package text import ( "bytes" "strings" ) // Wrap a text for an exact line size // Handle properly terminal color escape code func Wrap(text string, lineWidth int) (string, int) { return WrapLeftPadded(text, lineWidth, 0) } // Wrap a text for an exact line size with a left padding // Handle properly terminal color escape code func WrapLeftPadded(text string, lineWidth int, leftPad int) (string, int) { var textBuffer bytes.Buffer var lineBuffer bytes.Buffer nbLine := 1 firstLine := true pad := strings.Repeat(" ", leftPad) // tabs are formatted as 4 spaces text = strings.Replace(text, "\t", " ", 4) for _, line := range strings.Split(text, "\n") { spaceLeft := lineWidth - leftPad if !firstLine { textBuffer.WriteString("\n") nbLine++ } firstWord := true for _, word := range strings.Split(line, " ") { wordLength := wordLen(word) if !firstWord { lineBuffer.WriteString(" ") spaceLeft -= 1 if spaceLeft <= 0 { textBuffer.WriteString(pad + strings.TrimRight(lineBuffer.String(), " ")) textBuffer.WriteString("\n") lineBuffer.Reset() spaceLeft = lineWidth - leftPad nbLine++ firstLine = false } } // Word fit in the current line if spaceLeft >= wordLength { lineBuffer.WriteString(word) spaceLeft -= wordLength firstWord = false } else { // Break a word longer than a line if wordLength > lineWidth { for wordLength > 0 && len(word) > 0 { l := minInt(spaceLeft, wordLength) part, leftover := splitWord(word, l) word = leftover wordLength = wordLen(word) lineBuffer.WriteString(part) textBuffer.WriteString(pad) textBuffer.Write(lineBuffer.Bytes()) lineBuffer.Reset() spaceLeft -= l if spaceLeft <= 0 { textBuffer.WriteString("\n") nbLine++ spaceLeft = lineWidth - leftPad } } } else { // Normal break textBuffer.WriteString(pad + strings.TrimRight(lineBuffer.String(), " ")) textBuffer.WriteString("\n") lineBuffer.Reset() lineBuffer.WriteString(word) firstWord = false spaceLeft = lineWidth - leftPad - wordLength nbLine++ } } } textBuffer.WriteString(pad + strings.TrimRight(lineBuffer.String(), " ")) lineBuffer.Reset() firstLine = false } return textBuffer.String(), nbLine } // wordLen return the length of a word, while ignoring the terminal escape sequences func wordLen(word string) int { length := 0 escape := false for _, char := range word { if char == '\x1b' { escape = true } if !escape { length++ } if char == 'm' { escape = false } } return length } // splitWord split a word at the given length, while ignoring the terminal escape sequences func splitWord(word string, length int) (string, string) { runes := []rune(word) var result []rune added := 0 escape := false if length == 0 { return "", word } for _, r := range runes { if r == '\x1b' { escape = true } result = append(result, r) if !escape { added++ if added == length { break } } if r == 'm' { escape = false } } leftover := runes[len(result):] return string(result), string(leftover) } func minInt(a, b int) int { if a > b { return b } return a }