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@@ -272,7 +272,14 @@ Color invert(Color current_color)
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return current_color == ccitt_white ? ccitt_black : ccitt_white;
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}
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-ErrorOr<u32> read_run_length(BigEndianInputBitStream& input_bit_stream, Color current_color, u32 image_width, u32 column)
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+struct Change {
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+ Color color;
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+ u32 column;
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+};
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+
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+using ReferenceLine = Vector<Change>;
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+
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+ErrorOr<u32> read_run_length(BigEndianInputBitStream& input_bit_stream, Optional<ReferenceLine&> reference_line, Color current_color, u32 image_width, u32 column)
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{
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u8 size {};
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u16 potential_code {};
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@@ -289,6 +296,8 @@ ErrorOr<u32> read_run_length(BigEndianInputBitStream& input_bit_stream, Color cu
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potential_code = 0;
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} else if (auto const maybe_terminal = get_terminal_code(current_color, potential_code, size); maybe_terminal.has_value()) {
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run_length += maybe_terminal->run_length;
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+ if (reference_line.has_value())
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+ TRY(reference_line->try_append({ invert(current_color), column + run_length }));
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break;
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}
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}
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@@ -302,8 +311,11 @@ ErrorOr<u32> read_run_length(BigEndianInputBitStream& input_bit_stream, Color cu
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return run_length;
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}
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-ErrorOr<void> decode_single_ccitt3_1d_line(BigEndianInputBitStream& input_bit_stream, BigEndianOutputBitStream& decoded_bits, u32 image_width)
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+ErrorOr<ReferenceLine> decode_single_ccitt3_1d_line(BigEndianInputBitStream& input_bit_stream, BigEndianOutputBitStream& decoded_bits, u32 image_width)
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{
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+ // This is only useful for the 2D decoder.
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+ ReferenceLine reference_line;
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+
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// We always flip the color when entering the loop, so let's initialize the
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// color with black to make the first marker actually be white.
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Color current_color { ccitt_black };
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@@ -321,12 +333,12 @@ ErrorOr<void> decode_single_ccitt3_1d_line(BigEndianInputBitStream& input_bit_st
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current_color = invert(current_color);
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- run_length += TRY(read_run_length(input_bit_stream, current_color, image_width, column));
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+ run_length += TRY(read_run_length(input_bit_stream, reference_line, current_color, image_width, column));
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}
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TRY(decoded_bits.align_to_byte_boundary());
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- return {};
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+ return reference_line;
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}
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static ErrorOr<void> read_eol(BigEndianInputBitStream& bit_stream, Group3Options::UseFillBits use_fill_bits)
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@@ -349,6 +361,152 @@ static ErrorOr<void> read_eol(BigEndianInputBitStream& bit_stream, Group3Options
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return {};
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}
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+enum class Mode : u8 {
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+ Pass,
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+ Horizontal,
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+ Vertical_0,
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+ Vertical_R1,
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+ Vertical_R2,
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+ Vertical_R3,
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+ Vertical_L1,
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+ Vertical_L2,
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+ Vertical_L3,
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+};
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+
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+struct ModeCode {
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+ u8 code_length {};
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+ Mode mode {};
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+ u8 code {};
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+};
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+
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+// Table 4/T.4 – Two-dimensional code table
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+constexpr Array node_codes = to_array<ModeCode>({
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+ { 4, Mode::Pass, 0b0001 },
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+ { 3, Mode::Horizontal, 0b001 },
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+ { 1, Mode::Vertical_0, 0b1 },
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+ { 3, Mode::Vertical_R1, 0b011 },
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+ { 6, Mode::Vertical_R2, 0b000011 },
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+ { 7, Mode::Vertical_R3, 0b0000011 },
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+ { 3, Mode::Vertical_L1, 0b010 },
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+ { 6, Mode::Vertical_L2, 0b000010 },
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+ { 7, Mode::Vertical_L3, 0b0000010 },
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+});
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+
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+ErrorOr<ModeCode> read_mode(BigEndianInputBitStream& input_bit_stream)
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+{
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+ u8 size {};
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+ u16 potential_code {};
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+ while (size < 7) {
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+ potential_code <<= 1;
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+ potential_code |= TRY(input_bit_stream.read_bit());
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+ ++size;
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+
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+ if (auto const maybe_mode = get_code_from_table(node_codes, potential_code, size); maybe_mode.has_value())
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+ return *maybe_mode;
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+ }
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+
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+ return Error::from_string_literal("CCITTDecoder: Unable to find the correct mode");
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+}
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+
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+enum class Search : u8 {
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+ B1,
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+ B2,
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+};
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+
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+ErrorOr<void> decode_single_ccitt3_2d_block(BigEndianInputBitStream& input_bit_stream, BigEndianOutputBitStream& decoded_bits, u32 image_width, u32 image_height, Group3Options::UseFillBits use_fill_bits)
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+{
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+ ReferenceLine reference_line;
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+ for (u32 i = 0; i < image_height; ++i) {
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+ TRY(read_eol(input_bit_stream, use_fill_bits));
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+ bool const next_is_1D = TRY(input_bit_stream.read_bit()) == 1;
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+
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+ if (next_is_1D) {
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+ reference_line = TRY(decode_single_ccitt3_1d_line(input_bit_stream, decoded_bits, image_width));
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+ } else {
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+ ReferenceLine current_line {};
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+ Color current_color { ccitt_white };
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+ u32 column {};
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+
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+ auto const next_change_on_reference_line = [&](Search search = Search::B1) -> ErrorOr<Change> {
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+ // 4.2.1.3.1 Definition of changing picture elements
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+ Optional<Change> next_change {}; // This is referred to as b1 in the spec.
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+ while (!next_change.has_value()) {
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+ if (reference_line.is_empty())
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+ return Error::from_string_literal("CCITTDecoder: Corrupted stream");
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+ auto const change = reference_line.take_first();
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+ if (change.column < column)
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+ continue;
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+ if ((search == Search::B1 && change.color != current_color)
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+ || (search == Search::B2 && change.color == current_color))
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+ next_change = change;
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+ }
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+ return *next_change;
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+ };
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+
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+ auto const encode_for = [&](Change change, i8 offset = 0) -> ErrorOr<void> {
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+ auto const to_encode = change.column - column + offset;
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+ for (u32 i {}; i < to_encode; ++i)
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+ TRY(decoded_bits.write_bits(current_color == ccitt_white ? 0u : 1u, 1));
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+
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+ column += to_encode;
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+ current_color = change.color;
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+
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+ TRY(current_line.try_empend(change.color, change.column + offset));
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+ return {};
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+ };
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+
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+ while (column < image_width) {
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+ auto const mode = TRY(read_mode(input_bit_stream));
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+
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+ // Behavior are described here 4.2.1.3.2 Coding modes.
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+ switch (mode.mode) {
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+ case Mode::Pass:
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+ TRY(next_change_on_reference_line(Search::B2));
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+ break;
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+ case Mode::Horizontal: {
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+ // a0a1
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+ auto run_length = TRY(read_run_length(input_bit_stream, OptionalNone {}, current_color, image_width, column));
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+ TRY(encode_for({ invert(current_color), column + run_length }));
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+
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+ // a1a2
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+ run_length = TRY(read_run_length(input_bit_stream, OptionalNone {}, current_color, image_width, column));
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+ TRY(encode_for({ invert(current_color), column + run_length }));
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+ break;
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+ }
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+ case Mode::Vertical_0:
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+ TRY(encode_for(TRY(next_change_on_reference_line())));
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+ break;
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+ case Mode::Vertical_R1:
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+ TRY(encode_for(TRY(next_change_on_reference_line()), 1));
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+ break;
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+ case Mode::Vertical_R2:
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+ TRY(encode_for(TRY(next_change_on_reference_line()), 2));
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+ break;
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+ case Mode::Vertical_R3:
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+ TRY(encode_for(TRY(next_change_on_reference_line()), 3));
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+ break;
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+ case Mode::Vertical_L1:
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+ TRY(encode_for(TRY(next_change_on_reference_line()), -1));
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+ break;
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+ case Mode::Vertical_L2:
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+ TRY(encode_for(TRY(next_change_on_reference_line()), -2));
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+ break;
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+ case Mode::Vertical_L3:
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+ TRY(encode_for(TRY(next_change_on_reference_line()), -3));
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+ break;
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+ default:
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+ return Error::from_string_literal("CCITTDecoder: Unsupported mode for 2D decoding");
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+ }
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+ }
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+ reference_line = move(current_line);
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+ }
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+ }
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+
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+ TRY(decoded_bits.align_to_byte_boundary());
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+
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+ return {};
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+}
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+
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}
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ErrorOr<ByteBuffer> decode_ccitt_rle(ReadonlyBytes bytes, u32 image_width, u32 image_height)
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@@ -396,7 +554,8 @@ ErrorOr<ByteBuffer> decode_ccitt_group3(ReadonlyBytes bytes, u32 image_width, u3
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return decoded_bytes;
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}
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- return Error::from_string_literal("CCITT3 2D is not implemented yet :^(");
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+ TRY(decode_single_ccitt3_2d_block(*bit_stream, *decoded_bits, image_width, image_height, options.use_fill_bits));
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+ return decoded_bytes;
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}
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}
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Lucas CHOLLET