Class: Origami::Filter::CCITTFax

Inherits:
Object
  • Object
show all
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

A85, AHx, CCF, Fl, RL

Class Method Summary collapse

Instance Method Summary collapse

Methods included from Origami::Filter

included

Constructor Details

#initialize(parameters = {}) ⇒ CCITTFax

Creates a new CCITT Fax Filter.



58
59
60
# 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.



117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
# 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.



65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
# 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