mirror of
https://github.com/go-gitea/gitea
synced 2024-11-08 19:24:25 +00:00
15c7738b3a
vendor update
243 lines
6.2 KiB
Go
243 lines
6.2 KiB
Go
package parser
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import (
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"fmt"
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"strings"
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"unicode"
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"github.com/yuin/goldmark/ast"
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"github.com/yuin/goldmark/text"
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"github.com/yuin/goldmark/util"
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)
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// A DelimiterProcessor interface provides a set of functions about
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// Delimiter nodes.
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type DelimiterProcessor interface {
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// IsDelimiter returns true if given character is a delimiter, otherwise false.
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IsDelimiter(byte) bool
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// CanOpenCloser returns true if given opener can close given closer, otherwise false.
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CanOpenCloser(opener, closer *Delimiter) bool
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// OnMatch will be called when new matched delimiter found.
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// OnMatch should return a new Node correspond to the matched delimiter.
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OnMatch(consumes int) ast.Node
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}
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// A Delimiter struct represents a delimiter like '*' of the Markdown text.
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type Delimiter struct {
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ast.BaseInline
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Segment text.Segment
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// CanOpen is set true if this delimiter can open a span for a new node.
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// See https://spec.commonmark.org/0.29/#can-open-emphasis for details.
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CanOpen bool
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// CanClose is set true if this delimiter can close a span for a new node.
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// See https://spec.commonmark.org/0.29/#can-open-emphasis for details.
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CanClose bool
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// Length is a remaining length of this delimiter.
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Length int
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// OriginalLength is a original length of this delimiter.
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OriginalLength int
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// Char is a character of this delimiter.
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Char byte
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// PreviousDelimiter is a previous sibling delimiter node of this delimiter.
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PreviousDelimiter *Delimiter
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// NextDelimiter is a next sibling delimiter node of this delimiter.
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NextDelimiter *Delimiter
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// Processor is a DelimiterProcessor associated with this delimiter.
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Processor DelimiterProcessor
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}
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// Inline implements Inline.Inline.
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func (d *Delimiter) Inline() {}
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// Dump implements Node.Dump.
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func (d *Delimiter) Dump(source []byte, level int) {
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fmt.Printf("%sDelimiter: \"%s\"\n", strings.Repeat(" ", level), string(d.Text(source)))
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}
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var kindDelimiter = ast.NewNodeKind("Delimiter")
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// Kind implements Node.Kind
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func (d *Delimiter) Kind() ast.NodeKind {
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return kindDelimiter
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}
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// Text implements Node.Text
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func (d *Delimiter) Text(source []byte) []byte {
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return d.Segment.Value(source)
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}
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// ConsumeCharacters consumes delimiters.
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func (d *Delimiter) ConsumeCharacters(n int) {
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d.Length -= n
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d.Segment = d.Segment.WithStop(d.Segment.Start + d.Length)
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}
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// CalcComsumption calculates how many characters should be used for opening
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// a new span correspond to given closer.
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func (d *Delimiter) CalcComsumption(closer *Delimiter) int {
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if (d.CanClose || closer.CanOpen) && (d.OriginalLength+closer.OriginalLength)%3 == 0 && closer.OriginalLength%3 != 0 {
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return 0
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}
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if d.Length >= 2 && closer.Length >= 2 {
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return 2
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}
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return 1
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}
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// NewDelimiter returns a new Delimiter node.
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func NewDelimiter(canOpen, canClose bool, length int, char byte, processor DelimiterProcessor) *Delimiter {
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c := &Delimiter{
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BaseInline: ast.BaseInline{},
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CanOpen: canOpen,
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CanClose: canClose,
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Length: length,
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OriginalLength: length,
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Char: char,
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PreviousDelimiter: nil,
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NextDelimiter: nil,
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Processor: processor,
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}
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return c
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}
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// ScanDelimiter scans a delimiter by given DelimiterProcessor.
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func ScanDelimiter(line []byte, before rune, min int, processor DelimiterProcessor) *Delimiter {
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i := 0
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c := line[i]
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j := i
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if !processor.IsDelimiter(c) {
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return nil
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}
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for ; j < len(line) && c == line[j]; j++ {
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}
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if (j - i) >= min {
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after := rune(' ')
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if j != len(line) {
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after = util.ToRune(line, j)
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}
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canOpen, canClose := false, false
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beforeIsPunctuation := unicode.IsPunct(before)
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beforeIsWhitespace := unicode.IsSpace(before)
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afterIsPunctuation := unicode.IsPunct(after)
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afterIsWhitespace := unicode.IsSpace(after)
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isLeft := !afterIsWhitespace &&
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(!afterIsPunctuation || beforeIsWhitespace || beforeIsPunctuation)
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isRight := !beforeIsWhitespace &&
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(!beforeIsPunctuation || afterIsWhitespace || afterIsPunctuation)
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if line[i] == '_' {
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canOpen = isLeft && (!isRight || beforeIsPunctuation)
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canClose = isRight && (!isLeft || afterIsPunctuation)
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} else {
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canOpen = isLeft
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canClose = isRight
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}
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return NewDelimiter(canOpen, canClose, j-i, c, processor)
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}
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return nil
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}
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// ProcessDelimiters processes the delimiter list in the context.
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// Processing will be stop when reaching the bottom.
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//
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// If you implement an inline parser that can have other inline nodes as
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// children, you should call this function when nesting span has closed.
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func ProcessDelimiters(bottom ast.Node, pc Context) {
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lastDelimiter := pc.LastDelimiter()
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if lastDelimiter == nil {
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return
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}
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var closer *Delimiter
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if bottom != nil {
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if bottom != lastDelimiter {
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for c := lastDelimiter.PreviousSibling(); c != nil; {
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if d, ok := c.(*Delimiter); ok {
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closer = d
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}
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prev := c.PreviousSibling()
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if prev == bottom {
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break
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}
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c = prev
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}
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}
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} else {
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closer = pc.FirstDelimiter()
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}
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if closer == nil {
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pc.ClearDelimiters(bottom)
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return
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}
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for closer != nil {
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if !closer.CanClose {
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closer = closer.NextDelimiter
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continue
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}
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consume := 0
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found := false
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maybeOpener := false
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var opener *Delimiter
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for opener = closer.PreviousDelimiter; opener != nil; opener = opener.PreviousDelimiter {
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if opener.CanOpen && opener.Processor.CanOpenCloser(opener, closer) {
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maybeOpener = true
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consume = opener.CalcComsumption(closer)
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if consume > 0 {
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found = true
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break
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}
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}
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}
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if !found {
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if !maybeOpener && !closer.CanOpen {
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pc.RemoveDelimiter(closer)
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}
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closer = closer.NextDelimiter
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continue
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}
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opener.ConsumeCharacters(consume)
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closer.ConsumeCharacters(consume)
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node := opener.Processor.OnMatch(consume)
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parent := opener.Parent()
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child := opener.NextSibling()
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for child != nil && child != closer {
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next := child.NextSibling()
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node.AppendChild(node, child)
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child = next
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}
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parent.InsertAfter(parent, opener, node)
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for c := opener.NextDelimiter; c != nil && c != closer; {
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next := c.NextDelimiter
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pc.RemoveDelimiter(c)
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c = next
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}
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if opener.Length == 0 {
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pc.RemoveDelimiter(opener)
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}
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if closer.Length == 0 {
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next := closer.NextDelimiter
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pc.RemoveDelimiter(closer)
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closer = next
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}
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}
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pc.ClearDelimiters(bottom)
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}
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