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blackfriday/markdown.go

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package main
import (
"bytes"
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"fmt"
"html"
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"sort"
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"unicode"
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)
const (
MKDA_NOT_AUTOLINK = iota
MKDA_NORMAL
MKDA_EMAIL
)
const (
MKDEXT_NO_INTRA_EMPHASIS = 1 << iota
MKDEXT_TABLES
MKDEXT_FENCED_CODE
MKDEXT_AUTOLINK
MKDEXT_STRIKETHROUGH
MKDEXT_LAX_HTML_BLOCKS
MKDEXT_SPACE_HEADERS
)
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const (
_ = iota
MKD_LIST_ORDERED
MKD_LI_BLOCK // <li> containing block data
MKD_LI_END = 8
)
const (
MKD_TABLE_ALIGN_L = 1 << iota
MKD_TABLE_ALIGN_R
MKD_TABLE_ALIGN_CENTER = (MKD_TABLE_ALIGN_L | MKD_TABLE_ALIGN_R)
)
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var block_tags = map[string]int{
"p": 1, // 0
"dl": 2,
"h1": 2,
"h2": 2,
"h3": 2,
"h4": 2,
"h5": 2,
"h6": 2,
"ol": 2,
"ul": 2,
"del": 3, // 10
"div": 3,
"ins": 3, // 12
"pre": 3,
"form": 4,
"math": 4,
"table": 5,
"iframe": 6,
"script": 6,
"fieldset": 8,
"noscript": 8,
"blockquote": 10,
}
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// functions for rendering parsed data
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type mkd_renderer struct {
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// block-level callbacks---nil skips the block
blockcode func(ob *bytes.Buffer, text []byte, lang string, opaque interface{})
blockquote func(ob *bytes.Buffer, text []byte, opaque interface{})
blockhtml func(ob *bytes.Buffer, text []byte, opaque interface{})
header func(ob *bytes.Buffer, text []byte, level int, opaque interface{})
hrule func(ob *bytes.Buffer, opaque interface{})
list func(ob *bytes.Buffer, text []byte, flags int, opaque interface{})
listitem func(ob *bytes.Buffer, text []byte, flags int, opaque interface{})
paragraph func(ob *bytes.Buffer, text []byte, opaque interface{})
table func(ob *bytes.Buffer, header []byte, body []byte, opaque interface{})
table_row func(ob *bytes.Buffer, text []byte, opaque interface{})
table_cell func(ob *bytes.Buffer, text []byte, flags int, opaque interface{})
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// span-level callbacks---nil or return 0 prints the span verbatim
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autolink func(ob *bytes.Buffer, link []byte, kind int, opaque interface{}) int
codespan func(ob *bytes.Buffer, text []byte, opaque interface{}) int
double_emphasis func(ob *bytes.Buffer, text []byte, opaque interface{}) int
emphasis func(ob *bytes.Buffer, text []byte, opaque interface{}) int
image func(ob *bytes.Buffer, link []byte, title []byte, alt []byte, opaque interface{}) int
linebreak func(ob *bytes.Buffer, opaque interface{}) int
link func(ob *bytes.Buffer, link []byte, title []byte, content []byte, opaque interface{}) int
raw_html_tag func(ob *bytes.Buffer, tag []byte, opaque interface{}) int
triple_emphasis func(ob *bytes.Buffer, text []byte, opaque interface{}) int
strikethrough func(ob *bytes.Buffer, text []byte, opaque interface{}) int
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// low-level callbacks---nil copies input directly into the output
entity func(ob *bytes.Buffer, entity []byte, opaque interface{})
normal_text func(ob *bytes.Buffer, text []byte, opaque interface{})
// header and footer
doc_header func(ob *bytes.Buffer, opaque interface{})
doc_footer func(ob *bytes.Buffer, opaque interface{})
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// user data---passed back to every callback
opaque interface{}
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}
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type link_ref struct {
id []byte
link []byte
title []byte
}
type link_ref_array []*link_ref
// implement the sorting interface
func (elt link_ref_array) Len() int {
return len(elt)
}
func (elt link_ref_array) Less(i, j int) bool {
a, b := elt[i].id, elt[j].id
// adapted from bytes.Compare in stdlib
m := len(a)
if m > len(b) {
m = len(b)
}
for i, ac := range a[0:m] {
// do a case-insensitive comparison
ai, bi := unicode.ToLower(int(ac)), unicode.ToLower(int(b[i]))
switch {
case ai > bi:
return false
case ai < bi:
return true
}
}
switch {
case len(a) < len(b):
return true
case len(a) > len(b):
return false
}
return false
}
func (elt link_ref_array) Swap(i, j int) {
elt[i], elt[j] = elt[j], elt[i]
}
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// returns whether or not a line is a reference
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func is_ref(data []byte, beg int, last *int, rndr *render) bool {
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// up to 3 optional leading spaces
if beg+3 > len(data) {
return false
}
i := 0
if data[beg] == ' ' {
i++
if data[beg+1] == ' ' {
i++
if data[beg+2] == ' ' {
i++
if data[beg+3] == ' ' {
return false
}
}
}
}
i += beg
// id part: anything but a newline between brackets
if data[i] != '[' {
return false
}
i++
id_offset := i
for i < len(data) && data[i] != '\n' && data[i] != '\r' && data[i] != ']' {
i++
}
if i >= len(data) || data[i] != ']' {
return false
}
id_end := i
// spacer: colon (space | tab)* newline? (space | tab)*
i++
if i >= len(data) || data[i] != ':' {
return false
}
i++
for i < len(data) && (data[i] == ' ' || data[i] == '\t') {
i++
}
if i < len(data) && (data[i] == '\n' || data[i] == '\r') {
i++
if i < len(data) && data[i] == '\r' && data[i-1] == '\n' {
i++
}
}
for i < len(data) && (data[i] == ' ' || data[i] == '\t') {
i++
}
if i >= len(data) {
return false
}
// link: whitespace-free sequence, optionally between angle brackets
if data[i] == '<' {
i++
}
link_offset := i
for i < len(data) && data[i] != ' ' && data[i] != '\t' && data[i] != '\n' && data[i] != '\r' {
i++
}
var link_end int
if data[i-1] == '>' {
link_end = i - 1
} else {
link_end = i
}
// optional spacer: (space | tab)* (newline | '\'' | '"' | '(' )
for i < len(data) && (data[i] == ' ' || data[i] == '\t') {
i++
}
if i < len(data) && data[i] != '\n' && data[i] != '\r' && data[i] != '\'' && data[i] != '"' && data[i] != '(' {
return false
}
// compute end-of-line
line_end := 0
if i >= len(data) || data[i] == '\r' || data[i] == '\n' {
line_end = i
}
if i+1 < len(data) && data[i] == '\n' && data[i+1] == '\r' {
line_end = i + 1
}
// optional (space|tab)* spacer after a newline
if line_end > 0 {
i = line_end + 1
for i < len(data) && (data[i] == ' ' || data[i] == '\t') {
i++
}
}
// optional title: any non-newline sequence enclosed in '"() alone on its line
title_offset, title_end := 0, 0
if i+1 < len(data) && (data[i] == '\'' || data[i] == '"' || data[i] == '(') {
i++
title_offset = i
// looking for EOL
for i < len(data) && data[i] != '\n' && data[i] != '\r' {
i++
}
if i+1 < len(data) && data[i] == '\n' && data[i+1] == '\r' {
title_end = i + 1
} else {
title_end = i
}
// stepping back
i--
for i > title_offset && (data[i] == ' ' || data[i] == '\t') {
i--
}
if i > title_offset && (data[i] == '\'' || data[i] == '"' || data[i] == ')') {
line_end = title_end
title_end = i
}
}
if line_end == 0 { // garbage after the link
return false
}
// a valid ref has been found; fill in return structures
if last != nil {
*last = line_end
}
if rndr == nil {
return true
}
item := &link_ref{id: data[id_offset:id_end], link: data[link_offset:link_end], title: data[title_offset:title_end]}
rndr.refs = append(rndr.refs, item)
return true
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}
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type render struct {
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mk *mkd_renderer
refs link_ref_array
active_char [256]int
ext_flags uint32
nesting int
max_nesting int
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}
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const (
MD_CHAR_NONE = iota
MD_CHAR_EMPHASIS
MD_CHAR_CODESPAN
MD_CHAR_LINEBREAK
MD_CHAR_LINK
MD_CHAR_LANGLE
MD_CHAR_ESCAPE
MD_CHAR_ENTITITY
MD_CHAR_AUTOLINK
)
// closures to render active chars, each:
// returns the number of chars taken care of
// data is the complete block being rendered
// offset is the number of valid chars before the data
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//
// Note: this is filled in in Markdown to prevent an initilization loop
var markdown_char_ptrs [9]func(ob *bytes.Buffer, rndr *render, data []byte, offset int) int
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func parse_inline(ob *bytes.Buffer, rndr *render, data []byte) {
if rndr.nesting >= rndr.max_nesting {
return
}
rndr.nesting++
i, end := 0, 0
for i < len(data) {
// copy inactive chars into the output
for end < len(data) && rndr.active_char[data[end]] == 0 {
end++
}
if rndr.mk.normal_text != nil {
rndr.mk.normal_text(ob, data[i:], rndr.mk.opaque)
} else {
ob.Write(data[i:])
}
if end >= len(data) {
break
}
i = end
// call the trigger
action := rndr.active_char[data[end]]
end = markdown_char_ptrs[action](ob, rndr, data, i)
if end == 0 { // no action from the callback
end = i + 1
} else {
i += end
end = i
}
}
rndr.nesting--
}
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// single and double emphasis parsing
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func char_emphasis(ob *bytes.Buffer, rndr *render, data []byte, offset int) int {
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data = data[offset:]
c := data[0]
ret := 0
if len(data) > 2 && data[1] != c {
// whitespace cannot follow an opening emphasis;
// strikethrough only takes two characters '~~'
if c == '~' || unicode.IsSpace(int(data[1])) {
return 0
}
if ret = parse_emph1(ob, rndr, data[1:], c); ret == 0 {
return 0
}
return ret + 1
}
if len(data) > 3 && data[1] == c && data[2] != c {
if unicode.IsSpace(int(data[2])) {
return 0
}
if ret = parse_emph2(ob, rndr, data[2:], c); ret == 0 {
return 0
}
return ret + 2
}
if len(data) > 4 && data[1] == c && data[2] == c && data[3] != c {
if c == '~' || unicode.IsSpace(int(data[3])) {
return 0
}
if ret = parse_emph3(ob, rndr, data, 3, c); ret == 0 {
return 0
}
return ret + 3
}
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return 0
}
func char_codespan(ob *bytes.Buffer, rndr *render, data []byte, offset int) int {
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data = data[offset:]
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return 0
}
func char_linebreak(ob *bytes.Buffer, rndr *render, data []byte, offset int) int {
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data = data[offset:]
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return 0
}
func char_link(ob *bytes.Buffer, rndr *render, data []byte, offset int) int {
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data = data[offset:]
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return 0
}
func char_langle_tag(ob *bytes.Buffer, rndr *render, data []byte, offset int) int {
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data = data[offset:]
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return 0
}
func char_escape(ob *bytes.Buffer, rndr *render, data []byte, offset int) int {
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data = data[offset:]
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return 0
}
func char_entity(ob *bytes.Buffer, rndr *render, data []byte, offset int) int {
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data = data[offset:]
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return 0
}
func char_autolink(ob *bytes.Buffer, rndr *render, data []byte, offset int) int {
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//orig_data := data
data = data[offset:]
return 0
}
// taken from regexp in the stdlib
func ispunct(c int) bool {
for _, r := range "!\"#$%&'()*+,-./:;<=>?@[\\]^_`{|}~" {
if c == r {
return true
}
}
return false
}
// look for the next emph char, skipping other constructs
func find_emph_char(data []byte, c byte) int {
i := 1
for i < len(data) {
for i < len(data) && data[i] != c && data[i] != '`' && data[i] != '[' {
i++
}
if data[i] == c {
return i
}
// do not count escaped chars
if i != 0 && data[i-1] == '\\' {
i++
continue
}
if data[i] == '`' {
// skip a code span
tmp_i := 0
i++
for i < len(data) && data[i] != '`' {
if tmp_i == 0 && data[i] == c {
tmp_i = i
}
i++
}
if i >= len(data) {
return tmp_i
}
i++
} else {
if data[i] == '[' {
// skip a link
tmp_i := 0
i++
for i < len(data) && data[i] != ']' {
if tmp_i == 0 && data[i] == c {
tmp_i = i
}
i++
}
i++
for i < len(data) && (data[i] == ' ' || data[i] == '\t' || data[i] == '\n') {
i++
}
if i >= len(data) {
return tmp_i
}
if data[i] != '[' && data[i] != '(' { // not a link
if tmp_i > 0 {
return tmp_i
} else {
continue
}
}
cc := data[i]
i++
for i < len(data) && data[i] != cc {
if tmp_i == 0 && data[i] == c {
tmp_i = i
}
i++
}
if i >= len(data) {
return tmp_i
}
i++
}
}
}
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return 0
}
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func parse_emph1(ob *bytes.Buffer, rndr *render, data []byte, c byte) int {
i := 0
if rndr.mk.emphasis == nil {
return 0
}
// skip one symbol if coming from emph3
if len(data) > 1 && data[0] == c && data[1] == c {
i = 1
}
for i < len(data) {
length := find_emph_char(data[i:], c)
if length == 0 {
return 0
}
i += length
if i >= len(data) {
return 0
}
if i+1 < len(data) && data[i+1] == c {
i++
continue
}
if data[i] == c && !unicode.IsSpace(int(data[i-1])) {
if rndr.ext_flags&MKDEXT_NO_INTRA_EMPHASIS != 0 {
if !(i+1 == len(data) || unicode.IsSpace(int(data[i+1])) || ispunct(int(data[i+1]))) {
continue
}
}
work := bytes.NewBuffer(nil)
parse_inline(work, rndr, data[:i])
r := rndr.mk.emphasis(ob, work.Bytes(), rndr.mk.opaque)
if r > 0 {
return i + 1
} else {
return 0
}
}
}
return 0
}
func parse_emph2(ob *bytes.Buffer, rndr *render, data []byte, c byte) int {
render_method := rndr.mk.double_emphasis
if c == '~' {
render_method = rndr.mk.strikethrough
}
if render_method == nil {
return 0
}
i := 0
for i < len(data) {
length := find_emph_char(data[i:], c)
if length == 0 {
return 0
}
i += length
if i+1 < len(data) && data[i] == c && data[i+1] == c && i > 0 && !unicode.IsSpace(int(data[i-1])) {
work := bytes.NewBuffer(nil)
parse_inline(work, rndr, data[:i])
r := render_method(ob, work.Bytes(), rndr.mk.opaque)
if r > 0 {
return i + 2
} else {
return 0
}
}
i++
}
return 0
}
func parse_emph3(ob *bytes.Buffer, rndr *render, data []byte, offset int, c byte) int {
i := 0
orig_data := data
data = data[offset:]
for i < len(data) {
length := find_emph_char(data[i:], c)
if length == 0 {
return 0
}
i += length
// skip whitespace preceded symbols
if data[i] != c || unicode.IsSpace(int(data[i-1])) {
continue
}
switch {
case (i+2 < len(data) && data[i+1] == c && data[i+2] == c && rndr.mk.triple_emphasis != nil):
// triple symbol found
work := bytes.NewBuffer(nil)
parse_inline(work, rndr, data[:i])
r := rndr.mk.triple_emphasis(ob, work.Bytes(), rndr.mk.opaque)
if r > 0 {
return i + 3
} else {
return 0
}
case (i+1 < len(data) && data[i+1] == c):
// double symbol found, handing over to emph1
length = parse_emph1(ob, rndr, orig_data[offset-2:], c)
if length == 0 {
return 0
} else {
return length - 2
}
default:
// single symbol found, handing over to emph2
length = parse_emph2(ob, rndr, orig_data[offset-1:], c)
if length == 0 {
return 0
} else {
return length - 1
}
}
}
return 0
}
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// parse block-level data
func parse_block(ob *bytes.Buffer, rndr *render, data []byte) {
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if rndr.nesting >= rndr.max_nesting {
return
}
rndr.nesting++
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for len(data) > 0 {
if is_atxheader(rndr, data) {
data = data[parse_atxheader(ob, rndr, data):]
continue
}
if data[0] == '<' && rndr.mk.blockhtml != nil {
if i := parse_htmlblock(ob, rndr, data, true); i > 0 {
data = data[i:]
continue
}
}
if i := is_empty(data); i > 0 {
data = data[i:]
continue
}
if is_hrule(data) {
if rndr.mk.hrule != nil {
rndr.mk.hrule(ob, rndr.mk.opaque)
}
var i int
for i = 0; i < len(data) && data[i] != '\n'; i++ {
}
data = data[i:]
continue
}
if rndr.ext_flags&MKDEXT_FENCED_CODE != 0 {
if i := parse_fencedcode(ob, rndr, data); i > 0 {
data = data[i:]
continue
}
}
if rndr.ext_flags&MKDEXT_TABLES != 0 {
if i := parse_table(ob, rndr, data); i > 0 {
data = data[i:]
continue
}
}
if prefix_quote(data) > 0 {
data = data[parse_blockquote(ob, rndr, data):]
continue
}
if prefix_code(data) > 0 {
data = data[parse_blockcode(ob, rndr, data):]
continue
}
if prefix_uli(data) > 0 {
data = data[parse_list(ob, rndr, data, 0):]
continue
}
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if prefix_oli(data) > 0 {
data = data[parse_list(ob, rndr, data, MKD_LIST_ORDERED):]
continue
}
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data = data[parse_paragraph(ob, rndr, data):]
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}
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rndr.nesting--
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}
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func is_atxheader(rndr *render, data []byte) bool {
if data[0] != '#' {
return false
}
if rndr.ext_flags&MKDEXT_SPACE_HEADERS != 0 {
level := 0
for level < len(data) && level < 6 && data[level] == '#' {
level++
}
if level < len(data) && data[level] != ' ' && data[level] != '\t' {
return false
}
}
return true
}
func parse_atxheader(ob *bytes.Buffer, rndr *render, data []byte) int {
level := 0
for level < len(data) && level < 6 && data[level] == '#' {
level++
}
i, end := 0, 0
for i = level; i < len(data) && (data[i] == ' ' || data[i] == '\t'); i++ {
}
for end = i; end < len(data) && data[end] != '\n'; end++ {
}
skip := end
for end > 0 && data[end-1] == '#' {
end--
}
for end > 0 && (data[end-1] == ' ' || data[end-1] == '\t') {
end--
}
if end > i {
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work := bytes.NewBuffer(nil)
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parse_inline(work, rndr, data[i:end])
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if rndr.mk.header != nil {
rndr.mk.header(ob, work.Bytes(), level, rndr.mk.opaque)
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}
}
return skip
}
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func is_headerline(data []byte) int {
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i := 0
// test of level 1 header
if data[i] == '=' {
for i = 1; i < len(data) && data[i] == '='; i++ {
}
for i < len(data) && (data[i] == ' ' || data[i] == '\t') {
i++
}
if i >= len(data) || data[i] == '\n' {
return 1
} else {
return 0
}
}
// test of level 2 header
if data[i] == '-' {
for i = 1; i < len(data) && data[i] == '-'; i++ {
}
for i < len(data) && (data[i] == ' ' || data[i] == '\t') {
i++
}
if i >= len(data) || data[i] == '\n' {
return 2
} else {
return 0
}
}
return 0
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}
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func parse_htmlblock(ob *bytes.Buffer, rndr *render, data []byte, do_render bool) int {
var i, j int
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// identify the opening tag
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if len(data) < 2 || data[0] != '<' {
return 0
}
curtag, tagfound := find_block_tag(data[1:])
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// handle special cases
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if !tagfound {
// HTML comment, laxist form
if len(data) > 5 && data[1] == '!' && data[2] == '-' && data[3] == '-' {
i = 5
for i < len(data) && !(data[i-2] == '-' && data[i-1] == '-' && data[i] == '>') {
i++
}
i++
if i < len(data) {
j = is_empty(data[i:])
}
if j > 0 {
size := i + j
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if do_render && rndr.mk.blockhtml != nil {
rndr.mk.blockhtml(ob, data[:size], rndr.mk.opaque)
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}
return size
}
}
// HR, which is the only self-closing block tag considered
if len(data) > 4 && (data[i] == 'h' || data[1] == 'H') && (data[2] == 'r' || data[2] == 'R') {
i = 3
for i < len(data) && data[i] != '>' {
i++
}
if i+1 < len(data) {
i++
j = is_empty(data[i:])
if j > 0 {
size := i + j
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if do_render && rndr.mk.blockhtml != nil {
rndr.mk.blockhtml(ob, data[:size], rndr.mk.opaque)
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}
return size
}
}
}
// no special case recognized
return 0
}
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// look for an unindented matching closing tag
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// followed by a blank line
i = 1
found := false
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// if not found, try a second pass looking for indented match
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// but not if tag is "ins" or "del" (following original Markdown.pl)
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if curtag != "ins" && curtag != "del" {
i = 1
for i < len(data) {
i++
for i < len(data) && !(data[i-1] == '<' && data[i] == '/') {
i++
}
if i+2+len(curtag) >= len(data) {
break
}
j = htmlblock_end(curtag, rndr, data[i-1:])
if j > 0 {
i += j - 1
found = true
break
}
}
}
if !found {
return 0
}
// the end of the block has been found
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if do_render && rndr.mk.blockhtml != nil {
rndr.mk.blockhtml(ob, data[:i], rndr.mk.opaque)
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}
return i
}
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func find_block_tag(data []byte) (string, bool) {
i := 0
for i < len(data) && ((data[i] >= '0' && data[i] <= '9') || (data[i] >= 'A' && data[i] <= 'Z') || (data[i] >= 'a' && data[i] <= 'z')) {
i++
}
if i >= len(data) {
return "", false
}
key := string(data[:i])
if _, ok := block_tags[key]; ok {
return key, true
}
return "", false
}
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func htmlblock_end(tag string, rndr *render, data []byte) int {
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// assume data[0] == '<' && data[1] == '/' already tested
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// check if tag is a match
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if len(tag)+3 >= len(data) || bytes.Compare(data[2:2+len(tag)], []byte(tag)) != 0 || data[len(tag)+2] != '>' {
return 0
}
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// check white lines
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i := len(tag) + 3
w := 0
if i < len(data) {
if w = is_empty(data[i:]); w == 0 {
return 0 // non-blank after tag
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}
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}
i += w
w = 0
if rndr.ext_flags&MKDEXT_LAX_HTML_BLOCKS != 0 {
if i < len(data) {
w = is_empty(data[i:])
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}
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} else {
if i < len(data) {
if w = is_empty(data[i:]); w == 0 {
return 0 // non-blank line after tag line
}
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}
}
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return i + w
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}
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func is_empty(data []byte) int {
var i int
for i = 0; i < len(data) && data[i] != '\n'; i++ {
if data[i] != ' ' && data[i] != '\t' {
return 0
}
}
return i + 1
}
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func is_hrule(data []byte) bool {
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// skip initial spaces
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if len(data) < 3 {
return false
}
i := 0
if data[0] == ' ' {
i++
if data[1] == ' ' {
i++
if data[2] == ' ' {
i++
}
}
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}
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// look at the hrule char
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if i+2 >= len(data) || (data[i] != '*' && data[i] != '-' && data[i] != '_') {
return false
}
c := data[i]
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// the whole line must be the char or whitespace
n := 0
for i < len(data) && data[i] != '\n' {
switch {
case data[i] == c:
n++
case data[i] != ' ' && data[i] != '\t':
return false
}
i++
}
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return n >= 3
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}
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func is_codefence(data []byte, syntax **string) int {
i, n := 0, 0
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// skip initial spaces
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if len(data) < 3 {
return 0
}
if data[0] == ' ' {
i++
if data[1] == ' ' {
i++
if data[2] == ' ' {
i++
}
}
}
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// look at the hrule char
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if i+2 >= len(data) || !(data[i] == '~' || data[i] == '`') {
return 0
}
c := data[i]
// the whole line must be the char or whitespace
for i < len(data) && data[i] == c {
n++
i++
}
if n < 3 {
return 0
}
if syntax != nil {
syn := 0
for i < len(data) && (data[i] == ' ' || data[i] == '\t') {
i++
}
syntax_start := i
if i < len(data) && data[i] == '{' {
i++
syntax_start++
for i < len(data) && data[i] != '}' && data[i] != '\n' {
syn++
i++
}
if i == len(data) || data[i] != '}' {
return 0
}
// string all whitespace at the beginning and the end
// of the {} block
for syn > 0 && unicode.IsSpace(int(data[syntax_start])) {
syntax_start++
syn--
}
for syn > 0 && unicode.IsSpace(int(data[syntax_start+syn-1])) {
syn--
}
i++
} else {
for i < len(data) && !unicode.IsSpace(int(data[i])) {
syn++
i++
}
}
language := string(data[syntax_start : syntax_start+syn])
*syntax = &language
}
for i < len(data) && data[i] != '\n' {
if !unicode.IsSpace(int(data[i])) {
return 0
}
i++
}
return i + 1
}
func parse_fencedcode(ob *bytes.Buffer, rndr *render, data []byte) int {
var lang *string
beg := is_codefence(data, &lang)
if beg == 0 {
return 0
}
work := bytes.NewBuffer(nil)
for beg < len(data) {
fence_end := is_codefence(data[beg:], nil)
if fence_end != 0 {
beg += fence_end
break
}
var end int
for end = beg + 1; end < len(data) && data[end-1] != '\n'; end++ {
}
if beg < end {
// verbatim copy to the working buffer, escaping entities
if is_empty(data[beg:]) > 0 {
work.WriteByte('\n')
} else {
work.Write(data[beg:end])
}
}
beg = end
}
if work.Len() > 0 && work.Bytes()[work.Len()-1] != '\n' {
work.WriteByte('\n')
}
if rndr.mk.blockcode != nil {
syntax := ""
if lang != nil {
syntax = *lang
}
rndr.mk.blockcode(ob, work.Bytes(), syntax, rndr.mk.opaque)
}
return beg
}
func parse_table(ob *bytes.Buffer, rndr *render, data []byte) int {
header_work := bytes.NewBuffer(nil)
i, columns, col_data := parse_table_header(header_work, rndr, data)
if i > 0 {
body_work := bytes.NewBuffer(nil)
for i < len(data) {
pipes, row_start := 0, i
for ; i < len(data) && data[i] != '\n'; i++ {
if data[i] == '|' {
pipes++
}
}
if pipes == 0 || i == len(data) {
i = row_start
break
}
parse_table_row(body_work, rndr, data[row_start:i], columns, col_data)
i++
}
if rndr.mk.table != nil {
rndr.mk.table(ob, header_work.Bytes(), body_work.Bytes(), rndr.mk.opaque)
}
}
return i
}
func parse_table_header(ob *bytes.Buffer, rndr *render, data []byte) (size int, columns int, column_data []int) {
i, pipes := 0, 0
column_data = []int{}
for i = 0; i < len(data) && data[i] != '\n'; i++ {
if data[i] == '|' {
pipes++
}
}
if i == len(data) || pipes == 0 {
return 0, 0, column_data
}
header_end := i
if data[0] == '|' {
pipes--
}
if i > 2 && data[i-1] == '|' {
pipes--
}
columns = pipes + 1
column_data = make([]int, columns)
// parse the header underline
i++
if i < len(data) && data[i] == '|' {
i++
}
under_end := i
for under_end < len(data) && data[under_end] != '\n' {
under_end++
}
col := 0
for ; col < columns && i < under_end; col++ {
dashes := 0
for i < under_end && (data[i] == ' ' || data[i] == '\t') {
i++
}
if data[i] == ':' {
i++
column_data[col] |= MKD_TABLE_ALIGN_L
dashes++
}
for i < under_end && data[i] == '-' {
i++
dashes++
}
if i < under_end && data[i] == ':' {
i++
column_data[col] |= MKD_TABLE_ALIGN_R
dashes++
}
for i < under_end && (data[i] == ' ' || data[i] == '\t') {
i++
}
if i < under_end && data[i] != '|' {
break
}
if dashes < 3 {
break
}
i++
}
if col < columns {
return 0, 0, column_data
}
parse_table_row(ob, rndr, data[:header_end], columns, column_data)
size = under_end + 1
return
}
func parse_table_row(ob *bytes.Buffer, rndr *render, data []byte, columns int, col_data []int) {
i, col := 0, 0
row_work := bytes.NewBuffer(nil)
if i < len(data) && data[i] == '|' {
i++
}
for col = 0; col < columns && i < len(data); col++ {
for i < len(data) && unicode.IsSpace(int(data[i])) {
i++
}
cell_start := i
for i < len(data) && data[i] != '|' {
i++
}
cell_end := i - 1
for cell_end > cell_start && unicode.IsSpace(int(data[cell_end])) {
cell_end--
}
cell_work := bytes.NewBuffer(nil)
parse_inline(cell_work, rndr, data[cell_start:cell_end+1])
if rndr.mk.table_cell != nil {
cdata := 0
if col < len(col_data) {
cdata = col_data[col]
}
rndr.mk.table_cell(row_work, cell_work.Bytes(), cdata, rndr.mk.opaque)
}
i++
}
for ; col < columns; col++ {
empty_cell := []byte{}
if rndr.mk.table_cell != nil {
cdata := 0
if col < len(col_data) {
cdata = col_data[col]
}
rndr.mk.table_cell(row_work, empty_cell, cdata, rndr.mk.opaque)
}
}
if rndr.mk.table_row != nil {
rndr.mk.table_row(ob, row_work.Bytes(), rndr.mk.opaque)
}
}
// returns blockquote prefix length
func prefix_quote(data []byte) int {
i := 0
for i < len(data) && i < 3 && data[i] == ' ' {
i++
}
if i < len(data) && data[i] == '>' {
if i+1 < len(data) && (data[i+1] == ' ' || data[i+1] == '\t') {
return i + 2
}
return i + 1
}
return 0
}
// handles parsing of a blockquote fragment
func parse_blockquote(ob *bytes.Buffer, rndr *render, data []byte) int {
out := bytes.NewBuffer(nil)
work := bytes.NewBuffer(nil)
beg, end := 0, 0
for beg < len(data) {
for end = beg + 1; end < len(data) && data[end-1] != '\n'; end++ {
}
if pre := prefix_quote(data[beg:]); pre > 0 {
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beg += pre // skip prefix
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} else {
// empty line followed by non-quote line
if is_empty(data[beg:]) > 0 && (end >= len(data) || (prefix_quote(data[end:]) == 0 && is_empty(data[end:]) == 0)) {
break
}
}
if beg < end { // copy into the in-place working buffer
work.Write(data[beg:end])
}
beg = end
}
parse_block(out, rndr, work.Bytes())
if rndr.mk.blockquote != nil {
rndr.mk.blockquote(ob, out.Bytes(), rndr.mk.opaque)
}
return end
}
// returns prefix length for block code
func prefix_code(data []byte) int {
if len(data) > 0 && data[0] == '\t' {
return 1
}
if len(data) > 3 && data[0] == ' ' && data[1] == ' ' && data[2] == ' ' && data[3] == ' ' {
return 4
}
return 0
}
func parse_blockcode(ob *bytes.Buffer, rndr *render, data []byte) int {
work := bytes.NewBuffer(nil)
beg, end := 0, 0
for beg < len(data) {
for end = beg + 1; end < len(data) && data[end-1] != '\n'; end++ {
}
chunk := data[beg:end]
if pre := prefix_code(chunk); pre > 0 {
beg += pre
} else {
if is_empty(chunk) == 0 {
// non-empty non-prefixed line breaks the pre
break
}
}
if beg < end {
// verbatim copy to the working buffer, escaping entities
if is_empty(chunk) > 0 {
work.WriteByte('\n')
} else {
work.Write(chunk)
}
}
beg = end
}
// trim all the \n off the end of work
workbytes := work.Bytes()
n := 0
for len(workbytes) > n && workbytes[len(workbytes)-n-1] == '\n' {
n++
}
if n > 0 {
work = bytes.NewBuffer(workbytes[:len(workbytes)-n])
}
work.WriteByte('\n')
if rndr.mk.blockcode != nil {
rndr.mk.blockcode(ob, work.Bytes(), "", rndr.mk.opaque)
}
return beg
}
// returns unordered list item prefix
func prefix_uli(data []byte) int {
i := 0
for i < len(data) && i < 3 && data[i] == ' ' {
i++
}
if i+1 >= len(data) || (data[i] != '*' && data[i] != '+' && data[i] != '-') || (data[i+1] != ' ' && data[i+1] != '\t') {
return 0
}
return i + 2
}
// returns ordered list item prefix
func prefix_oli(data []byte) int {
i := 0
for i < len(data) && i < 3 && data[i] == ' ' {
i++
}
if i >= len(data) || data[i] < '0' || data[i] > '9' {
return 0
}
for i < len(data) && data[i] >= '0' && data[i] <= '9' {
i++
}
if i+1 >= len(data) || data[i] != '.' || (data[i+1] != ' ' && data[i+1] != '\t') {
return 0
}
return i + 2
}
// parsing ordered or unordered list block
func parse_list(ob *bytes.Buffer, rndr *render, data []byte, flags int) int {
work := bytes.NewBuffer(nil)
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i, j := 0, 0
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for i < len(data) {
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j = parse_listitem(work, rndr, data[i:], &flags)
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i += j
if j == 0 || flags&MKD_LI_END != 0 {
break
}
}
if rndr.mk.list != nil {
rndr.mk.list(ob, work.Bytes(), flags, rndr.mk.opaque)
}
return i
}
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// parse a single list item
// assumes initial prefix is already removed
func parse_listitem(ob *bytes.Buffer, rndr *render, data []byte, flags *int) int {
// keep track of the first indentation prefix
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beg, end, pre, sublist, orgpre, i := 0, 0, 0, 0, 0, 0
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for orgpre < 3 && orgpre < len(data) && data[orgpre] == ' ' {
orgpre++
}
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beg = prefix_uli(data)
if beg == 0 {
beg = prefix_oli(data)
}
if beg == 0 {
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return 0
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}
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// skip to the beginning of the following line
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end = beg
for end < len(data) && data[end-1] != '\n' {
end++
}
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// get working buffers
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work := bytes.NewBuffer(nil)
inter := bytes.NewBuffer(nil)
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// put the first line into the working buffer
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work.Write(data[beg:end])
beg = end
// process the following lines
in_empty, has_inside_empty := false, false
for beg < len(data) {
end++
for end < len(data) && data[end-1] != '\n' {
end++
}
// process an empty line
if is_empty(data[beg:end]) > 0 {
in_empty = true
beg = end
continue
}
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// calculate the indentation
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i = 0
for i < 4 && beg+i < end && data[beg+i] == ' ' {
i++
}
pre = i
if data[beg] == '\t' {
i = 1
pre = 8
}
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// check for a new item
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chunk := data[beg+i : end]
if (prefix_uli(chunk) > 0 && !is_hrule(chunk)) || prefix_oli(chunk) > 0 {
if in_empty {
has_inside_empty = true
}
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if pre == orgpre { // the following item must have the same indentation
break
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}
if sublist == 0 {
sublist = work.Len()
}
} else {
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// only join indented stuff after empty lines
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if in_empty && i < 4 && data[beg] != '\t' {
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*flags |= MKD_LI_END
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break
} else {
if in_empty {
work.WriteByte('\n')
has_inside_empty = true
}
}
}
in_empty = false
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// add the line into the working buffer without prefix
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work.Write(data[beg+i : end])
beg = end
}
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// render li contents
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if has_inside_empty {
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*flags |= MKD_LI_BLOCK
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}
workbytes := work.Bytes()
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if *flags&MKD_LI_BLOCK != 0 {
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// intermediate render of block li
if sublist > 0 && sublist < len(workbytes) {
parse_block(inter, rndr, workbytes[:sublist])
parse_block(inter, rndr, workbytes[sublist:])
} else {
parse_block(inter, rndr, workbytes)
}
} else {
// intermediate render of inline li
if sublist > 0 && sublist < len(workbytes) {
parse_inline(inter, rndr, workbytes[:sublist])
parse_inline(inter, rndr, workbytes[sublist:])
} else {
parse_inline(inter, rndr, workbytes)
}
}
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// render li itself
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if rndr.mk.listitem != nil {
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rndr.mk.listitem(ob, inter.Bytes(), *flags, rndr.mk.opaque)
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}
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return beg
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}
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func parse_paragraph(ob *bytes.Buffer, rndr *render, data []byte) int {
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i, end, level := 0, 0, 0
for i < len(data) {
for end = i + 1; end < len(data) && data[end-1] != '\n'; end++ {
}
if is_empty(data[i:]) > 0 {
break
}
if level = is_headerline(data[i:]); level > 0 {
break
}
if rndr.ext_flags&MKDEXT_LAX_HTML_BLOCKS != 0 {
if data[i] == '<' && rndr.mk.blockhtml != nil && parse_htmlblock(ob, rndr, data[i:], false) > 0 {
end = i
break
}
}
if is_atxheader(rndr, data[i:]) || is_hrule(data[i:]) {
end = i
break
}
i = end
}
work := data
size := i
for size > 0 && work[size-1] == '\n' {
size--
}
if level == 0 {
tmp := bytes.NewBuffer(nil)
parse_inline(tmp, rndr, work[:size])
if rndr.mk.paragraph != nil {
rndr.mk.paragraph(ob, tmp.Bytes(), rndr.mk.opaque)
}
} else {
if size > 0 {
beg := 0
i = size
size--
for size > 0 && work[size] != '\n' {
size--
}
beg = size + 1
for size > 0 && work[size-1] == '\n' {
size--
}
if size > 0 {
tmp := bytes.NewBuffer(nil)
parse_inline(tmp, rndr, work[:size])
if rndr.mk.paragraph != nil {
rndr.mk.paragraph(ob, tmp.Bytes(), rndr.mk.opaque)
}
work = work[beg:]
size = i - beg
} else {
size = i
}
}
header_work := bytes.NewBuffer(nil)
parse_inline(header_work, rndr, work[:size])
if rndr.mk.header != nil {
rndr.mk.header(ob, header_work.Bytes(), level, rndr.mk.opaque)
}
}
return end
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}
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//
//
// HTML rendering
//
//
const (
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HTML_SKIP_HTML = 1 << iota
HTML_SKIP_STYLE
HTML_SKIP_IMAGES
HTML_SKIP_LINKS
HTML_EXPAND_TABS
HTML_SAFELINK
HTML_TOC
HTML_HARD_WRAP
HTML_GITHUB_BLOCKCODE
HTML_USE_XHTML
)
type html_renderopts struct {
toc_data struct {
header_count int
current_level int
}
flags uint32
close_tag string
}
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func attr_escape(ob *bytes.Buffer, src []byte) {
ob.WriteString(html.EscapeString(string(src)))
}
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func rndr_header(ob *bytes.Buffer, text []byte, level int, opaque interface{}) {
options := opaque.(*html_renderopts)
if ob.Len() > 0 {
ob.WriteByte('\n')
}
if options.flags&HTML_TOC != 0 {
ob.WriteString(fmt.Sprintf("<h%d id=\"toc_%d\">", level, options.toc_data.header_count))
options.toc_data.header_count++
} else {
ob.WriteString(fmt.Sprintf("<h%d>", level))
}
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ob.Write(text)
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ob.WriteString(fmt.Sprintf("</h%d>\n", level))
}
func rndr_raw_block(ob *bytes.Buffer, text []byte, opaque interface{}) {
sz := len(text)
for sz > 0 && text[sz-1] == '\n' {
sz--
}
org := 0
for org < sz && text[org] == '\n' {
org++
}
if org >= sz {
return
}
if ob.Len() > 0 {
ob.WriteByte('\n')
}
ob.Write(text[org:sz])
ob.WriteByte('\n')
}
func rndr_hrule(ob *bytes.Buffer, opaque interface{}) {
options := opaque.(*html_renderopts)
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if ob.Len() > 0 {
ob.WriteByte('\n')
}
ob.WriteString("<hr")
ob.WriteString(options.close_tag)
}
func rndr_blockcode(ob *bytes.Buffer, text []byte, lang string, opaque interface{}) {
if ob.Len() > 0 {
ob.WriteByte('\n')
}
if lang != "" {
ob.WriteString("<pre><code class=\"")
for i, cls := 0, 0; i < len(lang); i, cls = i+1, cls+1 {
for i < len(lang) && unicode.IsSpace(int(lang[i])) {
i++
}
if i < len(lang) {
org := i
for i < len(lang) && !unicode.IsSpace(int(lang[i])) {
i++
}
if lang[org] == '.' {
org++
}
if cls > 0 {
ob.WriteByte(' ')
}
attr_escape(ob, []byte(lang[org:]))
}
}
ob.WriteString("\">")
} else {
ob.WriteString("<pre><code>")
}
if len(text) > 0 {
attr_escape(ob, text)
}
ob.WriteString("</code></pre>\n")
}
func rndr_table(ob *bytes.Buffer, header []byte, body []byte, opaque interface{}) {
if ob.Len() > 0 {
ob.WriteByte('\n')
}
ob.WriteString("<table><thead>\n")
ob.Write(header)
ob.WriteString("\n</thead><tbody>\n")
ob.Write(body)
ob.WriteString("\n</tbody></table>")
}
func rndr_tablerow(ob *bytes.Buffer, text []byte, opaque interface{}) {
if ob.Len() > 0 {
ob.WriteByte('\n')
}
ob.WriteString("<tr>\n")
ob.Write(text)
ob.WriteString("\n</tr>")
}
func rndr_tablecell(ob *bytes.Buffer, text []byte, align int, opaque interface{}) {
if ob.Len() > 0 {
ob.WriteByte('\n')
}
switch align {
case MKD_TABLE_ALIGN_L:
ob.WriteString("<td align=\"left\">")
case MKD_TABLE_ALIGN_R:
ob.WriteString("<td align=\"right\">")
case MKD_TABLE_ALIGN_CENTER:
ob.WriteString("<td align=\"center\">")
default:
ob.WriteString("<td>")
}
ob.Write(text)
ob.WriteString("</td>")
}
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func rndr_list(ob *bytes.Buffer, text []byte, flags int, opaque interface{}) {
if ob.Len() > 0 {
ob.WriteByte('\n')
}
if flags&MKD_LIST_ORDERED != 0 {
ob.WriteString("<ol>\n")
} else {
ob.WriteString("<ul>\n")
}
ob.Write(text)
if flags&MKD_LIST_ORDERED != 0 {
ob.WriteString("</ol>\n")
} else {
ob.WriteString("</ul>\n")
}
}
func rndr_listitem(ob *bytes.Buffer, text []byte, flags int, opaque interface{}) {
ob.WriteString("<li>")
size := len(text)
for size > 0 && text[size-1] == '\n' {
size--
}
ob.Write(text[:size])
ob.WriteString("</li>\n")
}
func rndr_paragraph(ob *bytes.Buffer, text []byte, opaque interface{}) {
options := opaque.(*html_renderopts)
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i := 0
if ob.Len() > 0 {
ob.WriteByte('\n')
}
if len(text) == 0 {
return
}
for i < len(text) && unicode.IsSpace(int(text[i])) {
i++
}
if i == len(text) {
return
}
ob.WriteString("<p>")
if options.flags&HTML_HARD_WRAP != 0 {
for i < len(text) {
org := i
for i < len(text) && text[i] != '\n' {
i++
}
if i > org {
ob.Write(text[org:i])
}
if i >= len(text) {
break
}
ob.WriteString("<br>")
ob.WriteString(options.close_tag)
i++
}
} else {
ob.Write(text[i:])
}
ob.WriteString("</p>\n")
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}
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func main() {
ob := bytes.NewBuffer(nil)
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input := ""
input += "##Header##\n"
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input += "\n"
input += "----------\n"
input += "\n"
input += "Underlined header\n"
input += "-----------------\n"
input += "\n"
input += "<p>Some block html\n"
input += "</p>\n"
input += "\n"
input += "Score | Grade\n"
input += "------|------\n"
input += "94 | A\n"
input += "85 | B\n"
input += "74 | C\n"
input += "65 | D\n"
input += "\n"
input += "``` go\n"
input += "func fib(n int) int {\n"
input += " if n <= 1 {\n"
input += " return n\n"
input += " }\n"
input += " return n * fib(n-1)\n"
input += "}\n"
input += "```\n"
input += "\n"
input += "> A blockquote\n"
input += "> or something like that\n"
input += "> With a table | of two columns\n"
input += "> -------------|---------------\n"
input += "> key | value \n"
input += "\n"
input += "\n"
input += "Some **bold** Some *italic* and [a link][1] \n"
input += "\n"
input += "A little code sample\n"
input += "\n"
input += " </head>\n"
input += " <title>Web Page Title</title>\n"
input += " </head>\n"
input += "\n"
input += "A picture\n"
input += "\n"
input += "![alt text][2]\n"
input += "\n"
input += "A list\n"
input += "\n"
input += "- apples\n"
input += "- oranges\n"
input += "- eggs\n"
input += "\n"
input += "A numbered list\n"
input += "\n"
input += "1. a\n"
input += "2. b\n"
input += "3. c\n"
input += "\n"
input += "A little quote\n"
input += "\n"
input += "> It is now time for all good men to come to the aid of their country. \n"
input += "\n"
input += "A final paragraph.\n"
input += "\n"
input += " [1]: http://www.google.com\n"
input += " [2]: http://www.google.com/intl/en_ALL/images/logo.gif\n"
ib := []byte(input)
rndrer := new(mkd_renderer)
rndrer.blockcode = rndr_blockcode
rndrer.blockhtml = rndr_raw_block
rndrer.header = rndr_header
rndrer.hrule = rndr_hrule
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rndrer.list = rndr_list
rndrer.listitem = rndr_listitem
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rndrer.paragraph = rndr_paragraph
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rndrer.table = rndr_table
rndrer.table_row = rndr_tablerow
rndrer.table_cell = rndr_tablecell
rndrer.opaque = &html_renderopts{close_tag: " />"}
var extensions uint32 = MKDEXT_FENCED_CODE | MKDEXT_TABLES
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Markdown(ob, ib, rndrer, extensions)
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fmt.Print(ob.String())
}
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func expand_tabs(ob *bytes.Buffer, line []byte) {
i, tab := 0, 0
for i < len(line) {
org := i
for i < len(line) && line[i] != '\t' {
i++
tab++
}
if i > org {
ob.Write(line[org:i])
}
if i >= len(line) {
break
}
for {
ob.WriteByte(' ')
tab++
if tab%4 == 0 {
break
}
}
i++
}
}
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func Markdown(ob *bytes.Buffer, ib []byte, rndrer *mkd_renderer, extensions uint32) {
// no point in parsing if we can't render
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if rndrer == nil {
return
}
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// fill in the character-level parsers
markdown_char_ptrs[MD_CHAR_NONE] = nil
markdown_char_ptrs[MD_CHAR_EMPHASIS] = char_emphasis
markdown_char_ptrs[MD_CHAR_CODESPAN] = char_codespan
markdown_char_ptrs[MD_CHAR_LINEBREAK] = char_linebreak
markdown_char_ptrs[MD_CHAR_LINK] = char_link
markdown_char_ptrs[MD_CHAR_LANGLE] = char_langle_tag
markdown_char_ptrs[MD_CHAR_ESCAPE] = char_escape
markdown_char_ptrs[MD_CHAR_ENTITITY] = char_entity
markdown_char_ptrs[MD_CHAR_AUTOLINK] = char_autolink
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// fill in the render structure
rndr := new(render)
rndr.mk = rndrer
rndr.ext_flags = extensions
rndr.max_nesting = 16
if rndr.mk.emphasis != nil || rndr.mk.double_emphasis != nil || rndr.mk.triple_emphasis != nil {
rndr.active_char['*'] = MD_CHAR_EMPHASIS
rndr.active_char['_'] = MD_CHAR_EMPHASIS
if extensions&MKDEXT_STRIKETHROUGH != 0 {
rndr.active_char['~'] = MD_CHAR_EMPHASIS
}
}
if rndr.mk.codespan != nil {
rndr.active_char['`'] = MD_CHAR_CODESPAN
}
if rndr.mk.linebreak != nil {
rndr.active_char['\n'] = MD_CHAR_LINEBREAK
}
if rndr.mk.image != nil || rndr.mk.link != nil {
rndr.active_char['['] = MD_CHAR_LINK
}
rndr.active_char['<'] = MD_CHAR_LANGLE
rndr.active_char['\\'] = MD_CHAR_ESCAPE
rndr.active_char['&'] = MD_CHAR_ENTITITY
if extensions&MKDEXT_AUTOLINK != 0 {
rndr.active_char['h'] = MD_CHAR_AUTOLINK // http, https
rndr.active_char['H'] = MD_CHAR_AUTOLINK
rndr.active_char['f'] = MD_CHAR_AUTOLINK // ftp
rndr.active_char['F'] = MD_CHAR_AUTOLINK
rndr.active_char['m'] = MD_CHAR_AUTOLINK // mailto
rndr.active_char['M'] = MD_CHAR_AUTOLINK
}
// first pass: look for references, copying everything else
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text := bytes.NewBuffer(nil)
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beg, end := 0, 0
for beg < len(ib) { // iterate over lines
if is_ref(ib, beg, &end, rndr) {
beg = end
} else { // skip to the next line
end = beg
for end < len(ib) && ib[end] != '\n' && ib[end] != '\r' {
end++
}
// add the line body if present
if end > beg {
expand_tabs(text, ib[beg:end])
}
for end < len(ib) && (ib[end] == '\n' || ib[end] == '\r') {
// add one \n per newline
if ib[end] == '\n' || (end+1 < len(ib) && ib[end+1] != '\n') {
text.WriteByte('\n')
}
end++
}
beg = end
}
}
// sort the reference array
if len(rndr.refs) > 1 {
sort.Sort(rndr.refs)
}
// second pass: actual rendering
if rndr.mk.doc_header != nil {
rndr.mk.doc_header(ob, rndr.mk.opaque)
}
if text.Len() > 0 {
// add a final newline if not already present
finalchar := text.Bytes()[text.Len()-1]
if finalchar != '\n' && finalchar != '\r' {
text.WriteByte('\n')
}
parse_block(ob, rndr, text.Bytes())
}
if rndr.mk.doc_footer != nil {
rndr.mk.doc_footer(ob, rndr.mk.opaque)
}
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if rndr.nesting != 0 {
panic("Nesting level did not end at zero")
}
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}