module ChunkyPNG # A PNG datastream consists of multiple chunks. This module, and the classes # contained within, help with handling these chunks. It supports both # reading and writing chunks. # # All chunck types are instances of the {ChunkyPNG::Chunk::Base} class. For # some chunk types a specialized class is available, e.g. the IHDR chunk is # represented by the {ChunkyPNG::Chunk::Header} class. These specialized # classes help accessing the content of the chunk. All other chunks are # represented by the {ChunkyPNG::Chunk::Generic} class. # # @see ChunkyPNG::Datastream module Chunk # Reads a chunk from an IO stream. # # @param [IO, #read] io The IO stream to read from. # @return [ChunkyPNG::Chung::Base] The loaded chunk instance. def self.read(io) length, type = io.read(8).unpack('Na4') content = io.read(length) crc = io.read(4).unpack('N').first verify_crc!(type, content, crc) CHUNK_TYPES.fetch(type, Generic).read(type, content) end # Verifies the CRC of a chunk. # @param [String] type The chunk's type. # @param [String] content The chunk's content. # @param [Integer] content The chunk's content. # @raise [RuntimeError] An exception is raised if the found CRC value # is not equal to the expected CRC value. def self.verify_crc!(type, content, found_crc) expected_crc = Zlib.crc32(content, Zlib.crc32(type)) raise ChunkyPNG::CRCMismatch, "Chuck CRC mismatch!" if found_crc != expected_crc end # The base chunk class is the superclass for every chunk type. It contains # methods to write the chunk to an output stream. # # A subclass should implement the +content+ method, which gets called when # the chunk gets written to a PNG datastream # # @abstract class Base # The four-character type indicator for the chunk. This field is used to # find the correct class for a chunk when it is loaded from a PNG stream. # @return [String] attr_accessor :type # Initializes the chunk instance. # @param [String] type The four character chunk type indicator. # @param [Hash] attributes A hash of attributes to set on this chunk. def initialize(type, attributes = {}) self.type = type attributes.each { |k, v| send("#{k}=", v) } end # Writes the chunk to the IO stream, using the provided content. # The checksum will be calculated and appended to the stream. # @param [IO] io The IO stream to write to. # @param [String] content The content for this chunk. def write_with_crc(io, content) io << [content.length].pack('N') << type << content io << [Zlib.crc32(content, Zlib.crc32(type))].pack('N') end # Writes the chunk to the IO stream. # # It will call te +content+ method to get the content for this chunk, # and will calculate and append the checksum automatically. # @param [IO] io The IO stream to write to. def write(io) write_with_crc(io, content || '') end end # The Generic chunk type will read the content from the chunk as it, # and will write it back as it was read. class Generic < Base # The attribute to store the content from the chunk, which gets # written by the +write+ method. attr_accessor :content def initialize(type, content = '') super(type, :content => content) end # Creates an instance, given the chunk's type and content. # @param [String] type The four character chunk type indicator. # @param [String] content The content read from the chunk. # @return [ChunkyPNG::Chunk::Generic] The new chunk instance. def self.read(type, content) self.new(type, content) end end # The header (IHDR) chunk is the first chunk of every PNG image, and # contains information about the image: i.e. its width, height, color # depth, color mode, compression method, filtering method and interlace # method. # # ChunkyPNG supports all values for these variables that are defined in # the PNG spec, except for color depth: Only 8-bit depth images are # supported. Note that it is still possible to access the chunk for such # an image, but ChunkyPNG will raise an exception if you try to access # the pixel data. class Header < Base attr_accessor :width, :height, :depth, :color, :compression, :filtering, :interlace def initialize(attrs = {}) super('IHDR', attrs) @depth ||= 8 @color ||= ChunkyPNG::COLOR_TRUECOLOR @compression ||= ChunkyPNG::COMPRESSION_DEFAULT @filtering ||= ChunkyPNG::FILTERING_DEFAULT @interlace ||= ChunkyPNG::INTERLACING_NONE end # Reads the 13 bytes of content from the header chunk to set the image attributes. # @param [String] type The four character chunk type indicator (= "IHDR"). # @param [String] content The 13 bytes of content read from the chunk. # @return [ChunkyPNG::Chunk::End] The new Header chunk instance with the # variables set to the values according to the content. def self.read(type, content) fields = content.unpack('NNC5') self.new(:width => fields[0], :height => fields[1], :depth => fields[2], :color => fields[3], :compression => fields[4], :filtering => fields[5], :interlace => fields[6]) end # Returns the content for this chunk when it gets written to a file, by packing the # image information variables into the correct format. # @return [String] The 13-byte content for the header chunk. def content [width, height, depth, color, compression, filtering, interlace].pack('NNC5') end end # The End (IEND) chunk indicates the last chunk of a PNG stream. It does not # contain any data. class End < Base def initialize super('IEND') end # Reads the END chunk. It will check if the content is empty. # @param [String] type The four character chunk type indicator (= "IEND"). # @param [String] content The content read from the chunk. Should be empty. # @return [ChunkyPNG::Chunk::End] The new End chunk instance. # @raise [RuntimeError] Raises an exception if the content was not empty. def self.read(type, content) raise ExpectationFailed, 'The IEND chunk should be empty!' if content.bytesize > 0 self.new end # Returns an empty string, because this chunk should always be empty. # @return [""] An empty string. def content ChunkyPNG::Datastream.empty_bytearray end end # The Palette (PLTE) chunk contains the image's palette, i.e. the # 8-bit RGB colors this image is using. # # @see ChunkyPNG::Chunk::Transparency # @see ChunkyPNG::Palette class Palette < Generic end # A transparency (tRNS) chunk contains the alpha channel for the colors # defined in the Palette (PLTE) chunk # # @see ChunkyPNG::Chunk::Palette # @see ChunkyPNG::Palette class Transparency < Generic end class ImageData < Generic def self.read(type, content) raise ExpectationFailed, 'The IDAT chunk should not be empty!' if content.bytesize == 0 super end def self.combine_chunks(data_chunks) Zlib::Inflate.inflate(data_chunks.map { |c| c.content }.join('')) end def self.split_in_chunks(data, level = Zlib::DEFAULT_COMPRESSION, chunk_size = 2147483647) streamdata = Zlib::Deflate.deflate(data, level) # TODO: Split long streamdata over multiple chunks [ ChunkyPNG::Chunk::ImageData.new('IDAT', streamdata) ] end end # The Text (tEXt) chunk contains keyword/value metadata about the PNG stream. # In this chunk, the value is stored uncompressed. # # The tEXt chunk only supports Latin-1 encoded textual data. If you need UTF-8 # support, check out the InternationalText chunk type. # # @see ChunkyPNG::Chunk::CompressedText # @see ChunkyPNG::Chunk::InternationalText class Text < Base attr_accessor :keyword, :value def initialize(keyword, value) super('tEXt') @keyword, @value = keyword, value end def self.read(type, content) keyword, value = content.unpack('Z*a*') new(keyword, value) end # Creates the content to write to the stream, by concatenating the keyword # with the value, joined by a null character. # # @return The content that should be written to the datastream. def content [keyword, value].pack('Z*a*') end end # The CompressedText (zTXt) chunk contains keyword/value metadata about # the PNG stream. In this chunk, the value is compressed using Deflate # compression. # # @see ChunkyPNG::Chunk::CompressedText # @see ChunkyPNG::Chunk::InternationalText class CompressedText < Base attr_accessor :keyword, :value def initialize(keyword, value) super('zTXt') @keyword, @value = keyword, value end def self.read(type, content) keyword, compression, value = content.unpack('Z*Ca*') raise ChunkyPNG::NotSupported, "Compression method #{compression.inspect} not supported!" unless compression == ChunkyPNG::COMPRESSION_DEFAULT new(keyword, Zlib::Inflate.inflate(value)) end # Creates the content to write to the stream, by concatenating the keyword # with the deflated value, joined by a null character. # # @return The content that should be written to the datastream. def content [keyword, ChunkyPNG::COMPRESSION_DEFAULT, Zlib::Deflate.deflate(value)].pack('Z*Ca*') end end # The Text (iTXt) chunk contains keyword/value metadata about the PNG stream. # The metadata in this chunk can be encoded using UTF-8 characters. Moreover, # it is possible to define the language of the metadata, and give a translation # of the keyword name. Finally, it supports bot compressed and uncompressed # values. # # @todo This chunk is currently not implemented, but merely read and written # back intact. # # @see ChunkyPNG::Chunk::Text # @see ChunkyPNG::Chunk::CompressedText class InternationalText < Generic # TODO end # Maps chunk types to classes, based on the four byte chunk type indicator at the # beginning of a chunk. # # If a chunk type is not specified in this hash, the Generic chunk type will be used. # # @see ChunkyPNG::Chunk.read CHUNK_TYPES = { 'IHDR' => Header, 'IEND' => End, 'IDAT' => ImageData, 'PLTE' => Palette, 'tRNS' => Transparency, 'tEXt' => Text, 'zTXt' => CompressedText, 'iTXt' => InternationalText } end end