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// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Godoc comment extraction and comment -> HTML formatting.
package doc
import (
"go/ast"
"io"
"regexp"
"strings"
"text/template" // for HTMLEscape
"unicode"
"unicode/utf8"
)
func isWhitespace(ch byte) bool { return ch == ' ' || ch == '\t' || ch == '\n' || ch == '\r' }
func stripTrailingWhitespace(s string) string {
i := len(s)
for i > 0 && isWhitespace(s[i-1]) {
i--
}
return s[0:i]
}
// CommentText returns the text of comment,
// with the comment markers - //, /*, and */ - removed.
func CommentText(comment *ast.CommentGroup) string {
if comment == nil {
return ""
}
comments := make([]string, len(comment.List))
for i, c := range comment.List {
comments[i] = string(c.Text)
}
lines := make([]string, 0, 10) // most comments are less than 10 lines
for _, c := range comments {
// Remove comment markers.
// The parser has given us exactly the comment text.
switch c[1] {
case '/':
//-style comment
c = c[2:]
// Remove leading space after //, if there is one.
// TODO(gri) This appears to be necessary in isolated
// cases (bignum.RatFromString) - why?
if len(c) > 0 && c[0] == ' ' {
c = c[1:]
}
case '*':
/*-style comment */
c = c[2 : len(c)-2]
}
// Split on newlines.
cl := strings.Split(c, "\n")
// Walk lines, stripping trailing white space and adding to list.
for _, l := range cl {
lines = append(lines, stripTrailingWhitespace(l))
}
}
// Remove leading blank lines; convert runs of
// interior blank lines to a single blank line.
n := 0
for _, line := range lines {
if line != "" || n > 0 && lines[n-1] != "" {
lines[n] = line
n++
}
}
lines = lines[0:n]
// Add final "" entry to get trailing newline from Join.
if n > 0 && lines[n-1] != "" {
lines = append(lines, "")
}
return strings.Join(lines, "\n")
}
var (
ldquo = []byte("“")
rdquo = []byte("”")
)
// Escape comment text for HTML. If nice is set,
// also turn `` into “ and '' into ”.
func commentEscape(w io.Writer, text string, nice bool) {
last := 0
if nice {
for i := 0; i < len(text)-1; i++ {
ch := text[i]
if ch == text[i+1] && (ch == '`' || ch == '\'') {
template.HTMLEscape(w, []byte(text[last:i]))
last = i + 2
switch ch {
case '`':
w.Write(ldquo)
case '\'':
w.Write(rdquo)
}
i++ // loop will add one more
}
}
}
template.HTMLEscape(w, []byte(text[last:]))
}
const (
// Regexp for Go identifiers
identRx = `[a-zA-Z_][a-zA-Z_0-9]*` // TODO(gri) ASCII only for now - fix this
// Regexp for URLs
protocol = `(https?|ftp|file|gopher|mailto|news|nntp|telnet|wais|prospero):`
hostPart = `[a-zA-Z0-9_@\-]+`
filePart = `[a-zA-Z0-9_?%#~&/\-+=]+`
urlRx = protocol + `//` + // http://
hostPart + `([.:]` + hostPart + `)*/?` + // //www.google.com:8080/
filePart + `([:.,]` + filePart + `)*`
)
var matchRx = regexp.MustCompile(`(` + identRx + `)|(` + urlRx + `)`)
var (
html_a = []byte(`<a href="`)
html_aq = []byte(`">`)
html_enda = []byte("</a>")
html_i = []byte("<i>")
html_endi = []byte("</i>")
html_p = []byte("<p>\n")
html_endp = []byte("</p>\n")
html_pre = []byte("<pre>")
html_endpre = []byte("</pre>\n")
html_h = []byte("<h3>")
html_endh = []byte("</h3>\n")
)
// Emphasize and escape a line of text for HTML. URLs are converted into links;
// if the URL also appears in the words map, the link is taken from the map (if
// the corresponding map value is the empty string, the URL is not converted
// into a link). Go identifiers that appear in the words map are italicized; if
// the corresponding map value is not the empty string, it is considered a URL
// and the word is converted into a link. If nice is set, the remaining text's
// appearance is improved where it makes sense (e.g., `` is turned into “
// and '' into ”).
func emphasize(w io.Writer, line string, words map[string]string, nice bool) {
for {
m := matchRx.FindStringSubmatchIndex(line)
if m == nil {
break
}
// m >= 6 (two parenthesized sub-regexps in matchRx, 1st one is identRx)
// write text before match
commentEscape(w, line[0:m[0]], nice)
// analyze match
match := line[m[0]:m[1]]
url := ""
italics := false
if words != nil {
url, italics = words[string(match)]
}
if m[2] < 0 {
// didn't match against first parenthesized sub-regexp; must be match against urlRx
if !italics {
// no alternative URL in words list, use match instead
url = string(match)
}
italics = false // don't italicize URLs
}
// write match
if len(url) > 0 {
w.Write(html_a)
template.HTMLEscape(w, []byte(url))
w.Write(html_aq)
}
if italics {
w.Write(html_i)
}
commentEscape(w, match, nice)
if italics {
w.Write(html_endi)
}
if len(url) > 0 {
w.Write(html_enda)
}
// advance
line = line[m[1]:]
}
commentEscape(w, line, nice)
}
func indentLen(s string) int {
i := 0
for i < len(s) && (s[i] == ' ' || s[i] == '\t') {
i++
}
return i
}
func isBlank(s string) bool {
return len(s) == 0 || (len(s) == 1 && s[0] == '\n')
}
func commonPrefix(a, b string) string {
i := 0
for i < len(a) && i < len(b) && a[i] == b[i] {
i++
}
return a[0:i]
}
func unindent(block []string) {
if len(block) == 0 {
return
}
// compute maximum common white prefix
prefix := block[0][0:indentLen(block[0])]
for _, line := range block {
if !isBlank(line) {
prefix = commonPrefix(prefix, line[0:indentLen(line)])
}
}
n := len(prefix)
// remove
for i, line := range block {
if !isBlank(line) {
block[i] = line[n:]
}
}
}
// heading returns the trimmed line if it passes as a section heading;
// otherwise it returns the empty string.
func heading(line string) string {
line = strings.TrimSpace(line)
if len(line) == 0 {
return ""
}
// a heading must start with an uppercase letter
r, _ := utf8.DecodeRuneInString(line)
if !unicode.IsLetter(r) || !unicode.IsUpper(r) {
return ""
}
// it must end in a letter or digit:
r, _ = utf8.DecodeLastRuneInString(line)
if !unicode.IsLetter(r) && !unicode.IsDigit(r) {
return ""
}
// exclude lines with illegal characters
if strings.IndexAny(line, ",.;:!?+*/=()[]{}_^°&§~%#@<\">\\") >= 0 {
return ""
}
// allow "'" for possessive "'s" only
for b := line; ; {
i := strings.IndexRune(b, '\'')
if i < 0 {
break
}
if i+1 >= len(b) || b[i+1] != 's' || (i+2 < len(b) && b[i+2] != ' ') {
return "" // not followed by "s "
}
b = b[i+2:]
}
return line
}
type op int
const (
opPara op = iota
opHead
opPre
)
type block struct {
op op
lines []string
}
// ToHTML converts comment text to formatted HTML.
// The comment was prepared by DocReader,
// so it is known not to have leading, trailing blank lines
// nor to have trailing spaces at the end of lines.
// The comment markers have already been removed.
//
// Turn each run of multiple \n into </p><p>.
// Turn each run of indented lines into a <pre> block without indent.
// Enclose headings with header tags.
//
// URLs in the comment text are converted into links; if the URL also appears
// in the words map, the link is taken from the map (if the corresponding map
// value is the empty string, the URL is not converted into a link).
//
// Go identifiers that appear in the words map are italicized; if the corresponding
// map value is not the empty string, it is considered a URL and the word is converted
// into a link.
func ToHTML(w io.Writer, text string, words map[string]string) {
for _, b := range blocks(text) {
switch b.op {
case opPara:
w.Write(html_p)
for _, line := range b.lines {
emphasize(w, line, words, true)
}
w.Write(html_endp)
case opHead:
w.Write(html_h)
for _, line := range b.lines {
commentEscape(w, line, true)
}
w.Write(html_endh)
case opPre:
w.Write(html_pre)
for _, line := range b.lines {
emphasize(w, line, nil, false)
}
w.Write(html_endpre)
}
}
}
func blocks(text string) []block {
var (
out []block
para []string
lastWasBlank = false
lastWasHeading = false
)
close := func() {
if para != nil {
out = append(out, block{opPara, para})
para = nil
}
}
lines := strings.SplitAfter(text, "\n")
unindent(lines)
for i := 0; i < len(lines); {
line := lines[i]
if isBlank(line) {
// close paragraph
close()
i++
lastWasBlank = true
continue
}
if indentLen(line) > 0 {
// close paragraph
close()
// count indented or blank lines
j := i + 1
for j < len(lines) && (isBlank(lines[j]) || indentLen(lines[j]) > 0) {
j++
}
// but not trailing blank lines
for j > i && isBlank(lines[j-1]) {
j--
}
pre := lines[i:j]
i = j
unindent(pre)
// put those lines in a pre block
out = append(out, block{opPre, pre})
lastWasHeading = false
continue
}
if lastWasBlank && !lastWasHeading && i+2 < len(lines) &&
isBlank(lines[i+1]) && !isBlank(lines[i+2]) && indentLen(lines[i+2]) == 0 {
// current line is non-blank, sourounded by blank lines
// and the next non-blank line is not indented: this
// might be a heading.
if head := heading(line); head != "" {
close()
out = append(out, block{opHead, []string{head}})
i += 2
lastWasHeading = true
continue
}
}
// open paragraph
lastWasBlank = false
lastWasHeading = false
para = append(para, lines[i])
i++
}
close()
return out
}
// ToText prepares comment text for presentation in textual output.
// It wraps paragraphs of text to width or fewer Unicode code points
// and then prefixes each line with the indent. In preformatted sections
// (such as program text), it prefixes each non-blank line with preIndent.
func ToText(w io.Writer, text string, indent, preIndent string, width int) {
l := lineWrapper{
out: w,
width: width,
indent: indent,
}
for i, b := range blocks(text) {
switch b.op {
case opPara:
if i > 0 {
w.Write(nl)
}
for _, line := range b.lines {
l.write(line)
}
l.flush()
case opHead:
w.Write(nl)
for _, line := range b.lines {
l.write(line + "\n")
}
l.flush()
case opPre:
w.Write(nl)
for _, line := range b.lines {
if !isBlank(line) {
w.Write([]byte(preIndent))
w.Write([]byte(line))
}
}
}
}
}
type lineWrapper struct {
out io.Writer
printed bool
width int
indent string
n int
pendSpace int
}
var nl = []byte("\n")
var space = []byte(" ")
func (l *lineWrapper) write(text string) {
if l.n == 0 && l.printed {
l.out.Write(nl) // blank line before new paragraph
}
l.printed = true
for _, f := range strings.Fields(text) {
w := utf8.RuneCountInString(f)
// wrap if line is too long
if l.n > 0 && l.n+l.pendSpace+w > l.width {
l.out.Write(nl)
l.n = 0
l.pendSpace = 0
}
if l.n == 0 {
l.out.Write([]byte(l.indent))
}
l.out.Write(space[:l.pendSpace])
l.out.Write([]byte(f))
l.n += l.pendSpace + w
l.pendSpace = 1
}
}
func (l *lineWrapper) flush() {
if l.n == 0 {
return
}
l.out.Write(nl)
l.pendSpace = 0
l.n = 0
}
|