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gitea/vendor/github.com/chaseadamsio/goorgeous/goorgeous.go

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package goorgeous
import (
"bufio"
"bytes"
"regexp"
"github.com/russross/blackfriday"
"github.com/shurcooL/sanitized_anchor_name"
)
type inlineParser func(p *parser, out *bytes.Buffer, data []byte, offset int) int
type footnotes struct {
id string
def string
}
type parser struct {
r blackfriday.Renderer
inlineCallback [256]inlineParser
notes []footnotes
}
// NewParser returns a new parser with the inlineCallbacks required for org content
func NewParser(renderer blackfriday.Renderer) *parser {
p := new(parser)
p.r = renderer
p.inlineCallback['='] = generateVerbatim
p.inlineCallback['~'] = generateCode
p.inlineCallback['/'] = generateEmphasis
p.inlineCallback['_'] = generateUnderline
p.inlineCallback['*'] = generateBold
p.inlineCallback['+'] = generateStrikethrough
p.inlineCallback['['] = generateLinkOrImg
return p
}
// OrgCommon is the easiest way to parse a byte slice of org content and makes assumptions
// that the caller wants to use blackfriday's HTMLRenderer with XHTML
func OrgCommon(input []byte) []byte {
renderer := blackfriday.HtmlRenderer(blackfriday.HTML_USE_XHTML, "", "")
return OrgOptions(input, renderer)
}
// Org is a convenience name for OrgOptions
func Org(input []byte, renderer blackfriday.Renderer) []byte {
return OrgOptions(input, renderer)
}
// OrgOptions takes an org content byte slice and a renderer to use
func OrgOptions(input []byte, renderer blackfriday.Renderer) []byte {
// in the case that we need to render something in isEmpty but there isn't a new line char
input = append(input, '\n')
var output bytes.Buffer
p := NewParser(renderer)
scanner := bufio.NewScanner(bytes.NewReader(input))
// used to capture code blocks
marker := ""
syntax := ""
listType := ""
inParagraph := false
inList := false
inTable := false
inFixedWidthArea := false
var tmpBlock bytes.Buffer
for scanner.Scan() {
data := scanner.Bytes()
if !isEmpty(data) && isComment(data) || IsKeyword(data) {
switch {
case inList:
if tmpBlock.Len() > 0 {
p.generateList(&output, tmpBlock.Bytes(), listType)
}
inList = false
listType = ""
tmpBlock.Reset()
case inTable:
if tmpBlock.Len() > 0 {
p.generateTable(&output, tmpBlock.Bytes())
}
inTable = false
tmpBlock.Reset()
case inParagraph:
if tmpBlock.Len() > 0 {
p.generateParagraph(&output, tmpBlock.Bytes()[:len(tmpBlock.Bytes())-1])
}
inParagraph = false
tmpBlock.Reset()
case inFixedWidthArea:
if tmpBlock.Len() > 0 {
tmpBlock.WriteString("</pre>\n")
output.Write(tmpBlock.Bytes())
}
inFixedWidthArea = false
tmpBlock.Reset()
}
}
switch {
case isEmpty(data):
switch {
case inList:
if tmpBlock.Len() > 0 {
p.generateList(&output, tmpBlock.Bytes(), listType)
}
inList = false
listType = ""
tmpBlock.Reset()
case inTable:
if tmpBlock.Len() > 0 {
p.generateTable(&output, tmpBlock.Bytes())
}
inTable = false
tmpBlock.Reset()
case inParagraph:
if tmpBlock.Len() > 0 {
p.generateParagraph(&output, tmpBlock.Bytes()[:len(tmpBlock.Bytes())-1])
}
inParagraph = false
tmpBlock.Reset()
case inFixedWidthArea:
if tmpBlock.Len() > 0 {
tmpBlock.WriteString("</pre>\n")
output.Write(tmpBlock.Bytes())
}
inFixedWidthArea = false
tmpBlock.Reset()
case marker != "":
tmpBlock.WriteByte('\n')
default:
continue
}
case isPropertyDrawer(data) || marker == "PROPERTIES":
if marker == "" {
marker = "PROPERTIES"
}
if bytes.Equal(data, []byte(":END:")) {
marker = ""
}
continue
case isBlock(data) || marker != "":
matches := reBlock.FindSubmatch(data)
if len(matches) > 0 {
if string(matches[1]) == "END" {
switch marker {
case "QUOTE":
var tmpBuf bytes.Buffer
p.inline(&tmpBuf, tmpBlock.Bytes())
p.r.BlockQuote(&output, tmpBuf.Bytes())
case "CENTER":
var tmpBuf bytes.Buffer
output.WriteString("<center>\n")
p.inline(&tmpBuf, tmpBlock.Bytes())
output.Write(tmpBuf.Bytes())
output.WriteString("</center>\n")
default:
tmpBlock.WriteByte('\n')
p.r.BlockCode(&output, tmpBlock.Bytes(), syntax)
}
marker = ""
tmpBlock.Reset()
continue
}
}
if marker != "" {
if marker != "SRC" && marker != "EXAMPLE" {
var tmpBuf bytes.Buffer
tmpBuf.Write([]byte("<p>\n"))
p.inline(&tmpBuf, data)
tmpBuf.WriteByte('\n')
tmpBuf.Write([]byte("</p>\n"))
tmpBlock.Write(tmpBuf.Bytes())
} else {
tmpBlock.WriteByte('\n')
tmpBlock.Write(data)
}
} else {
marker = string(matches[2])
syntax = string(matches[3])
}
case isFootnoteDef(data):
matches := reFootnoteDef.FindSubmatch(data)
for i := range p.notes {
if p.notes[i].id == string(matches[1]) {
p.notes[i].def = string(matches[2])
}
}
case isTable(data):
if inTable != true {
inTable = true
}
tmpBlock.Write(data)
tmpBlock.WriteByte('\n')
case IsKeyword(data):
continue
case isComment(data):
p.generateComment(&output, data)
case isHeadline(data):
p.generateHeadline(&output, data)
case isDefinitionList(data):
if inList != true {
listType = "dl"
inList = true
}
var work bytes.Buffer
flags := blackfriday.LIST_TYPE_DEFINITION
matches := reDefinitionList.FindSubmatch(data)
flags |= blackfriday.LIST_TYPE_TERM
p.inline(&work, matches[1])
p.r.ListItem(&tmpBlock, work.Bytes(), flags)
work.Reset()
flags &= ^blackfriday.LIST_TYPE_TERM
p.inline(&work, matches[2])
p.r.ListItem(&tmpBlock, work.Bytes(), flags)
case isUnorderedList(data):
if inList != true {
listType = "ul"
inList = true
}
matches := reUnorderedList.FindSubmatch(data)
var work bytes.Buffer
p.inline(&work, matches[2])
p.r.ListItem(&tmpBlock, work.Bytes(), 0)
case isOrderedList(data):
if inList != true {
listType = "ol"
inList = true
}
matches := reOrderedList.FindSubmatch(data)
var work bytes.Buffer
tmpBlock.WriteString("<li")
if len(matches[2]) > 0 {
tmpBlock.WriteString(" value=\"")
tmpBlock.Write(matches[2])
tmpBlock.WriteString("\"")
matches[3] = matches[3][1:]
}
p.inline(&work, matches[3])
tmpBlock.WriteString(">")
tmpBlock.Write(work.Bytes())
tmpBlock.WriteString("</li>\n")
case isHorizontalRule(data):
p.r.HRule(&output)
case isExampleLine(data):
if inParagraph == true {
if len(tmpBlock.Bytes()) > 0 {
p.generateParagraph(&output, tmpBlock.Bytes()[:len(tmpBlock.Bytes())-1])
inParagraph = false
}
tmpBlock.Reset()
}
if inFixedWidthArea != true {
tmpBlock.WriteString("<pre class=\"example\">\n")
inFixedWidthArea = true
}
matches := reExampleLine.FindSubmatch(data)
tmpBlock.Write(matches[1])
tmpBlock.WriteString("\n")
break
default:
if inParagraph == false {
inParagraph = true
if inFixedWidthArea == true {
if tmpBlock.Len() > 0 {
tmpBlock.WriteString("</pre>")
output.Write(tmpBlock.Bytes())
}
inFixedWidthArea = false
tmpBlock.Reset()
}
}
tmpBlock.Write(data)
tmpBlock.WriteByte('\n')
}
}
if len(tmpBlock.Bytes()) > 0 {
if inParagraph == true {
p.generateParagraph(&output, tmpBlock.Bytes()[:len(tmpBlock.Bytes())-1])
} else if inFixedWidthArea == true {
tmpBlock.WriteString("</pre>\n")
output.Write(tmpBlock.Bytes())
}
}
// Writing footnote def. list
if len(p.notes) > 0 {
flags := blackfriday.LIST_ITEM_BEGINNING_OF_LIST
p.r.Footnotes(&output, func() bool {
for i := range p.notes {
p.r.FootnoteItem(&output, []byte(p.notes[i].id), []byte(p.notes[i].def), flags)
}
return true
})
}
return output.Bytes()
}
// Org Syntax has been broken up into 4 distinct sections based on
// the org-syntax draft (http://orgmode.org/worg/dev/org-syntax.html):
// - Headlines
// - Greater Elements
// - Elements
// - Objects
// Headlines
func isHeadline(data []byte) bool {
if !charMatches(data[0], '*') {
return false
}
level := 0
for level < 6 && charMatches(data[level], '*') {
level++
}
return charMatches(data[level], ' ')
}
func (p *parser) generateHeadline(out *bytes.Buffer, data []byte) {
level := 1
status := ""
priority := ""
for level < 6 && data[level] == '*' {
level++
}
start := skipChar(data, level, ' ')
data = data[start:]
i := 0
// Check if has a status so it can be rendered as a separate span that can be hidden or
// modified with CSS classes
if hasStatus(data[i:4]) {
status = string(data[i:4])
i += 5 // one extra character for the next whitespace
}
// Check if the next byte is a priority marker
if data[i] == '[' && hasPriority(data[i+1]) {
priority = string(data[i+1])
i += 4 // for "[c]" + ' '
}
tags, tagsFound := findTags(data, i)
headlineID := sanitized_anchor_name.Create(string(data[i:]))
generate := func() bool {
dataEnd := len(data)
if tagsFound > 0 {
dataEnd = tagsFound
}
headline := bytes.TrimRight(data[i:dataEnd], " \t")
if status != "" {
out.WriteString("<span class=\"todo " + status + "\">" + status + "</span>")
out.WriteByte(' ')
}
if priority != "" {
out.WriteString("<span class=\"priority " + priority + "\">[" + priority + "]</span>")
out.WriteByte(' ')
}
p.inline(out, headline)
if tagsFound > 0 {
for _, tag := range tags {
out.WriteByte(' ')
out.WriteString("<span class=\"tags " + tag + "\">" + tag + "</span>")
out.WriteByte(' ')
}
}
return true
}
p.r.Header(out, generate, level, headlineID)
}
func hasStatus(data []byte) bool {
return bytes.Contains(data, []byte("TODO")) || bytes.Contains(data, []byte("DONE"))
}
func hasPriority(char byte) bool {
return (charMatches(char, 'A') || charMatches(char, 'B') || charMatches(char, 'C'))
}
func findTags(data []byte, start int) ([]string, int) {
tags := []string{}
tagOpener := 0
tagMarker := tagOpener
for tIdx := start; tIdx < len(data); tIdx++ {
if tagMarker > 0 && data[tIdx] == ':' {
tags = append(tags, string(data[tagMarker+1:tIdx]))
tagMarker = tIdx
}
if data[tIdx] == ':' && tagOpener == 0 && data[tIdx-1] == ' ' {
tagMarker = tIdx
tagOpener = tIdx
}
}
return tags, tagOpener
}
// Greater Elements
// ~~ Definition Lists
var reDefinitionList = regexp.MustCompile(`^\s*-\s+(.+?)\s+::\s+(.*)`)
func isDefinitionList(data []byte) bool {
return reDefinitionList.Match(data)
}
// ~~ Example lines
var reExampleLine = regexp.MustCompile(`^\s*:\s(\s*.*)|^\s*:$`)
func isExampleLine(data []byte) bool {
return reExampleLine.Match(data)
}
// ~~ Ordered Lists
var reOrderedList = regexp.MustCompile(`^(\s*)\d+\.\s+\[?@?(\d*)\]?(.+)`)
func isOrderedList(data []byte) bool {
return reOrderedList.Match(data)
}
// ~~ Unordered Lists
var reUnorderedList = regexp.MustCompile(`^(\s*)[-\+]\s+(.+)`)
func isUnorderedList(data []byte) bool {
return reUnorderedList.Match(data)
}
// ~~ Tables
var reTableHeaders = regexp.MustCompile(`^[|+-]*$`)
func isTable(data []byte) bool {
return charMatches(data[0], '|')
}
func (p *parser) generateTable(output *bytes.Buffer, data []byte) {
var table bytes.Buffer
rows := bytes.Split(bytes.Trim(data, "\n"), []byte("\n"))
hasTableHeaders := len(rows) > 1
if len(rows) > 1 {
hasTableHeaders = reTableHeaders.Match(rows[1])
}
tbodySet := false
for idx, row := range rows {
var rowBuff bytes.Buffer
if hasTableHeaders && idx == 0 {
table.WriteString("<thead>")
for _, cell := range bytes.Split(row[1:len(row)-1], []byte("|")) {
p.r.TableHeaderCell(&rowBuff, bytes.Trim(cell, " \t"), 0)
}
p.r.TableRow(&table, rowBuff.Bytes())
table.WriteString("</thead>\n")
} else if hasTableHeaders && idx == 1 {
continue
} else {
if !tbodySet {
table.WriteString("<tbody>")
tbodySet = true
}
if !reTableHeaders.Match(row) {
for _, cell := range bytes.Split(row[1:len(row)-1], []byte("|")) {
var cellBuff bytes.Buffer
p.inline(&cellBuff, bytes.Trim(cell, " \t"))
p.r.TableCell(&rowBuff, cellBuff.Bytes(), 0)
}
p.r.TableRow(&table, rowBuff.Bytes())
}
if tbodySet && idx == len(rows)-1 {
table.WriteString("</tbody>\n")
tbodySet = false
}
}
}
output.WriteString("\n<table>\n")
output.Write(table.Bytes())
output.WriteString("</table>\n")
}
// ~~ Property Drawers
func isPropertyDrawer(data []byte) bool {
return bytes.Equal(data, []byte(":PROPERTIES:"))
}
// ~~ Dynamic Blocks
var reBlock = regexp.MustCompile(`^#\+(BEGIN|END)_(\w+)\s*([0-9A-Za-z_\-]*)?`)
func isBlock(data []byte) bool {
return reBlock.Match(data)
}
// ~~ Footnotes
var reFootnoteDef = regexp.MustCompile(`^\[fn:([\w]+)\] +(.+)`)
func isFootnoteDef(data []byte) bool {
return reFootnoteDef.Match(data)
}
// Elements
// ~~ Keywords
func IsKeyword(data []byte) bool {
return len(data) > 2 && charMatches(data[0], '#') && charMatches(data[1], '+') && !charMatches(data[2], ' ')
}
// ~~ Comments
func isComment(data []byte) bool {
return charMatches(data[0], '#') && charMatches(data[1], ' ')
}
func (p *parser) generateComment(out *bytes.Buffer, data []byte) {
var work bytes.Buffer
work.WriteString("<!-- ")
work.Write(data[2:])
work.WriteString(" -->")
work.WriteByte('\n')
out.Write(work.Bytes())
}
// ~~ Horizontal Rules
var reHorizontalRule = regexp.MustCompile(`^\s*?-----\s?$`)
func isHorizontalRule(data []byte) bool {
return reHorizontalRule.Match(data)
}
// ~~ Paragraphs
func (p *parser) generateParagraph(out *bytes.Buffer, data []byte) {
generate := func() bool {
p.inline(out, bytes.Trim(data, " "))
return true
}
p.r.Paragraph(out, generate)
}
func (p *parser) generateList(output *bytes.Buffer, data []byte, listType string) {
generateList := func() bool {
output.WriteByte('\n')
p.inline(output, bytes.Trim(data, " "))
return true
}
switch listType {
case "ul":
p.r.List(output, generateList, 0)
case "ol":
p.r.List(output, generateList, blackfriday.LIST_TYPE_ORDERED)
case "dl":
p.r.List(output, generateList, blackfriday.LIST_TYPE_DEFINITION)
}
}
// Objects
func (p *parser) inline(out *bytes.Buffer, data []byte) {
i, end := 0, 0
for i < len(data) {
for end < len(data) && p.inlineCallback[data[end]] == nil {
end++
}
p.r.Entity(out, data[i:end])
if end >= len(data) {
break
}
i = end
handler := p.inlineCallback[data[i]]
if consumed := handler(p, out, data, i); consumed > 0 {
i += consumed
end = i
continue
}
end = i + 1
}
}
func isAcceptablePreOpeningChar(dataIn, data []byte, offset int) bool {
if len(dataIn) == len(data) {
return true
}
char := dataIn[offset-1]
return charMatches(char, ' ') || isPreChar(char)
}
func isPreChar(char byte) bool {
return charMatches(char, '>') || charMatches(char, '(') || charMatches(char, '{') || charMatches(char, '[')
}
func isAcceptablePostClosingChar(char byte) bool {
return charMatches(char, ' ') || isTerminatingChar(char)
}
func isTerminatingChar(char byte) bool {
return charMatches(char, '.') || charMatches(char, ',') || charMatches(char, '?') || charMatches(char, '!') || charMatches(char, ')') || charMatches(char, '}') || charMatches(char, ']')
}
func findLastCharInInline(data []byte, char byte) int {
timesFound := 0
last := 0
// Start from character after the inline indicator
for i := 1; i < len(data); i++ {
if timesFound == 1 {
break
}
if data[i] == char {
if len(data) == i+1 || (len(data) > i+1 && isAcceptablePostClosingChar(data[i+1])) {
last = i
timesFound += 1
}
}
}
return last
}
func generator(p *parser, out *bytes.Buffer, dataIn []byte, offset int, char byte, doInline bool, renderer func(*bytes.Buffer, []byte)) int {
data := dataIn[offset:]
c := byte(char)
start := 1
i := start
if len(data) <= 1 {
return 0
}
lastCharInside := findLastCharInInline(data, c)
// Org mode spec says a non-whitespace character must immediately follow.
// if the current char is the marker, then there's no text between, not a candidate
if isSpace(data[i]) || lastCharInside == i || !isAcceptablePreOpeningChar(dataIn, data, offset) {
return 0
}
if lastCharInside > 0 {
var work bytes.Buffer
if doInline {
p.inline(&work, data[start:lastCharInside])
renderer(out, work.Bytes())
} else {
renderer(out, data[start:lastCharInside])
}
next := lastCharInside + 1
return next
}
return 0
}
// ~~ Text Markup
func generateVerbatim(p *parser, out *bytes.Buffer, data []byte, offset int) int {
return generator(p, out, data, offset, '=', false, p.r.CodeSpan)
}
func generateCode(p *parser, out *bytes.Buffer, data []byte, offset int) int {
return generator(p, out, data, offset, '~', false, p.r.CodeSpan)
}
func generateEmphasis(p *parser, out *bytes.Buffer, data []byte, offset int) int {
return generator(p, out, data, offset, '/', true, p.r.Emphasis)
}
func generateUnderline(p *parser, out *bytes.Buffer, data []byte, offset int) int {
underline := func(out *bytes.Buffer, text []byte) {
out.WriteString("<span style=\"text-decoration: underline;\">")
out.Write(text)
out.WriteString("</span>")
}
return generator(p, out, data, offset, '_', true, underline)
}
func generateBold(p *parser, out *bytes.Buffer, data []byte, offset int) int {
return generator(p, out, data, offset, '*', true, p.r.DoubleEmphasis)
}
func generateStrikethrough(p *parser, out *bytes.Buffer, data []byte, offset int) int {
return generator(p, out, data, offset, '+', true, p.r.StrikeThrough)
}
// ~~ Images and Links (inc. Footnote)
var reLinkOrImg = regexp.MustCompile(`\[\[(.+?)\]\[?(.*?)\]?\]`)
func generateLinkOrImg(p *parser, out *bytes.Buffer, data []byte, offset int) int {
data = data[offset+1:]
start := 1
i := start
var hyperlink []byte
isImage := false
isFootnote := false
closedLink := false
hasContent := false
if bytes.Equal(data[0:3], []byte("fn:")) {
isFootnote = true
} else if data[0] != '[' {
return 0
}
if bytes.Equal(data[1:6], []byte("file:")) {
isImage = true
}
for i < len(data) {
currChar := data[i]
switch {
case charMatches(currChar, ']') && closedLink == false:
if isImage {
hyperlink = data[start+5 : i]
} else if isFootnote {
refid := data[start+2 : i]
if bytes.Equal(refid, bytes.Trim(refid, " ")) {
p.notes = append(p.notes, footnotes{string(refid), "DEFINITION NOT FOUND"})
p.r.FootnoteRef(out, refid, len(p.notes))
return i + 2
} else {
return 0
}
} else if bytes.Equal(data[i-4:i], []byte(".org")) {
orgStart := start
if bytes.Equal(data[orgStart:orgStart+2], []byte("./")) {
orgStart = orgStart + 1
}
hyperlink = data[orgStart : i-4]
} else {
hyperlink = data[start:i]
}
closedLink = true
case charMatches(currChar, '['):
start = i + 1
hasContent = true
case charMatches(currChar, ']') && closedLink == true && hasContent == true && isImage == true:
p.r.Image(out, hyperlink, data[start:i], data[start:i])
return i + 3
case charMatches(currChar, ']') && closedLink == true && hasContent == true:
var tmpBuf bytes.Buffer
p.inline(&tmpBuf, data[start:i])
p.r.Link(out, hyperlink, tmpBuf.Bytes(), tmpBuf.Bytes())
return i + 3
case charMatches(currChar, ']') && closedLink == true && hasContent == false && isImage == true:
p.r.Image(out, hyperlink, hyperlink, hyperlink)
return i + 2
case charMatches(currChar, ']') && closedLink == true && hasContent == false:
p.r.Link(out, hyperlink, hyperlink, hyperlink)
return i + 2
}
i++
}
return 0
}
// Helpers
func skipChar(data []byte, start int, char byte) int {
i := start
for i < len(data) && charMatches(data[i], char) {
i++
}
return i
}
func isSpace(char byte) bool {
return charMatches(char, ' ')
}
func isEmpty(data []byte) bool {
if len(data) == 0 {
return true
}
for i := 0; i < len(data) && !charMatches(data[i], '\n'); i++ {
if !charMatches(data[i], ' ') && !charMatches(data[i], '\t') {
return false
}
}
return true
}
func charMatches(a byte, b byte) bool {
return a == b
}