# encoding: utf-8 # # font.rb : The Prawn font class # # Copyright May 2008, Gregory Brown / James Healy. All Rights Reserved. # # This is free software. Please see the LICENSE and COPYING files for details. # require "prawn/font/afm" require "prawn/font/ttf" require "prawn/font/dfont" require "prawn/font_metric_cache" module Prawn class Document # Without arguments, this returns the currently selected font. Otherwise, # it sets the current font. When a block is used, the font is applied # transactionally and is rolled back when the block exits. # # Prawn::Document.generate("font.pdf") do # text "Default font is Helvetica" # # font "Times-Roman" # text "Now using Times-Roman" # # font("Chalkboard.ttf") do # text "Using TTF font from file Chalkboard.ttf" # font "Courier", :style => :bold # text "You see this in bold Courier" # end # # text "Times-Roman, again" # end # # The :name parameter must be a string. It can be one of the 14 built-in # fonts supported by PDF, or the location of a TTF file. The Font::AFM::BUILT_INS # array specifies the valid built in font values. # # If a ttf font is specified, the glyphs necessary to render your document # will be embedded in the rendered PDF. This should be your preferred option # in most cases. It will increase the size of the resulting file, but also # make it more portable. # # The options parameter is an optional hash providing size and style. To use # the :style option you need to map those font styles to their respective font files. # See font_families for more information. # def font(name=nil, options={}) return((defined?(@font) && @font) || font("Helvetica")) if name.nil? if state.pages.empty? && !state.page.in_stamp_stream? raise Prawn::Errors::NotOnPage end new_font = find_font(name.to_s, options) if block_given? save_font do set_font(new_font, options[:size]) yield end else set_font(new_font, options[:size]) end @font end # When called with no argument, returns the current font size. # When called with a single argument but no block, sets the current font # size. When a block is used, the font size is applied transactionally and # is rolled back when the block exits. You may still change the font size # within a transactional block for individual text segments, or nested calls # to font_size. # # Prawn::Document.generate("font_size.pdf") do # font_size 16 # text "At size 16" # # font_size(10) do # text "At size 10" # text "At size 6", :size => 6 # text "At size 10" # end # # text "At size 16" # end # # When called without an argument, this method returns the current font # size. # def font_size(points=nil) return @font_size unless points size_before_yield = @font_size @font_size = points block_given? ? yield : return @font_size = size_before_yield end # Sets the font directly, given an actual Font object # and size. # def set_font(font, size=nil) # :nodoc: @font = font @font_size = size if size end # Saves the current font, and then yields. When the block # finishes, the original font is restored. # def save_font @font ||= find_font("Helvetica") original_font = @font original_size = @font_size yield ensure set_font(original_font, original_size) if original_font end # Looks up the given font using the given criteria. Once a font has been # found by that matches the criteria, it will be cached to subsequent lookups # for that font will return the same object. #-- # Challenges involved: the name alone is not sufficient to uniquely identify # a font (think dfont suitcases that can hold multiple different fonts in a # single file). Thus, the :name key is included in the cache key. # # It is further complicated, however, since fonts in some formats (like the # dfont suitcases) can be identified either by numeric index, OR by their # name within the suitcase, and both should hash to the same font object # (to avoid the font being embedded multiple times). This is not yet implemented, # which means if someone selects a font both by name, and by index, the # font will be embedded twice. Since we do font subsetting, this double # embedding won't be catastrophic, just annoying. # ++ def find_font(name, options={}) #:nodoc: if font_families.key?(name) family, name = name, font_families[name][options[:style] || :normal] if name.is_a?(::Hash) options = options.merge(name) name = options[:file] end end key = "#{name}:#{options[:font] || 0}" font_registry[key] ||= Font.load(self, name, options.merge(:family => family)) end # Hash of Font objects keyed by names # def font_registry #:nodoc: @font_registry ||= {} end # Hash that maps font family names to their styled individual font names. # # To add support for another font family, append to this hash, e.g: # # pdf.font_families.update( # "MyTrueTypeFamily" => { :bold => "foo-bold.ttf", # :italic => "foo-italic.ttf", # :bold_italic => "foo-bold-italic.ttf", # :normal => "foo.ttf" }) # # This will then allow you to use the fonts like so: # # pdf.font("MyTrueTypeFamily", :style => :bold) # pdf.text "Some bold text" # pdf.font("MyTrueTypeFamily") # pdf.text "Some normal text" # # This assumes that you have appropriate TTF fonts for each style you # wish to support. # # By default the styles :bold, :italic, :bold_italic, and :normal are # defined for fonts "Courier", "Times-Roman" and "Helvetica". # # You probably want to provide those four styles, but are free to define # custom ones, like :thin, and use them in font calls. # def font_families @font_families ||= {}.merge!( { "Courier" => { :bold => "Courier-Bold", :italic => "Courier-Oblique", :bold_italic => "Courier-BoldOblique", :normal => "Courier" }, "Times-Roman" => { :bold => "Times-Bold", :italic => "Times-Italic", :bold_italic => "Times-BoldItalic", :normal => "Times-Roman" }, "Helvetica" => { :bold => "Helvetica-Bold", :italic => "Helvetica-Oblique", :bold_italic => "Helvetica-BoldOblique", :normal => "Helvetica" } }) end # Returns the width of the given string using the given font. If :size is not # specified as one of the options, the string is measured using the current # font size. You can also pass :kerning as an option to indicate whether # kerning should be used when measuring the width (defaults to +false+). # # Note that the string _must_ be encoded properly for the font being used. # For AFM fonts, this is WinAnsi. For TTF, make sure the font is encoded as # UTF-8. You can use the Font#normalize_encoding method to make sure strings # are in an encoding appropriate for the current font. #-- # For the record, this method used to be a method of Font (and still delegates # to width computations on Font). However, having the primary interface for # calculating string widths exist on Font made it tricky to write extensions # for Prawn in which widths are computed differently (e.g., taking formatting # tags into account, or the like). # # By putting width_of here, on Document itself, extensions may easily override # it and redefine the width calculation behavior. #++ def width_of(string, options={}) if p = options[:inline_format] p = [] unless p.is_a?(Array) # Build up an Arranger with the entire string on one line, finalize it, # and find its width. arranger = Prawn::Text::Formatted::Arranger.new(self, options) arranger.consumed = self.text_formatter.format(string, *p) arranger.finalize_line arranger.line_width else width_of_string(string, options) end end private def width_of_inline_formatted_string(string, options={}) # Build up an Arranger with the entire string on one line, finalize it, # and find its width. arranger = Prawn::Text::Formatted::Arranger.new(self, options) arranger.consumed = Text::Formatted::Parser.format(string) arranger.finalize_line arranger.line_width end def width_of_string(string, options={}) font_metric_cache.width_of( string, options ) end end # Provides font information and helper functions. # class Font # The current font name attr_reader :name # The current font family attr_reader :family # The options hash used to initialize the font attr_reader :options # Shortcut interface for constructing a font object. Filenames of the form # *.ttf will call Font::TTF.new, *.dfont Font::DFont.new, and anything else # will be passed through to Font::AFM.new() # def self.load(document,name,options={}) case name.to_s when /\.ttf$/i then TTF.new(document, name, options) when /\.dfont$/i then DFont.new(document, name, options) when /\.afm$/i then AFM.new(document, name, options) else AFM.new(document, name, options) end end def initialize(document,name,options={}) #:nodoc: @document = document @name = name @options = options @family = options[:family] @identifier = generate_unique_id @references = {} end # The size of the font ascender in PDF points # def ascender @ascender / 1000.0 * size end # The size of the font descender in PDF points # def descender -@descender / 1000.0 * size end # The size of the recommended gap between lines of text in PDF points # def line_gap @line_gap / 1000.0 * size end # Normalizes the encoding of the string to an encoding supported by the # font. The string is expected to be UTF-8 going in. It will be re-encoded # and the new string will be returned. For an in-place (destructive) # version, see normalize_encoding!. def normalize_encoding(string) raise NotImplementedError, "subclasses of Prawn::Font must implement #normalize_encoding" end # Destructive version of normalize_encoding; normalizes the encoding of a # string in place. # def normalize_encoding!(str) str.replace(normalize_encoding(str)) end # Gets height of current font in PDF points at the given font size # def height_at(size) @normalized_height ||= (@ascender - @descender + @line_gap) / 1000.0 @normalized_height * size end # Gets height of current font in PDF points at current font size # def height height_at(size) end # Registers the given subset of the current font with the current PDF # page. This is safe to call multiple times for a given font and subset, # as it will only add the font the first time it is called. # def add_to_current_page(subset) @references[subset] ||= register(subset) @document.state.page.fonts.merge!(identifier_for(subset) => @references[subset]) end def identifier_for(subset) #:nodoc: "#{@identifier}.#{subset}" end def inspect #:nodoc: "#{self.class.name}< #{name}: #{size} >" end # Return a hash (as in Object#hash) for the font based on the output of # #inspect. This is required since font objects are used as keys in hashes # that cache certain values (See # Prawn::Table::Text#styled_with_of_single_character) # def hash #:nodoc: [ self.class, self.name, self.family, size ].hash end # Compliments the #hash implementation above # def eql?( other ) #:nodoc: self.class == other.class && self.name == other.name && self.family == other.family && size == other.send(:size) end private # generate a font identifier that hasn't been used on the curretn page yet # def generate_unique_id offset, id = 0, nil while id.nil? || page_contains_font_id?(id) offset += 1 id = :"F#{@document.font_registry.size + offset}" end id end # Returns true if the provided font identifier already exists in the document. # This is used when adding new fonts to a document to ensure we don't step # on fonts imported from a template. # # page_contains_font_id?("F1") # => true # def page_contains_font_id?(id) id = id.to_s @document.state.page.fonts.keys.any? { |exist_id| exist_id.to_s[0,id.size] == id } end def size @document.font_size end end end