Class: Writexlsx::Chart::Scatter

Inherits:

Writexlsx::Chart

• Object
• Writexlsx::Chart
• Writexlsx::Chart::Scatter

Includes:

Utility

Defined in:

lib/write_xlsx/chart/scatter.rb

Overview

The Scatter chart module also supports the following sub-types:

markers_only (the default)
straight_with_markers
straight
smooth_with_markers
smooth

These can be specified at creation time via the add_chart() Worksheet method:

chart = workbook.add_chart(
    :type    => 'scatter',
    :subtype => 'straight_with_markers'
)

Constant Summary

Constants included from Utility

Utility::COL_MAX, Utility::ROW_MAX, Utility::SHEETNAME_MAX, Utility::STR_MAX

Instance Attribute Summary

Attributes inherited from Writexlsx::Chart

#embedded, #formula_data, #formula_ids, #id, #index, #name, #palette, #protection

Instance Method Summary

• #initialize(subtype) ⇒ Scatter constructor

  A new instance of Scatter.

• #modify_series_formatting ⇒ Object

  Add default formatting to the series data unless it has already been specified by the user.

• #write_c_smooth ⇒ Object

  Write the <c:smooth> element.

• #write_chart_type(params) ⇒ Object

  Override the virtual superclass method with a chart specific method.

• #write_plot_area ⇒ Object

  Over-ridden to have 2 valAx elements for scatter charts instead of catAx/valAx.

• #write_scatter_chart(params) ⇒ Object

  Write the <c:scatterChart> element.

• #write_scatter_style(val) ⇒ Object

  Write the <c:scatterStyle> element.

• #write_ser(series) ⇒ Object

  Over-ridden to write c:xVal/c:yVal instead of c:cat/c:val elements.

• #write_x_val(series) ⇒ Object

  Write the <c:xVal> element.

• #write_y_val(series) ⇒ Object

  Write the <c:yVal> element.

Methods included from Utility

#absolute_char, #check_dimensions, #check_dimensions_and_update_max_min_values, #check_parameter, #convert_date_time, delete_files, #ptrue?, #put_deprecate_message, #row_col_notation, #store_col_max_min_values, #store_row_max_min_values, #substitute_cellref, #underline_attributes, #write_color, #xl_cell_to_rowcol, #xl_col_to_name, #xl_range, #xl_range_formula, #xl_rowcol_to_cell, #xml_str

Methods inherited from Writexlsx::Chart

#add_series, #assemble_xml_file, factory, #set_chartarea, #set_embedded_config_data, #set_legend, #set_plotarea, #set_style, #set_title, #set_x2_axis, #set_x_axis, #set_xml_writer, #set_y2_axis, #set_y_axis, #show_blanks_as, #show_hidden_data, #write_bar_chart

Constructor Details

#initialize(subtype) ⇒ Scatter

Returns a new instance of Scatter.

# File 'lib/write_xlsx/chart/scatter.rb', line 38

def initialize(subtype)
  super(subtype)
  @subtype           = subtype || 'marker_only'
  @cross_between     = 'midCat'
  @horiz_val_axis    = 0
  @val_axis_position = 'b'
end

Instance Method Details

#modify_series_formatting ⇒ Object

Add default formatting to the series data unless it has already been specified by the user.

# File 'lib/write_xlsx/chart/scatter.rb', line 244

def modify_series_formatting
  subtype = @subtype

  # The default scatter style "markers only" requires a line type
  if subtype == 'marker_only'
    # Go through each series and define default values.
    @series.each do |series|
      # Set a line type unless there is already a user defined type.
      if series[:_line][:_defined] == 0
        series[:_line] = { :width => 2.25, :none => 1, :_defined => 1 }
      end
    end
  end

  # Turn markers off for subtypes that don't have them
  unless subtype =~ /marker/
    # Go through each series and define default values.
    @series.each do |series|
      # Set a marker type unless there is already a user defined type.
      if !series[:_marker] || series[:_marker][:_defined] == 0
        series[:_marker] = { :type => 'none', :_defined => 1 }
      end
    end
  end
end

#write_c_smooth ⇒ Object

Write the <c:smooth> element.

# File 'lib/write_xlsx/chart/scatter.rb', line 229

def write_c_smooth
  subtype = @subtype
  val     = 1

  return unless subtype =~ /smooth/

  attributes = ['val', val]

  @writer.empty_tag('c:smooth', attributes)
end

#write_chart_type(params) ⇒ Object

Override the virtual superclass method with a chart specific method.

# File 'lib/write_xlsx/chart/scatter.rb', line 49

def write_chart_type(params)
  # Write the c:areaChart element.
  write_scatter_chart(params)
end

#write_plot_area ⇒ Object

Over-ridden to have 2 valAx elements for scatter charts instead of catAx/valAx.

Write the <c:plotArea> element.

# File 'lib/write_xlsx/chart/scatter.rb', line 132

def write_plot_area
  @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 c:catAx and c:valAx elements for series using primary axes
    write_cat_val_axis(
                       :x_axis   => @x_axis,
                       :y_axis   => @y_axis,
                       :axis_ids => @axis_ids,
                       :position => 'b'
                       )
    tmp = @horiz_val_axis
    @horiz_val_axis = 1
    write_val_axis(
                   :x_axis   => @x_axis,
                   :y_axis   => @y_axis,
                   :axis_ids => @axis_ids,
                   :position => 'l'
                   )
    @horiz_val_axis = tmp

    # Write c:valAx and c:catAx elements for series using secondary axes
    write_cat_val_axis(
                       :x_axis   => @x2_axis,
                       :y_axis   => @y2_axis,
                       :axis_ids => @axis2_ids,
                       :position => 'b'
                       )
    @horiz_val_axis = 1
    write_val_axis(
                   :x_axis   => @x2_axis,
                   :y_axis   => @y2_axis,
                   :axis_ids => @axis2_ids,
                   :position => 'l'
                   )

    # Write the c:spPr element for the plotarea formatting.
    write_sp_pr(@plotarea)
  end
end

#write_scatter_chart(params) ⇒ Object

Write the <c:scatterChart> element.

# File 'lib/write_xlsx/chart/scatter.rb', line 57

def write_scatter_chart(params)
  if params[:primary_axes] == 1
    series = get_primary_axes_series
  else
    series = get_secondary_axes_series
  end
  return if series.empty?

  style   = 'lineMarker'
  subtype = @subtype

  # Set the user defined chart subtype
  case subtype
  when 'marker_only', 'straight_with_markers', 'straight'
    style = 'lineMarker'
  when 'smooth_with_markers', 'smooth'
    style = 'smoothMarker'
  end

  # Add default formatting to the series data.
  modify_series_formatting

  @writer.tag_elements('c:scatterChart') do
    # Write the c:scatterStyle element.
    write_scatter_style(style)
    # Write the series elements.
    series.each {|s| write_series(s)}

    # Write the c:marker element.
    write_marker_value

    # Write the c:axId elements
    write_axis_ids(params)
  end
end

#write_scatter_style(val) ⇒ Object

Write the <c:scatterStyle> element.

# File 'lib/write_xlsx/chart/scatter.rb', line 220

def write_scatter_style(val)
  attributes = ['val', val]

  @writer.empty_tag('c:scatterStyle', attributes)
end

#write_ser(series) ⇒ Object

Over-ridden to write c:xVal/c:yVal instead of c:cat/c:val elements.

Write the <c:ser> element.

# File 'lib/write_xlsx/chart/scatter.rb', line 98

def write_ser(series)
  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:dLbls element.
    write_d_lbls(series[:_labels])
    # Write the c:trendline element.
    write_trendline(series[:_trendline])
    # Write the c:xVal element.
    write_x_val(series)
    # Write the c:yVal element.
    write_y_val(series)
    # Write the c:smooth element.
    write_c_smooth
  end
end

#write_x_val(series) ⇒ Object

Write the <c:xVal> element.

# File 'lib/write_xlsx/chart/scatter.rb', line 181

def write_x_val(series)
  formula = series[:_categories]
  data_id = series[:_cat_data_id]
  data    = @formula_data[data_id]

  @writer.tag_elements('c:xVal') do
    # Check the type of cached data.
    type = get_data_type(data)

    # TODO. Can a scatter plot have non-numeric data.

    if type == 'str'
      # Write the c:numRef element.
      write_str_ref(formula, data, type)
    else
      write_num_ref(formula, data, type)
    end
  end
end

#write_y_val(series) ⇒ Object

Write the <c:yVal> element.

# File 'lib/write_xlsx/chart/scatter.rb', line 204

def write_y_val(series)
  formula = series[:_values]
  data_id = series[:_val_data_id]
  data    = @formula_data[data_id]

  @writer.tag_elements('c:yVal') do
    # Unlike Cat axes data should only be numeric

    # Write the c:numRef element.
    write_num_ref(formula, data, 'num')
  end
end