mirror of
https://github.com/Luzifer/nginx-sso.git
synced 2024-12-21 05:11:17 +00:00
355 lines
7.3 KiB
Go
355 lines
7.3 KiB
Go
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package pdf417
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import (
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"errors"
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"math/big"
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"github.com/boombuler/barcode/utils"
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)
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type encodingMode byte
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type subMode byte
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const (
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encText encodingMode = iota
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encNumeric
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encBinary
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subUpper subMode = iota
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subLower
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subMixed
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subPunct
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latch_to_text = 900
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latch_to_byte_padded = 901
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latch_to_numeric = 902
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latch_to_byte = 924
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shift_to_byte = 913
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min_numeric_count = 13
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)
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var (
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mixedMap map[rune]int
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punctMap map[rune]int
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)
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func init() {
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mixedMap = make(map[rune]int)
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mixedRaw := []rune{
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48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 38, 13, 9, 44, 58,
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35, 45, 46, 36, 47, 43, 37, 42, 61, 94, 0, 32, 0, 0, 0,
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}
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for idx, ch := range mixedRaw {
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if ch > 0 {
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mixedMap[ch] = idx
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}
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}
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punctMap = make(map[rune]int)
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punctRaw := []rune{
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59, 60, 62, 64, 91, 92, 93, 95, 96, 126, 33, 13, 9, 44, 58,
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10, 45, 46, 36, 47, 34, 124, 42, 40, 41, 63, 123, 125, 39, 0,
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}
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for idx, ch := range punctRaw {
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if ch > 0 {
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punctMap[ch] = idx
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}
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}
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}
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func determineConsecutiveDigitCount(data []rune) int {
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cnt := 0
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for _, r := range data {
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if utils.RuneToInt(r) == -1 {
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break
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}
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cnt++
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}
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return cnt
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}
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func encodeNumeric(digits []rune) ([]int, error) {
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digitCount := len(digits)
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chunkCount := digitCount / 44
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if digitCount%44 != 0 {
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chunkCount++
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}
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codeWords := []int{}
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for i := 0; i < chunkCount; i++ {
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start := i * 44
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end := start + 44
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if end > digitCount {
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end = digitCount
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}
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chunk := digits[start:end]
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chunkNum := big.NewInt(0)
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_, ok := chunkNum.SetString("1"+string(chunk), 10)
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if !ok {
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return nil, errors.New("Failed converting: " + string(chunk))
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}
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cws := []int{}
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for chunkNum.Cmp(big.NewInt(0)) > 0 {
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newChunk, cw := chunkNum.DivMod(chunkNum, big.NewInt(900), big.NewInt(0))
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chunkNum = newChunk
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cws = append([]int{int(cw.Int64())}, cws...)
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}
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codeWords = append(codeWords, cws...)
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}
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return codeWords, nil
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}
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func determineConsecutiveTextCount(msg []rune) int {
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result := 0
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isText := func(ch rune) bool {
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return ch == '\t' || ch == '\n' || ch == '\r' || (ch >= 32 && ch <= 126)
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}
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for i, ch := range msg {
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numericCount := determineConsecutiveDigitCount(msg[i:])
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if numericCount >= min_numeric_count || (numericCount == 0 && !isText(ch)) {
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break
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}
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result++
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}
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return result
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}
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func encodeText(text []rune, submode subMode) (subMode, []int) {
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isAlphaUpper := func(ch rune) bool {
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return ch == ' ' || (ch >= 'A' && ch <= 'Z')
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}
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isAlphaLower := func(ch rune) bool {
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return ch == ' ' || (ch >= 'a' && ch <= 'z')
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}
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isMixed := func(ch rune) bool {
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_, ok := mixedMap[ch]
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return ok
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}
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isPunctuation := func(ch rune) bool {
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_, ok := punctMap[ch]
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return ok
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}
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idx := 0
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var tmp []int
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for idx < len(text) {
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ch := text[idx]
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switch submode {
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case subUpper:
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if isAlphaUpper(ch) {
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if ch == ' ' {
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tmp = append(tmp, 26) //space
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} else {
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tmp = append(tmp, int(ch-'A'))
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}
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} else {
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if isAlphaLower(ch) {
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submode = subLower
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tmp = append(tmp, 27) // lower latch
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continue
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} else if isMixed(ch) {
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submode = subMixed
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tmp = append(tmp, 28) // mixed latch
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continue
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} else {
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tmp = append(tmp, 29) // punctuation switch
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tmp = append(tmp, punctMap[ch])
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break
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}
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}
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break
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case subLower:
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if isAlphaLower(ch) {
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if ch == ' ' {
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tmp = append(tmp, 26) //space
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} else {
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tmp = append(tmp, int(ch-'a'))
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}
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} else {
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if isAlphaUpper(ch) {
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tmp = append(tmp, 27) //upper switch
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tmp = append(tmp, int(ch-'A'))
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break
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} else if isMixed(ch) {
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submode = subMixed
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tmp = append(tmp, 28) //mixed latch
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continue
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} else {
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tmp = append(tmp, 29) //punctuation switch
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tmp = append(tmp, punctMap[ch])
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break
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}
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}
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break
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case subMixed:
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if isMixed(ch) {
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tmp = append(tmp, mixedMap[ch])
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} else {
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if isAlphaUpper(ch) {
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submode = subUpper
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tmp = append(tmp, 28) //upper latch
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continue
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} else if isAlphaLower(ch) {
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submode = subLower
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tmp = append(tmp, 27) //lower latch
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continue
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} else {
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if idx+1 < len(text) {
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next := text[idx+1]
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if isPunctuation(next) {
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submode = subPunct
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tmp = append(tmp, 25) //punctuation latch
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continue
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}
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}
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tmp = append(tmp, 29) //punctuation switch
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tmp = append(tmp, punctMap[ch])
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}
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}
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break
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default: //subPunct
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if isPunctuation(ch) {
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tmp = append(tmp, punctMap[ch])
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} else {
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submode = subUpper
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tmp = append(tmp, 29) //upper latch
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continue
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}
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}
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idx++
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}
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h := 0
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result := []int{}
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for i, val := range tmp {
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if i%2 != 0 {
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h = (h * 30) + val
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result = append(result, h)
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} else {
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h = val
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}
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}
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if len(tmp)%2 != 0 {
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result = append(result, (h*30)+29)
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}
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return submode, result
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}
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func determineConsecutiveBinaryCount(msg []byte) int {
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result := 0
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for i, _ := range msg {
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numericCount := determineConsecutiveDigitCount([]rune(string(msg[i:])))
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if numericCount >= min_numeric_count {
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break
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}
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textCount := determineConsecutiveTextCount([]rune(string(msg[i:])))
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if textCount > 5 {
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break
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}
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result++
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}
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return result
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}
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func encodeBinary(data []byte, startmode encodingMode) []int {
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result := []int{}
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count := len(data)
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if count == 1 && startmode == encText {
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result = append(result, shift_to_byte)
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} else if (count % 6) == 0 {
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result = append(result, latch_to_byte)
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} else {
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result = append(result, latch_to_byte_padded)
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}
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idx := 0
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// Encode sixpacks
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if count >= 6 {
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words := make([]int, 5)
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for (count - idx) >= 6 {
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var t int64 = 0
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for i := 0; i < 6; i++ {
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t = t << 8
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t += int64(data[idx+i])
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}
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for i := 0; i < 5; i++ {
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words[4-i] = int(t % 900)
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t = t / 900
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}
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result = append(result, words...)
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idx += 6
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}
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}
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//Encode rest (remaining n<5 bytes if any)
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for i := idx; i < count; i++ {
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result = append(result, int(data[i]&0xff))
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}
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return result
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}
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func highlevelEncode(dataStr string) ([]int, error) {
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encodingMode := encText
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textSubMode := subUpper
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result := []int{}
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data := []byte(dataStr)
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for len(data) > 0 {
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numericCount := determineConsecutiveDigitCount([]rune(string(data)))
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if numericCount >= min_numeric_count || numericCount == len(data) {
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result = append(result, latch_to_numeric)
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encodingMode = encNumeric
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textSubMode = subUpper
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numData, err := encodeNumeric([]rune(string(data[:numericCount])))
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if err != nil {
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return nil, err
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}
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result = append(result, numData...)
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data = data[numericCount:]
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} else {
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textCount := determineConsecutiveTextCount([]rune(string(data)))
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if textCount >= 5 || textCount == len(data) {
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if encodingMode != encText {
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result = append(result, latch_to_text)
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encodingMode = encText
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textSubMode = subUpper
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}
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var txtData []int
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textSubMode, txtData = encodeText([]rune(string(data[:textCount])), textSubMode)
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result = append(result, txtData...)
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data = data[textCount:]
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} else {
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binaryCount := determineConsecutiveBinaryCount(data)
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if binaryCount == 0 {
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binaryCount = 1
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}
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bytes := data[:binaryCount]
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if len(bytes) != 1 || encodingMode != encText {
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encodingMode = encBinary
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textSubMode = subUpper
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}
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byteData := encodeBinary(bytes, encodingMode)
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result = append(result, byteData...)
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data = data[binaryCount:]
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}
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}
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}
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return result, nil
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}
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