Class: Origami::Filter::CCITTFax
- Inherits:
-
Object
- Object
- Origami::Filter::CCITTFax
- Includes:
- Origami::Filter
- Defined in:
- lib/origami/filters/ccitt.rb,
lib/origami/filters/ccitt/tables.rb
Overview
Class representing a Filter used to encode and decode data with CCITT-facsimile compression algorithm.
Defined Under Namespace
Classes: DecodeParms
Constant Summary collapse
- EOL =
codeword('000000000001')
- RTC =
codeword('000000000001' * 6)
- WHITE_TERMINAL_ENCODE_TABLE =
{ 0 => '00110101', 1 => '000111', 2 => '0111', 3 => '1000', 4 => '1011', 5 => '1100', 6 => '1110', 7 => '1111', 8 => '10011', 9 => '10100', 10 => '00111', 11 => '01000', 12 => '001000', 13 => '000011', 14 => '110100', 15 => '110101', 16 => '101010', 17 => '101011', 18 => '0100111', 19 => '0001100', 20 => '0001000', 21 => '0010111', 22 => '0000011', 23 => '0000100', 24 => '0101000', 25 => '0101011', 26 => '0010011', 27 => '0100100', 28 => '0011000', 29 => '00000010', 30 => '00000011', 31 => '00011010', 32 => '00011011', 33 => '00010010', 34 => '00010011', 35 => '00010100', 36 => '00010101', 37 => '00010110', 38 => '00010111', 39 => '00101000', 40 => '00101001', 41 => '00101010', 42 => '00101011', 43 => '00101100', 44 => '00101101', 45 => '00000100', 46 => '00000101', 47 => '00001010', 48 => '00001011', 49 => '01010010', 50 => '01010011', 51 => '01010100', 52 => '01010101', 53 => '00100100', 54 => '00100101', 55 => '01011000', 56 => '01011001', 57 => '01011010', 58 => '01011011', 59 => '01001010', 60 => '01001011', 61 => '00110010', 62 => '00110011', 63 => '00110100' }.map {|length, bits| [length, codeword(bits)]}.to_h
- WHITE_TERMINAL_DECODE_TABLE =
WHITE_TERMINAL_ENCODE_TABLE.invert
- BLACK_TERMINAL_ENCODE_TABLE =
{ 0 => '0000110111', 1 => '010', 2 => '11', 3 => '10', 4 => '011', 5 => '0011', 6 => '0010', 7 => '00011', 8 => '000101', 9 => '000100', 10 => '0000100', 11 => '0000101', 12 => '0000111', 13 => '00000100', 14 => '00000111', 15 => '000011000', 16 => '0000010111', 17 => '0000011000', 18 => '0000001000', 19 => '00001100111', 20 => '00001101000', 21 => '00001101100', 22 => '00000110111', 23 => '00000101000', 24 => '00000010111', 25 => '00000011000', 26 => '000011001010', 27 => '000011001011', 28 => '000011001100', 29 => '000011001101', 30 => '000001101000', 31 => '000001101001', 32 => '000001101010', 33 => '000001101011', 34 => '000011010010', 35 => '000011010011', 36 => '000011010100', 37 => '000011010101', 38 => '000011010110', 39 => '000011010111', 40 => '000001101100', 41 => '000001101101', 42 => '000011011010', 43 => '000011011011', 44 => '000001010100', 45 => '000001010101', 46 => '000001010110', 47 => '000001010111', 48 => '000001100100', 49 => '000001100101', 50 => '000001010010', 51 => '000001010011', 52 => '000000100100', 53 => '000000110111', 54 => '000000111000', 55 => '000000100111', 56 => '000000101000', 57 => '000001011000', 58 => '000001011001', 59 => '000000101011', 60 => '000000101100', 61 => '000001011010', 62 => '000001100110', 63 => '000001100111' }.map {|length, bits| [length, codeword(bits)]}.to_h
- BLACK_TERMINAL_DECODE_TABLE =
BLACK_TERMINAL_ENCODE_TABLE.invert
- WHITE_CONFIGURATION_ENCODE_TABLE =
{ 64 => '11011', 128 => '10010', 192 => '010111', 256 => '0110111', 320 => '00110110', 384 => '00110111', 448 => '01100100', 512 => '01100101', 576 => '01101000', 640 => '01100111', 704 => '011001100', 768 => '011001101', 832 => '011010010', 896 => '011010011', 960 => '011010100', 1024 => '011010101', 1088 => '011010110', 1152 => '011010111', 1216 => '011011000', 1280 => '011011001', 1344 => '011011010', 1408 => '011011011', 1472 => '010011000', 1536 => '010011001', 1600 => '010011010', 1664 => '011000', 1728 => '010011011', 1792 => '00000001000', 1856 => '00000001100', 1920 => '00000001001', 1984 => '000000010010', 2048 => '000000010011', 2112 => '000000010100', 2176 => '000000010101', 2240 => '000000010110', 2340 => '000000010111', 2368 => '000000011100', 2432 => '000000011101', 2496 => '000000011110', 2560 => '000000011111' }.map {|length, bits| [length, codeword(bits)]}.to_h
- WHITE_CONFIGURATION_DECODE_TABLE =
WHITE_CONFIGURATION_ENCODE_TABLE.invert
- BLACK_CONFIGURATION_ENCODE_TABLE =
{ 64 => '0000001111', 128 => '000011001000', 192 => '000011001001', 256 => '000001011011', 320 => '000000110011', 384 => '000000110100', 448 => '000000110101', 512 => '0000001101100', 576 => '0000001101101', 640 => '0000001001010', 704 => '0000001001011', 768 => '0000001001100', 832 => '0000001001101', 896 => '0000001110010', 960 => '0000001110011', 1024 => '0000001110100', 1088 => '0000001110101', 1152 => '0000001110110', 1216 => '0000001110111', 1280 => '0000001010010', 1344 => '0000001010011', 1408 => '0000001010100', 1472 => '0000001010101', 1536 => '0000001011010', 1600 => '0000001011011', 1664 => '0000001100100', 1728 => '0000001100101', 1792 => '00000001000', 1856 => '00000001100', 1920 => '00000001001', 1984 => '000000010010', 2048 => '000000010011', 2112 => '000000010100', 2176 => '000000010101', 2240 => '000000010110', 2340 => '000000010111', 2368 => '000000011100', 2432 => '000000011101', 2496 => '000000011110', 2560 => '000000011111' }.map {|length, bits| [length, codeword(bits)]}.to_h
- BLACK_CONFIGURATION_DECODE_TABLE =
BLACK_CONFIGURATION_ENCODE_TABLE.invert
Constants included from Origami::Filter
Class Method Summary collapse
-
.codeword(str) ⇒ Object
:nodoc:.
Instance Method Summary collapse
-
#decode(stream) ⇒ Object
Decodes data using CCITT-facsimile compression method.
-
#encode(stream) ⇒ Object
Encodes data using CCITT-facsimile compression method.
-
#initialize(parameters = {}) ⇒ CCITTFax
constructor
Creates a new CCITT Fax Filter.
Methods included from Origami::Filter
Constructor Details
#initialize(parameters = {}) ⇒ CCITTFax
Creates a new CCITT Fax Filter.
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# File 'lib/origami/filters/ccitt.rb', line 58 def initialize(parameters = {}) super(DecodeParms.new(parameters)) end |
Class Method Details
.codeword(str) ⇒ Object
:nodoc:
27 28 29 |
# File 'lib/origami/filters/ccitt/tables.rb', line 27 def self.codeword(str) #:nodoc: [ str.to_i(2), str.length ] end |
Instance Method Details
#decode(stream) ⇒ Object
Decodes data using CCITT-facsimile compression method.
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# File 'lib/origami/filters/ccitt.rb', line 117 def decode(stream) mode = @params.key?(:K) ? @params.K.value : 0 unless mode.is_a?(::Integer) and mode <= 0 raise NotImplementedError.new("CCITT encoding scheme not supported", input_data: stream) end columns = @params.has_key?(:Columns) ? @params.Columns.value : 1728 unless columns.is_a?(::Integer) and columns >= 0 raise CCITTFaxFilterError.new("Invalid value for parameter `Columns'", input_data: stream) end colors = (@params.BlackIs1 == true) ? [0,1] : [1,0] white, _black = colors params = { is_aligned?: (@params.EncodedByteAlign == true), has_eob?: (@params.EndOfBlock.nil? or @params.EndOfBlock == true), has_eol?: (@params.EndOfLine == true) } unless params[:has_eob?] rows = @params.key?(:Rows) ? @params.Rows.value : 0 unless rows.is_a?(::Integer) and rows >= 0 raise CCITTFaxFilterError.new("Invalid value for parameter `Rows'", input_data: stream) end end bitr = Utils::BitReader.new(stream) bitw = Utils::BitWriter.new # Group 4 requires an imaginary white line if columns > 0 and mode < 0 prev_line = Utils::BitWriter.new write_bit_range(prev_line, white, columns) prev_line = Utils::BitReader.new(prev_line.final.to_s) end until bitr.eod? or rows == 0 # realign the read line on a 8-bit boundary if required align_input(bitr) if params[:is_aligned?] # received return-to-control code if params[:has_eob?] and bitr.peek(RTC[1]) == RTC[0] bitr.pos += RTC[1] break end break if columns == 0 # checking for the presence of EOL if bitr.peek(EOL[1]) != EOL[0] raise InvalidCCITTFaxDataError.new( "No end-of-line pattern found (at bit pos #{bitr.pos}/#{bitr.size}})", input_data: stream, decoded_data: bitw.final.to_s ) if params[:has_eol?] else bitr.pos += EOL[1] end begin case when mode == 0 decode_one_dimensional_line(bitr, bitw, columns, colors) when mode < 0 decode_two_dimensional_line(bitr, bitw, columns, colors, prev_line) end rescue DecodeError => error error.input_data = stream error.decoded_data = bitw.final.to_s raise error end rows -= 1 unless params[:has_eob?] end bitw.final.to_s end |
#encode(stream) ⇒ Object
Encodes data using CCITT-facsimile compression method.
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# File 'lib/origami/filters/ccitt.rb', line 65 def encode(stream) mode = @params.key?(:K) ? @params.K.value : 0 colors = (@params.BlackIs1 == true) ? [0,1] : [1,0] use_eob = (@params.EndOfBlock.nil? or @params.EndOfBlock == true) use_eol = (@params.EndOfLine == true) white, _black = colors bitr = Utils::BitReader.new(stream) bitw = Utils::BitWriter.new unless mode.is_a?(::Integer) and mode <= 0 raise NotImplementedError.new("CCITT encoding scheme not supported", input_data: stream) end # Use a single row if no width has been set. @params[:Columns] ||= stream.size * 8 columns = @params.Columns.value unless columns.is_a?(::Integer) and columns >= 0 raise CCITTFaxFilterError.new("Invalid value for parameter `Columns'", input_data: stream) end if columns > 0 # Group 4 requires an imaginary white line if mode < 0 prev_line = Utils::BitWriter.new write_bit_range(prev_line, white, columns) prev_line = Utils::BitReader.new(prev_line.final.to_s) end until bitr.eod? # Emit line synchronization code. bitw.write(*EOL) if use_eol case when mode == 0 encode_one_dimensional_line(bitr, bitw, columns, colors) when mode < 0 encode_two_dimensional_line(bitr, bitw, columns, colors, prev_line) end end end # Emit return-to-control code. bitw.write(*RTC) if use_eob bitw.final.to_s end |