # def write_num_cache(data) # :nodoc: @writer.tag_elements('c:numCache') do # Write the c:formatCode element. write_format_code('General') # Write the c:ptCount element. write_pt_count(data.size) (0..data.size - 1).each do |i| token = data[i] # Write non-numeric data as 0. if token && !(token.to_s =~ /^([+-]?)(?=\d|\.\d)\d*(\.\d*)?([Ee]([+-]?\d+))?$/) token = 0 end # Write the c:pt element. write_pt(i, token) end end end # # Write the element. # def write_str_cache(data) # :nodoc: @writer.tag_elements('c:strCache') do write_pt_count(data.size) write_pts(data) end end def write_pts(data) data.each_index { |i| write_pt(i, data[i])} end # # Write the element. # def write_format_code(data) # :nodoc: @writer.data_element('c:formatCode', data) end # # Write the element. # def write_pt_count(val) # :nodoc: @writer.empty_tag('c:ptCount', ['val', val]) end # # Write the element. # def write_pt(idx, value) # :nodoc: return unless value attributes = ['idx', idx] @writer.tag_elements('c:pt', attributes) { write_v(value) } end # # Write the element. # def write_v(data) # :nodoc: @writer.data_element('c:v', data) end # # Write the element. # def write_protection # :nodoc: return if @protection == 0 @writer.empty_tag('c:protection') end # # Write the elements. # def write_d_pt(points = nil) return unless ptrue?(points) index = -1 points.each do |point| index += 1 next unless ptrue?(point) write_d_pt_point(index, point) end end # # Write an individual element. # def write_d_pt_point(index, point) @writer.tag_elements('c:dPt') do # Write the c:idx element. write_idx(index) # Write the c:spPr element. write_sp_pr(point) end end # # Write the element. # def write_d_lbls(labels) # :nodoc: return unless labels @writer.tag_elements('c:dLbls') do # Write the c:dLblPos element. write_d_lbl_pos(labels[:position]) if labels[:position] # Write the c:showVal element. write_show_val if labels[:value] # Write the c:showCatName element. write_show_cat_name if labels[:category] # Write the c:showSerName element. write_show_ser_name if labels[:series_name] # Write the c:showPercent element. write_show_percent if labels[:percentage] # Write the c:showLeaderLines element. write_show_leader_lines if labels[:leader_lines] end end # # Write the element. # def write_show_val # :nodoc: @writer.empty_tag('c:showVal', ['val', 1]) end # # Write the element. # def write_show_cat_name # :nodoc: @writer.empty_tag('c:showCatName', ['val', 1]) end # # Write the element. # def write_show_ser_name # :nodoc: @writer.empty_tag('c:showSerName', ['val', 1]) end # # Write the element. # def write_show_percent @writer.empty_tag('c:showPercent', ['val', 1]) end # # Write the element. # def write_show_leader_lines @writer.empty_tag('c:showLeaderLines', ['val', 1]) end # # Write the element. # def write_d_lbl_pos(val) @writer.empty_tag('c:dLblPos', ['val', val]) end # # Write the element. # def write_delete(val) # :nodoc: @writer.empty_tag('c:delete', ['val', val]) end # # Write the element. # def write_c_invert_if_negative(invert = nil) # :nodoc: return unless ptrue?(invert) @writer.empty_tag('c:invertIfNegative', ['val', 1]) end # # Write the axis font elements. # def write_axis_font(font) # :nodoc: return unless font @writer.tag_elements('c:txPr') do write_axis_body_pr(font[:_rotation]) write_a_lst_style @writer.tag_elements('a:p') do write_a_p_pr_rich(font) write_a_end_para_rpr end end end # # Write the element. # def write_a_latin(args) # :nodoc: @writer.empty_tag('a:latin', args) end # # Write the element. # def write_d_table @table.write_d_table(@writer) if @table end # # Write the X and Y error bars. # def write_error_bars(error_bars) return unless ptrue?(error_bars) if error_bars[:_x_error_bars] write_err_bars('x', error_bars[:_x_error_bars]) end if error_bars[:_y_error_bars] write_err_bars('y', error_bars[:_y_error_bars]) end end # # Write the element. # def write_err_bars(direction, error_bars) return unless ptrue?(error_bars) @writer.tag_elements('c:errBars') do # Write the c:errDir element. write_err_dir(direction) # Write the c:errBarType element. write_err_bar_type(error_bars[:_direction]) # Write the c:errValType element. write_err_val_type(error_bars[:_type]) unless ptrue?(error_bars[:_endcap]) # Write the c:noEndCap element. write_no_end_cap end if error_bars[:_type] != 'stdErr' # Write the c:val element. write_error_val(error_bars[:_value]) end # Write the c:spPr element. write_sp_pr(error_bars) end end # # Write the element. # def write_err_dir(val) @writer.empty_tag('c:errDir', ['val', val]) end # # Write the element. # def write_err_bar_type(val) @writer.empty_tag('c:errBarType', ['val', val]) end # # Write the element. # def write_err_val_type(val) @writer.empty_tag('c:errValType', ['val', val]) end # # Write the element. # def write_no_end_cap @writer.empty_tag('c:noEndCap', ['val', 1]) end # # Write the element. # def write_error_val(val) @writer.empty_tag('c:val', ['val', val]) end # # Write the element. # def write_up_down_bars return unless ptrue?(@up_down_bars) @writer.tag_elements('c:upDownBars') do # Write the c:gapWidth element. write_gap_width(150) # Write the c:upBars element. write_up_bars(@up_down_bars[:_up]) # Write the c:downBars element. write_down_bars(@up_down_bars[:_down]) end end # # Write the element. # def write_gap_width(val = nil) return unless val @writer.empty_tag('c:gapWidth', ['val', val]) end # # Write the element. # def write_up_bars(format) write_bars_base('c:upBars', format) end # # Write the element. # def write_down_bars(format) write_bars_base('c:downBars', format) end # # Write the element. # def write_c_smooth(smooth) return unless ptrue?(smooth) attributes = ['val', 1] @writer.empty_tag('c:smooth', attributes) end def write_bars_base(tag, format) if ptrue?(format[:_line][:_defined]) || ptrue?(format[:_fill][:_defined]) @writer.tag_elements(tag) { write_sp_pr(format) } else @writer.empty_tag(tag) end end def nil_or_max?(val) # :nodoc: val.nil? || val == 'max' end end end