// // Blackfriday Markdown Processor // Available at http://github.com/russross/blackfriday // // Copyright © 2011 Russ Ross <russ@russross.com>. // Distributed under the Simplified BSD License. // See README.md for details. // // // // SmartyPants rendering // // package blackfriday import ( "bytes" ) type smartypantsData struct { inSingleQuote bool inDoubleQuote bool } func wordBoundary(c byte) bool { return c == 0 || isspace(c) || ispunct(c) } func tolower(c byte) byte { if c >= 'A' && c <= 'Z' { return c - 'A' + 'a' } return c } func isdigit(c byte) bool { return c >= '0' && c <= '9' } func smartQuoteHelper(out *bytes.Buffer, previousChar byte, nextChar byte, quote byte, isOpen *bool) bool { // edge of the buffer is likely to be a tag that we don't get to see, // so we treat it like text sometimes // enumerate all sixteen possibilities for (previousChar, nextChar) // each can be one of {0, space, punct, other} switch { case previousChar == 0 && nextChar == 0: // context is not any help here, so toggle *isOpen = !*isOpen case isspace(previousChar) && nextChar == 0: // [ "] might be [ "<code>foo...] *isOpen = true case ispunct(previousChar) && nextChar == 0: // [!"] hmm... could be [Run!"] or [("<code>...] *isOpen = false case /* isnormal(previousChar) && */ nextChar == 0: // [a"] is probably a close *isOpen = false case previousChar == 0 && isspace(nextChar): // [" ] might be [...foo</code>" ] *isOpen = false case isspace(previousChar) && isspace(nextChar): // [ " ] context is not any help here, so toggle *isOpen = !*isOpen case ispunct(previousChar) && isspace(nextChar): // [!" ] is probably a close *isOpen = false case /* isnormal(previousChar) && */ isspace(nextChar): // [a" ] this is one of the easy cases *isOpen = false case previousChar == 0 && ispunct(nextChar): // ["!] hmm... could be ["$1.95] or [</code>"!...] *isOpen = false case isspace(previousChar) && ispunct(nextChar): // [ "!] looks more like [ "$1.95] *isOpen = true case ispunct(previousChar) && ispunct(nextChar): // [!"!] context is not any help here, so toggle *isOpen = !*isOpen case /* isnormal(previousChar) && */ ispunct(nextChar): // [a"!] is probably a close *isOpen = false case previousChar == 0 /* && isnormal(nextChar) */ : // ["a] is probably an open *isOpen = true case isspace(previousChar) /* && isnormal(nextChar) */ : // [ "a] this is one of the easy cases *isOpen = true case ispunct(previousChar) /* && isnormal(nextChar) */ : // [!"a] is probably an open *isOpen = true default: // [a'b] maybe a contraction? *isOpen = false } out.WriteByte('&') if *isOpen { out.WriteByte('l') } else { out.WriteByte('r') } out.WriteByte(quote) out.WriteString("quo;") return true } func smartSingleQuote(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int { if len(text) >= 2 { t1 := tolower(text[1]) if t1 == '\'' { nextChar := byte(0) if len(text) >= 3 { nextChar = text[2] } if smartQuoteHelper(out, previousChar, nextChar, 'd', &smrt.inDoubleQuote) { return 1 } } if (t1 == 's' || t1 == 't' || t1 == 'm' || t1 == 'd') && (len(text) < 3 || wordBoundary(text[2])) { out.WriteString("’") return 0 } if len(text) >= 3 { t2 := tolower(text[2]) if ((t1 == 'r' && t2 == 'e') || (t1 == 'l' && t2 == 'l') || (t1 == 'v' && t2 == 'e')) && (len(text) < 4 || wordBoundary(text[3])) { out.WriteString("’") return 0 } } } nextChar := byte(0) if len(text) > 1 { nextChar = text[1] } if smartQuoteHelper(out, previousChar, nextChar, 's', &smrt.inSingleQuote) { return 0 } out.WriteByte(text[0]) return 0 } func smartParens(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int { if len(text) >= 3 { t1 := tolower(text[1]) t2 := tolower(text[2]) if t1 == 'c' && t2 == ')' { out.WriteString("©") return 2 } if t1 == 'r' && t2 == ')' { out.WriteString("®") return 2 } if len(text) >= 4 && t1 == 't' && t2 == 'm' && text[3] == ')' { out.WriteString("™") return 3 } } out.WriteByte(text[0]) return 0 } func smartDash(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int { if len(text) >= 2 { if text[1] == '-' { out.WriteString("—") return 1 } if wordBoundary(previousChar) && wordBoundary(text[1]) { out.WriteString("–") return 0 } } out.WriteByte(text[0]) return 0 } func smartDashLatex(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int { if len(text) >= 3 && text[1] == '-' && text[2] == '-' { out.WriteString("—") return 2 } if len(text) >= 2 && text[1] == '-' { out.WriteString("–") return 1 } out.WriteByte(text[0]) return 0 } func smartAmpVariant(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte, quote byte) int { if bytes.HasPrefix(text, []byte(""")) { nextChar := byte(0) if len(text) >= 7 { nextChar = text[6] } if smartQuoteHelper(out, previousChar, nextChar, quote, &smrt.inDoubleQuote) { return 5 } } if bytes.HasPrefix(text, []byte("�")) { return 3 } out.WriteByte('&') return 0 } func smartAmp(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int { return smartAmpVariant(out, smrt, previousChar, text, 'd') } func smartAmpAngledQuote(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int { return smartAmpVariant(out, smrt, previousChar, text, 'a') } func smartPeriod(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int { if len(text) >= 3 && text[1] == '.' && text[2] == '.' { out.WriteString("…") return 2 } if len(text) >= 5 && text[1] == ' ' && text[2] == '.' && text[3] == ' ' && text[4] == '.' { out.WriteString("…") return 4 } out.WriteByte(text[0]) return 0 } func smartBacktick(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int { if len(text) >= 2 && text[1] == '`' { nextChar := byte(0) if len(text) >= 3 { nextChar = text[2] } if smartQuoteHelper(out, previousChar, nextChar, 'd', &smrt.inDoubleQuote) { return 1 } } out.WriteByte(text[0]) return 0 } func smartNumberGeneric(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int { if wordBoundary(previousChar) && previousChar != '/' && len(text) >= 3 { // is it of the form digits/digits(word boundary)?, i.e., \d+/\d+\b // note: check for regular slash (/) or fraction slash (⁄, 0x2044, or 0xe2 81 84 in utf-8) // and avoid changing dates like 1/23/2005 into fractions. numEnd := 0 for len(text) > numEnd && isdigit(text[numEnd]) { numEnd++ } if numEnd == 0 { out.WriteByte(text[0]) return 0 } denStart := numEnd + 1 if len(text) > numEnd+3 && text[numEnd] == 0xe2 && text[numEnd+1] == 0x81 && text[numEnd+2] == 0x84 { denStart = numEnd + 3 } else if len(text) < numEnd+2 || text[numEnd] != '/' { out.WriteByte(text[0]) return 0 } denEnd := denStart for len(text) > denEnd && isdigit(text[denEnd]) { denEnd++ } if denEnd == denStart { out.WriteByte(text[0]) return 0 } if len(text) == denEnd || wordBoundary(text[denEnd]) && text[denEnd] != '/' { out.WriteString("<sup>") out.Write(text[:numEnd]) out.WriteString("</sup>⁄<sub>") out.Write(text[denStart:denEnd]) out.WriteString("</sub>") return denEnd - 1 } } out.WriteByte(text[0]) return 0 } func smartNumber(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int { if wordBoundary(previousChar) && previousChar != '/' && len(text) >= 3 { if text[0] == '1' && text[1] == '/' && text[2] == '2' { if len(text) < 4 || wordBoundary(text[3]) && text[3] != '/' { out.WriteString("½") return 2 } } if text[0] == '1' && text[1] == '/' && text[2] == '4' { if len(text) < 4 || wordBoundary(text[3]) && text[3] != '/' || (len(text) >= 5 && tolower(text[3]) == 't' && tolower(text[4]) == 'h') { out.WriteString("¼") return 2 } } if text[0] == '3' && text[1] == '/' && text[2] == '4' { if len(text) < 4 || wordBoundary(text[3]) && text[3] != '/' || (len(text) >= 6 && tolower(text[3]) == 't' && tolower(text[4]) == 'h' && tolower(text[5]) == 's') { out.WriteString("¾") return 2 } } } out.WriteByte(text[0]) return 0 } func smartDoubleQuoteVariant(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte, quote byte) int { nextChar := byte(0) if len(text) > 1 { nextChar = text[1] } if !smartQuoteHelper(out, previousChar, nextChar, quote, &smrt.inDoubleQuote) { out.WriteString(""") } return 0 } func smartDoubleQuote(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int { return smartDoubleQuoteVariant(out, smrt, previousChar, text, 'd') } func smartAngledDoubleQuote(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int { return smartDoubleQuoteVariant(out, smrt, previousChar, text, 'a') } func smartLeftAngle(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int { i := 0 for i < len(text) && text[i] != '>' { i++ } out.Write(text[:i+1]) return i } type smartCallback func(out *bytes.Buffer, smrt *smartypantsData, previousChar byte, text []byte) int type smartypantsRenderer [256]smartCallback func smartypants(flags int) *smartypantsRenderer { r := new(smartypantsRenderer) if flags&HTML_SMARTYPANTS_ANGLED_QUOTES == 0 { r['"'] = smartDoubleQuote r['&'] = smartAmp } else { r['"'] = smartAngledDoubleQuote r['&'] = smartAmpAngledQuote } r['\''] = smartSingleQuote r['('] = smartParens if flags&HTML_SMARTYPANTS_DASHES != 0 { if flags&HTML_SMARTYPANTS_LATEX_DASHES == 0 { r['-'] = smartDash } else { r['-'] = smartDashLatex } } r['.'] = smartPeriod if flags&HTML_SMARTYPANTS_FRACTIONS == 0 { r['1'] = smartNumber r['3'] = smartNumber } else { for ch := '1'; ch <= '9'; ch++ { r[ch] = smartNumberGeneric } } r['<'] = smartLeftAngle r['`'] = smartBacktick return r }