# encoding: ASCII-8BIT # png.rb : Extracts the data from a PNG that is needed for embedding # # Based on some similar code in PDF::Writer by Austin Ziegler # # Copyright April 2008, James Healy. All Rights Reserved. # # This is free software. Please see the LICENSE and COPYING files for details. require 'stringio' require 'enumerator' module Prawn module Images # A convenience class that wraps the logic for extracting the parts # of a PNG image that we need to embed them in a PDF # class PNG < Image # @group Extension API attr_reader :palette, :img_data, :transparency attr_reader :width, :height, :bits attr_reader :color_type, :compression_method, :filter_method attr_reader :interlace_method, :alpha_channel attr_accessor :scaled_width, :scaled_height def self.can_render?(image_blob) image_blob[0, 8].unpack("C*") == [137, 80, 78, 71, 13, 10, 26, 10] end # Process a new PNG image # # data:: A binary string of PNG data # def initialize(data) data = StringIO.new(data.dup) data.read(8) # Skip the default header @palette = "" @img_data = "" @transparency = {} loop do chunk_size = data.read(4).unpack("N")[0] section = data.read(4) case section when 'IHDR' # we can grab other interesting values from here (like width, # height, etc) values = data.read(chunk_size).unpack("NNCCCCC") @width = values[0] @height = values[1] @bits = values[2] @color_type = values[3] @compression_method = values[4] @filter_method = values[5] @interlace_method = values[6] when 'PLTE' @palette << data.read(chunk_size) when 'IDAT' @img_data << data.read(chunk_size) when 'tRNS' # This chunk can only occur once and it must occur after the # PLTE chunk and before the IDAT chunk @transparency = {} case @color_type when 3 # Indexed colour, RGB. Each byte in this chunk is an alpha for # the palette index in the PLTE ("palette") chunk up until the # last non-opaque entry. Set up an array, stretching over all # palette entries which will be 0 (opaque) or 1 (transparent). @transparency[:indexed] = data.read(chunk_size).unpack("C*") short = 255 - @transparency[:indexed].size @transparency[:indexed] += ([255] * short) if short > 0 when 0 # Greyscale. Corresponding to entries in the PLTE chunk. # Grey is two bytes, range 0 .. (2 ^ bit-depth) - 1 grayval = data.read(chunk_size).unpack("n").first @transparency[:grayscale] = grayval when 2 # True colour with proper alpha channel. @transparency[:rgb] = data.read(chunk_size).unpack("nnn") end when 'IEND' # we've got everything we need, exit the loop break else # unknown (or un-important) section, skip over it data.seek(data.pos + chunk_size) end data.read(4) # Skip the CRC end @img_data = Zlib::Inflate.inflate(@img_data) end # number of color components to each pixel # def colors case self.color_type when 0, 3, 4 return 1 when 2, 6 return 3 end end # split the alpha channel data from the raw image data in images # where it's required. # def split_alpha_channel! split_image_data if alpha_channel? end def alpha_channel? @color_type == 4 || @color_type == 6 end # Build a PDF object representing this image in +document+, and return # a Reference to it. # def build_pdf_object(document) if compression_method != 0 raise Errors::UnsupportedImageType, 'PNG uses an unsupported compression method' end if filter_method != 0 raise Errors::UnsupportedImageType, 'PNG uses an unsupported filter method' end if interlace_method != 0 raise Errors::UnsupportedImageType, 'PNG uses unsupported interlace method' end # some PNG types store the colour and alpha channel data together, # which the PDF spec doesn't like, so split it out. split_alpha_channel! case colors when 1 color = :DeviceGray when 3 color = :DeviceRGB else raise Errors::UnsupportedImageType, "PNG uses an unsupported number of colors (#{png.colors})" end # build the image dict obj = document.ref!( :Type => :XObject, :Subtype => :Image, :Height => height, :Width => width, :BitsPerComponent => bits ) # append the actual image data to the object as a stream obj << img_data obj.stream.filters << { :FlateDecode => { :Predictor => 15, :Colors => colors, :BitsPerComponent => bits, :Columns => width } } # sort out the colours of the image if palette.empty? obj.data[:ColorSpace] = color else # embed the colour palette in the PDF as a object stream palette_obj = document.ref!({}) palette_obj << palette # build the color space array for the image obj.data[:ColorSpace] = [:Indexed, :DeviceRGB, (palette.size / 3) -1, palette_obj] end # ************************************* # add transparency data if necessary # ************************************* # For PNG color types 0, 2 and 3, the transparency data is stored in # a dedicated PNG chunk, and is exposed via the transparency attribute # of the PNG class. if transparency[:grayscale] # Use Color Key Masking (spec section 4.8.5) # - An array with N elements, where N is two times the number of color # components. val = transparency[:grayscale] obj.data[:Mask] = [val, val] elsif transparency[:rgb] # Use Color Key Masking (spec section 4.8.5) # - An array with N elements, where N is two times the number of color # components. rgb = transparency[:rgb] obj.data[:Mask] = rgb.collect { |x| [x,x] }.flatten elsif transparency[:indexed] # TODO: broken. I was attempting to us Color Key Masking, but I think # we need to construct an SMask i think. Maybe do it inside # the PNG class, and store it in alpha_channel #obj.data[:Mask] = transparency[:indexed] end # For PNG color types 4 and 6, the transparency data is stored as a alpha # channel mixed in with the main image data. The PNG class seperates # it out for us and makes it available via the alpha_channel attribute if alpha_channel? smask_obj = document.ref!( :Type => :XObject, :Subtype => :Image, :Height => height, :Width => width, :BitsPerComponent => bits, :ColorSpace => :DeviceGray, :Decode => [0, 1] ) smask_obj.stream << alpha_channel smask_obj.stream.filters << { :FlateDecode => { :Predictor => 15, :Colors => 1, :BitsPerComponent => bits, :Columns => width } } obj.data[:SMask] = smask_obj end obj end # Returns the minimum PDF version required to support this image. def min_pdf_version if bits > 8 # 16-bit color only supported in 1.5+ (ISO 32000-1:2008 8.9.5.1) 1.5 elsif alpha_channel? # Need transparency for SMask 1.4 else 1.0 end end private def split_image_data alpha_bytes = bits / 8 color_bytes = colors * bits / 8 scanline_length = (color_bytes + alpha_bytes) * self.width + 1 scanlines = @img_data.bytesize / scanline_length pixels = self.width * self.height data = StringIO.new(@img_data) data.binmode color_data = [0x00].pack('C') * (pixels * color_bytes + scanlines) color = StringIO.new(color_data) color.binmode @alpha_channel = [0x00].pack('C') * (pixels * alpha_bytes + scanlines) alpha = StringIO.new(@alpha_channel) alpha.binmode scanlines.times do |line| data.seek(line * scanline_length) filter = data.getbyte color.putc filter alpha.putc filter self.width.times do color.write data.read(color_bytes) alpha.write data.read(alpha_bytes) end end @img_data = color_data end end end end