mirror of https://github.com/mindoc-org/mindoc.git
265 lines
6.9 KiB
Go
265 lines
6.9 KiB
Go
package aztec
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import (
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"fmt"
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"github.com/boombuler/barcode/utils"
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)
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type encodingMode byte
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const (
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mode_upper encodingMode = iota // 5 bits
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mode_lower // 5 bits
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mode_digit // 4 bits
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mode_mixed // 5 bits
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mode_punct // 5 bits
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)
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var (
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// The Latch Table shows, for each pair of Modes, the optimal method for
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// getting from one mode to another. In the worst possible case, this can
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// be up to 14 bits. In the best possible case, we are already there!
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// The high half-word of each entry gives the number of bits.
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// The low half-word of each entry are the actual bits necessary to change
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latchTable = map[encodingMode]map[encodingMode]int{
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mode_upper: {
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mode_upper: 0,
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mode_lower: (5 << 16) + 28,
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mode_digit: (5 << 16) + 30,
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mode_mixed: (5 << 16) + 29,
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mode_punct: (10 << 16) + (29 << 5) + 30,
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},
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mode_lower: {
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mode_upper: (9 << 16) + (30 << 4) + 14,
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mode_lower: 0,
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mode_digit: (5 << 16) + 30,
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mode_mixed: (5 << 16) + 29,
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mode_punct: (10 << 16) + (29 << 5) + 30,
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},
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mode_digit: {
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mode_upper: (4 << 16) + 14,
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mode_lower: (9 << 16) + (14 << 5) + 28,
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mode_digit: 0,
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mode_mixed: (9 << 16) + (14 << 5) + 29,
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mode_punct: (14 << 16) + (14 << 10) + (29 << 5) + 30,
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},
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mode_mixed: {
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mode_upper: (5 << 16) + 29,
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mode_lower: (5 << 16) + 28,
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mode_digit: (10 << 16) + (29 << 5) + 30,
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mode_mixed: 0,
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mode_punct: (5 << 16) + 30,
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},
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mode_punct: {
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mode_upper: (5 << 16) + 31,
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mode_lower: (10 << 16) + (31 << 5) + 28,
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mode_digit: (10 << 16) + (31 << 5) + 30,
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mode_mixed: (10 << 16) + (31 << 5) + 29,
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mode_punct: 0,
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},
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}
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// A map showing the available shift codes. (The shifts to BINARY are not shown)
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shiftTable = map[encodingMode]map[encodingMode]int{
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mode_upper: {
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mode_punct: 0,
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},
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mode_lower: {
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mode_punct: 0,
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mode_upper: 28,
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},
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mode_mixed: {
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mode_punct: 0,
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},
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mode_digit: {
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mode_punct: 0,
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mode_upper: 15,
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},
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}
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charMap map[encodingMode][]int
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)
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type state struct {
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mode encodingMode
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tokens token
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bShiftByteCount int
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bitCount int
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}
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type stateSlice []*state
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var initialState *state = &state{
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mode: mode_upper,
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tokens: nil,
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bShiftByteCount: 0,
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bitCount: 0,
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}
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func init() {
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charMap = make(map[encodingMode][]int)
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charMap[mode_upper] = make([]int, 256)
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charMap[mode_lower] = make([]int, 256)
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charMap[mode_digit] = make([]int, 256)
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charMap[mode_mixed] = make([]int, 256)
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charMap[mode_punct] = make([]int, 256)
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charMap[mode_upper][' '] = 1
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for c := 'A'; c <= 'Z'; c++ {
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charMap[mode_upper][int(c)] = int(c - 'A' + 2)
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}
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charMap[mode_lower][' '] = 1
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for c := 'a'; c <= 'z'; c++ {
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charMap[mode_lower][c] = int(c - 'a' + 2)
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}
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charMap[mode_digit][' '] = 1
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for c := '0'; c <= '9'; c++ {
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charMap[mode_digit][c] = int(c - '0' + 2)
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}
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charMap[mode_digit][','] = 12
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charMap[mode_digit]['.'] = 13
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mixedTable := []int{
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0, ' ', 1, 2, 3, 4, 5, 6, 7, 8, 9, 10,
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11, 12, 13, 27, 28, 29, 30, 31, '@', '\\', '^',
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'_', '`', '|', '~', 127,
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}
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for i, v := range mixedTable {
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charMap[mode_mixed][v] = i
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}
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punctTable := []int{
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0, '\r', 0, 0, 0, 0, '!', '\'', '#', '$', '%', '&', '\'',
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'(', ')', '*', '+', ',', '-', '.', '/', ':', ';', '<', '=', '>', '?',
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'[', ']', '{', '}',
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}
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for i, v := range punctTable {
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if v > 0 {
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charMap[mode_punct][v] = i
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}
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}
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}
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func (em encodingMode) BitCount() byte {
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if em == mode_digit {
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return 4
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}
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return 5
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}
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// Create a new state representing this state with a latch to a (not
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// necessary different) mode, and then a code.
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func (s *state) latchAndAppend(mode encodingMode, value int) *state {
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bitCount := s.bitCount
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tokens := s.tokens
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if mode != s.mode {
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latch := latchTable[s.mode][mode]
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tokens = newSimpleToken(tokens, latch&0xFFFF, byte(latch>>16))
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bitCount += latch >> 16
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}
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tokens = newSimpleToken(tokens, value, mode.BitCount())
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return &state{
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mode: mode,
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tokens: tokens,
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bShiftByteCount: 0,
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bitCount: bitCount + int(mode.BitCount()),
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}
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}
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// Create a new state representing this state, with a temporary shift
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// to a different mode to output a single value.
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func (s *state) shiftAndAppend(mode encodingMode, value int) *state {
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tokens := s.tokens
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// Shifts exist only to UPPER and PUNCT, both with tokens size 5.
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tokens = newSimpleToken(tokens, shiftTable[s.mode][mode], s.mode.BitCount())
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tokens = newSimpleToken(tokens, value, 5)
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return &state{
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mode: s.mode,
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tokens: tokens,
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bShiftByteCount: 0,
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bitCount: s.bitCount + int(s.mode.BitCount()) + 5,
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}
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}
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// Create a new state representing this state, but an additional character
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// output in Binary Shift mode.
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func (s *state) addBinaryShiftChar(index int) *state {
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tokens := s.tokens
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mode := s.mode
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bitCnt := s.bitCount
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if s.mode == mode_punct || s.mode == mode_digit {
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latch := latchTable[s.mode][mode_upper]
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tokens = newSimpleToken(tokens, latch&0xFFFF, byte(latch>>16))
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bitCnt += latch >> 16
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mode = mode_upper
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}
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deltaBitCount := 8
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if s.bShiftByteCount == 0 || s.bShiftByteCount == 31 {
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deltaBitCount = 18
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} else if s.bShiftByteCount == 62 {
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deltaBitCount = 9
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}
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result := &state{
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mode: mode,
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tokens: tokens,
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bShiftByteCount: s.bShiftByteCount + 1,
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bitCount: bitCnt + deltaBitCount,
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}
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if result.bShiftByteCount == 2047+31 {
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// The string is as long as it's allowed to be. We should end it.
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result = result.endBinaryShift(index + 1)
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}
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return result
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}
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// Create the state identical to this one, but we are no longer in
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// Binary Shift mode.
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func (s *state) endBinaryShift(index int) *state {
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if s.bShiftByteCount == 0 {
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return s
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}
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tokens := newShiftToken(s.tokens, index-s.bShiftByteCount, s.bShiftByteCount)
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return &state{
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mode: s.mode,
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tokens: tokens,
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bShiftByteCount: 0,
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bitCount: s.bitCount,
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}
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}
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// Returns true if "this" state is better (or equal) to be in than "that"
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// state under all possible circumstances.
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func (this *state) isBetterThanOrEqualTo(other *state) bool {
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mySize := this.bitCount + (latchTable[this.mode][other.mode] >> 16)
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if other.bShiftByteCount > 0 && (this.bShiftByteCount == 0 || this.bShiftByteCount > other.bShiftByteCount) {
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mySize += 10 // Cost of entering Binary Shift mode.
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}
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return mySize <= other.bitCount
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}
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func (s *state) toBitList(text []byte) *utils.BitList {
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tokens := make([]token, 0)
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se := s.endBinaryShift(len(text))
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for t := se.tokens; t != nil; t = t.prev() {
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tokens = append(tokens, t)
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}
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res := new(utils.BitList)
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for i := len(tokens) - 1; i >= 0; i-- {
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tokens[i].appendTo(res, text)
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}
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return res
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}
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func (s *state) String() string {
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tokens := make([]token, 0)
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for t := s.tokens; t != nil; t = t.prev() {
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tokens = append([]token{t}, tokens...)
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}
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return fmt.Sprintf("M:%d bits=%d bytes=%d: %v", s.mode, s.bitCount, s.bShiftByteCount, tokens)
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}
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