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luet/vendor/golang.org/x/net/html/parse.go
Itxaka 4adc0dc9b9
Use goreleaser to build and release (#244) 
Instead of using gox on one side and an action to release, we can merge
them together with goreleaser which will build for extra targets (arm,
mips if needed in the future) and it also takes care of creating
checksums, a source archive, and a changelog and creating a release with
all the artifacts.

All binaries should respect the old naming convention, so any scripts
out there should still work.

Signed-off-by: Itxaka <igarcia@suse.com>
2021-08-11 08:30:55 +02:00

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// Copyright 2010 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.
package html
import (
"errors"
"fmt"
"io"
"strings"
a "golang.org/x/net/html/atom"
)
// A parser implements the HTML5 parsing algorithm:
// https://html.spec.whatwg.org/multipage/syntax.html#tree-construction
type parser struct {
// tokenizer provides the tokens for the parser.
tokenizer *Tokenizer
// tok is the most recently read token.
tok Token
// Self-closing tags like <hr/> are treated as start tags, except that
// hasSelfClosingToken is set while they are being processed.
hasSelfClosingToken bool
// doc is the document root element.
doc *Node
// The stack of open elements (section 12.2.4.2) and active formatting
// elements (section 12.2.4.3).
oe, afe nodeStack
// Element pointers (section 12.2.4.4).
head, form *Node
// Other parsing state flags (section 12.2.4.5).
scripting, framesetOK bool
// The stack of template insertion modes
templateStack insertionModeStack
// im is the current insertion mode.
im insertionMode
// originalIM is the insertion mode to go back to after completing a text
// or inTableText insertion mode.
originalIM insertionMode
// fosterParenting is whether new elements should be inserted according to
// the foster parenting rules (section 12.2.6.1).
fosterParenting bool
// quirks is whether the parser is operating in "quirks mode."
quirks bool
// fragment is whether the parser is parsing an HTML fragment.
fragment bool
// context is the context element when parsing an HTML fragment
// (section 12.4).
context *Node
}
func (p *parser) top() *Node {
if n := p.oe.top(); n != nil {
return n
}
return p.doc
}
// Stop tags for use in popUntil. These come from section 12.2.4.2.
var (
defaultScopeStopTags = map[string][]a.Atom{
"": {a.Applet, a.Caption, a.Html, a.Table, a.Td, a.Th, a.Marquee, a.Object, a.Template},
"math": {a.AnnotationXml, a.Mi, a.Mn, a.Mo, a.Ms, a.Mtext},
"svg": {a.Desc, a.ForeignObject, a.Title},
}
)
type scope int
const (
defaultScope scope = iota
listItemScope
buttonScope
tableScope
tableRowScope
tableBodyScope
selectScope
)
// popUntil pops the stack of open elements at the highest element whose tag
// is in matchTags, provided there is no higher element in the scope's stop
// tags (as defined in section 12.2.4.2). It returns whether or not there was
// such an element. If there was not, popUntil leaves the stack unchanged.
//
// For example, the set of stop tags for table scope is: "html", "table". If
// the stack was:
// ["html", "body", "font", "table", "b", "i", "u"]
// then popUntil(tableScope, "font") would return false, but
// popUntil(tableScope, "i") would return true and the stack would become:
// ["html", "body", "font", "table", "b"]
//
// If an element's tag is in both the stop tags and matchTags, then the stack
// will be popped and the function returns true (provided, of course, there was
// no higher element in the stack that was also in the stop tags). For example,
// popUntil(tableScope, "table") returns true and leaves:
// ["html", "body", "font"]
func (p *parser) popUntil(s scope, matchTags ...a.Atom) bool {
if i := p.indexOfElementInScope(s, matchTags...); i != -1 {
p.oe = p.oe[:i]
return true
}
return false
}
// indexOfElementInScope returns the index in p.oe of the highest element whose
// tag is in matchTags that is in scope. If no matching element is in scope, it
// returns -1.
func (p *parser) indexOfElementInScope(s scope, matchTags ...a.Atom) int {
for i := len(p.oe) - 1; i >= 0; i-- {
tagAtom := p.oe[i].DataAtom
if p.oe[i].Namespace == "" {
for _, t := range matchTags {
if t == tagAtom {
return i
}
}
switch s {
case defaultScope:
// No-op.
case listItemScope:
if tagAtom == a.Ol || tagAtom == a.Ul {
return -1
}
case buttonScope:
if tagAtom == a.Button {
return -1
}
case tableScope:
if tagAtom == a.Html || tagAtom == a.Table || tagAtom == a.Template {
return -1
}
case selectScope:
if tagAtom != a.Optgroup && tagAtom != a.Option {
return -1
}
default:
panic("unreachable")
}
}
switch s {
case defaultScope, listItemScope, buttonScope:
for _, t := range defaultScopeStopTags[p.oe[i].Namespace] {
if t == tagAtom {
return -1
}
}
}
}
return -1
}
// elementInScope is like popUntil, except that it doesn't modify the stack of
// open elements.
func (p *parser) elementInScope(s scope, matchTags ...a.Atom) bool {
return p.indexOfElementInScope(s, matchTags...) != -1
}
// clearStackToContext pops elements off the stack of open elements until a
// scope-defined element is found.
func (p *parser) clearStackToContext(s scope) {
for i := len(p.oe) - 1; i >= 0; i-- {
tagAtom := p.oe[i].DataAtom
switch s {
case tableScope:
if tagAtom == a.Html || tagAtom == a.Table || tagAtom == a.Template {
p.oe = p.oe[:i+1]
return
}
case tableRowScope:
if tagAtom == a.Html || tagAtom == a.Tr || tagAtom == a.Template {
p.oe = p.oe[:i+1]
return
}
case tableBodyScope:
if tagAtom == a.Html || tagAtom == a.Tbody || tagAtom == a.Tfoot || tagAtom == a.Thead || tagAtom == a.Template {
p.oe = p.oe[:i+1]
return
}
default:
panic("unreachable")
}
}
}
// parseGenericRawTextElements implements the generic raw text element parsing
// algorithm defined in 12.2.6.2.
// https://html.spec.whatwg.org/multipage/parsing.html#parsing-elements-that-contain-only-text
// TODO: Since both RAWTEXT and RCDATA states are treated as tokenizer's part
// officially, need to make tokenizer consider both states.
func (p *parser) parseGenericRawTextElement() {
p.addElement()
p.originalIM = p.im
p.im = textIM
}
// generateImpliedEndTags pops nodes off the stack of open elements as long as
// the top node has a tag name of dd, dt, li, optgroup, option, p, rb, rp, rt or rtc.
// If exceptions are specified, nodes with that name will not be popped off.
func (p *parser) generateImpliedEndTags(exceptions ...string) {
var i int
loop:
for i = len(p.oe) - 1; i >= 0; i-- {
n := p.oe[i]
if n.Type != ElementNode {
break
}
switch n.DataAtom {
case a.Dd, a.Dt, a.Li, a.Optgroup, a.Option, a.P, a.Rb, a.Rp, a.Rt, a.Rtc:
for _, except := range exceptions {
if n.Data == except {
break loop
}
}
continue
}
break
}
p.oe = p.oe[:i+1]
}
// addChild adds a child node n to the top element, and pushes n onto the stack
// of open elements if it is an element node.
func (p *parser) addChild(n *Node) {
if p.shouldFosterParent() {
p.fosterParent(n)
} else {
p.top().AppendChild(n)
}
if n.Type == ElementNode {
p.oe = append(p.oe, n)
}
}
// shouldFosterParent returns whether the next node to be added should be
// foster parented.
func (p *parser) shouldFosterParent() bool {
if p.fosterParenting {
switch p.top().DataAtom {
case a.Table, a.Tbody, a.Tfoot, a.Thead, a.Tr:
return true
}
}
return false
}
// fosterParent adds a child node according to the foster parenting rules.
// Section 12.2.6.1, "foster parenting".
func (p *parser) fosterParent(n *Node) {
var table, parent, prev, template *Node
var i int
for i = len(p.oe) - 1; i >= 0; i-- {
if p.oe[i].DataAtom == a.Table {
table = p.oe[i]
break
}
}
var j int
for j = len(p.oe) - 1; j >= 0; j-- {
if p.oe[j].DataAtom == a.Template {
template = p.oe[j]
break
}
}
if template != nil && (table == nil || j > i) {
template.AppendChild(n)
return
}
if table == nil {
// The foster parent is the html element.
parent = p.oe[0]
} else {
parent = table.Parent
}
if parent == nil {
parent = p.oe[i-1]
}
if table != nil {
prev = table.PrevSibling
} else {
prev = parent.LastChild
}
if prev != nil && prev.Type == TextNode && n.Type == TextNode {
prev.Data += n.Data
return
}
parent.InsertBefore(n, table)
}
// addText adds text to the preceding node if it is a text node, or else it
// calls addChild with a new text node.
func (p *parser) addText(text string) {
if text == "" {
return
}
if p.shouldFosterParent() {
p.fosterParent(&Node{
Type: TextNode,
Data: text,
})
return
}
t := p.top()
if n := t.LastChild; n != nil && n.Type == TextNode {
n.Data += text
return
}
p.addChild(&Node{
Type: TextNode,
Data: text,
})
}
// addElement adds a child element based on the current token.
func (p *parser) addElement() {
p.addChild(&Node{
Type: ElementNode,
DataAtom: p.tok.DataAtom,
Data: p.tok.Data,
Attr: p.tok.Attr,
})
}
// Section 12.2.4.3.
func (p *parser) addFormattingElement() {
tagAtom, attr := p.tok.DataAtom, p.tok.Attr
p.addElement()
// Implement the Noah's Ark clause, but with three per family instead of two.
identicalElements := 0
findIdenticalElements:
for i := len(p.afe) - 1; i >= 0; i-- {
n := p.afe[i]
if n.Type == scopeMarkerNode {
break
}
if n.Type != ElementNode {
continue
}
if n.Namespace != "" {
continue
}
if n.DataAtom != tagAtom {
continue
}
if len(n.Attr) != len(attr) {
continue
}
compareAttributes:
for _, t0 := range n.Attr {
for _, t1 := range attr {
if t0.Key == t1.Key && t0.Namespace == t1.Namespace && t0.Val == t1.Val {
// Found a match for this attribute, continue with the next attribute.
continue compareAttributes
}
}
// If we get here, there is no attribute that matches a.
// Therefore the element is not identical to the new one.
continue findIdenticalElements
}
identicalElements++
if identicalElements >= 3 {
p.afe.remove(n)
}
}
p.afe = append(p.afe, p.top())
}
// Section 12.2.4.3.
func (p *parser) clearActiveFormattingElements() {
for {
if n := p.afe.pop(); len(p.afe) == 0 || n.Type == scopeMarkerNode {
return
}
}
}
// Section 12.2.4.3.
func (p *parser) reconstructActiveFormattingElements() {
n := p.afe.top()
if n == nil {
return
}
if n.Type == scopeMarkerNode || p.oe.index(n) != -1 {
return
}
i := len(p.afe) - 1
for n.Type != scopeMarkerNode && p.oe.index(n) == -1 {
if i == 0 {
i = -1
break
}
i--
n = p.afe[i]
}
for {
i++
clone := p.afe[i].clone()
p.addChild(clone)
p.afe[i] = clone
if i == len(p.afe)-1 {
break
}
}
}
// Section 12.2.5.
func (p *parser) acknowledgeSelfClosingTag() {
p.hasSelfClosingToken = false
}
// An insertion mode (section 12.2.4.1) is the state transition function from
// a particular state in the HTML5 parser's state machine. It updates the
// parser's fields depending on parser.tok (where ErrorToken means EOF).
// It returns whether the token was consumed.
type insertionMode func(*parser) bool
// setOriginalIM sets the insertion mode to return to after completing a text or
// inTableText insertion mode.
// Section 12.2.4.1, "using the rules for".
func (p *parser) setOriginalIM() {
if p.originalIM != nil {
panic("html: bad parser state: originalIM was set twice")
}
p.originalIM = p.im
}
// Section 12.2.4.1, "reset the insertion mode".
func (p *parser) resetInsertionMode() {
for i := len(p.oe) - 1; i >= 0; i-- {
n := p.oe[i]
last := i == 0
if last && p.context != nil {
n = p.context
}
switch n.DataAtom {
case a.Select:
if !last {
for ancestor, first := n, p.oe[0]; ancestor != first; {
ancestor = p.oe[p.oe.index(ancestor)-1]
switch ancestor.DataAtom {
case a.Template:
p.im = inSelectIM
return
case a.Table:
p.im = inSelectInTableIM
return
}
}
}
p.im = inSelectIM
case a.Td, a.Th:
// TODO: remove this divergence from the HTML5 spec.
//
// See https://bugs.chromium.org/p/chromium/issues/detail?id=829668
p.im = inCellIM
case a.Tr:
p.im = inRowIM
case a.Tbody, a.Thead, a.Tfoot:
p.im = inTableBodyIM
case a.Caption:
p.im = inCaptionIM
case a.Colgroup:
p.im = inColumnGroupIM
case a.Table:
p.im = inTableIM
case a.Template:
// TODO: remove this divergence from the HTML5 spec.
if n.Namespace != "" {
continue
}
p.im = p.templateStack.top()
case a.Head:
// TODO: remove this divergence from the HTML5 spec.
//
// See https://bugs.chromium.org/p/chromium/issues/detail?id=829668
p.im = inHeadIM
case a.Body:
p.im = inBodyIM
case a.Frameset:
p.im = inFramesetIM
case a.Html:
if p.head == nil {
p.im = beforeHeadIM
} else {
p.im = afterHeadIM
}
default:
if last {
p.im = inBodyIM
return
}
continue
}
return
}
}
const whitespace = " \t\r\n\f"
// Section 12.2.6.4.1.
func initialIM(p *parser) bool {
switch p.tok.Type {
case TextToken:
p.tok.Data = strings.TrimLeft(p.tok.Data, whitespace)
if len(p.tok.Data) == 0 {
// It was all whitespace, so ignore it.
return true
}
case CommentToken:
p.doc.AppendChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
return true
case DoctypeToken:
n, quirks := parseDoctype(p.tok.Data)
p.doc.AppendChild(n)
p.quirks = quirks
p.im = beforeHTMLIM
return true
}
p.quirks = true
p.im = beforeHTMLIM
return false
}
// Section 12.2.6.4.2.
func beforeHTMLIM(p *parser) bool {
switch p.tok.Type {
case DoctypeToken:
// Ignore the token.
return true
case TextToken:
p.tok.Data = strings.TrimLeft(p.tok.Data, whitespace)
if len(p.tok.Data) == 0 {
// It was all whitespace, so ignore it.
return true
}
case StartTagToken:
if p.tok.DataAtom == a.Html {
p.addElement()
p.im = beforeHeadIM
return true
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Head, a.Body, a.Html, a.Br:
p.parseImpliedToken(StartTagToken, a.Html, a.Html.String())
return false
default:
// Ignore the token.
return true
}
case CommentToken:
p.doc.AppendChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
return true
}
p.parseImpliedToken(StartTagToken, a.Html, a.Html.String())
return false
}
// Section 12.2.6.4.3.
func beforeHeadIM(p *parser) bool {
switch p.tok.Type {
case TextToken:
p.tok.Data = strings.TrimLeft(p.tok.Data, whitespace)
if len(p.tok.Data) == 0 {
// It was all whitespace, so ignore it.
return true
}
case StartTagToken:
switch p.tok.DataAtom {
case a.Head:
p.addElement()
p.head = p.top()
p.im = inHeadIM
return true
case a.Html:
return inBodyIM(p)
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Head, a.Body, a.Html, a.Br:
p.parseImpliedToken(StartTagToken, a.Head, a.Head.String())
return false
default:
// Ignore the token.
return true
}
case CommentToken:
p.addChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
return true
case DoctypeToken:
// Ignore the token.
return true
}
p.parseImpliedToken(StartTagToken, a.Head, a.Head.String())
return false
}
// Section 12.2.6.4.4.
func inHeadIM(p *parser) bool {
switch p.tok.Type {
case TextToken:
s := strings.TrimLeft(p.tok.Data, whitespace)
if len(s) < len(p.tok.Data) {
// Add the initial whitespace to the current node.
p.addText(p.tok.Data[:len(p.tok.Data)-len(s)])
if s == "" {
return true
}
p.tok.Data = s
}
case StartTagToken:
switch p.tok.DataAtom {
case a.Html:
return inBodyIM(p)
case a.Base, a.Basefont, a.Bgsound, a.Link, a.Meta:
p.addElement()
p.oe.pop()
p.acknowledgeSelfClosingTag()
return true
case a.Noscript:
if p.scripting {
p.parseGenericRawTextElement()
return true
}
p.addElement()
p.im = inHeadNoscriptIM
// Don't let the tokenizer go into raw text mode when scripting is disabled.
p.tokenizer.NextIsNotRawText()
return true
case a.Script, a.Title:
p.addElement()
p.setOriginalIM()
p.im = textIM
return true
case a.Noframes, a.Style:
p.parseGenericRawTextElement()
return true
case a.Head:
// Ignore the token.
return true
case a.Template:
// TODO: remove this divergence from the HTML5 spec.
//
// We don't handle all of the corner cases when mixing foreign
// content (i.e. <math> or <svg>) with <template>. Without this
// early return, we can get into an infinite loop, possibly because
// of the "TODO... further divergence" a little below.
//
// As a workaround, if we are mixing foreign content and templates,
// just ignore the rest of the HTML. Foreign content is rare and a
// relatively old HTML feature. Templates are also rare and a
// relatively new HTML feature. Their combination is very rare.
for _, e := range p.oe {
if e.Namespace != "" {
p.im = ignoreTheRemainingTokens
return true
}
}
p.addElement()
p.afe = append(p.afe, &scopeMarker)
p.framesetOK = false
p.im = inTemplateIM
p.templateStack = append(p.templateStack, inTemplateIM)
return true
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Head:
p.oe.pop()
p.im = afterHeadIM
return true
case a.Body, a.Html, a.Br:
p.parseImpliedToken(EndTagToken, a.Head, a.Head.String())
return false
case a.Template:
if !p.oe.contains(a.Template) {
return true
}
// TODO: remove this further divergence from the HTML5 spec.
//
// See https://bugs.chromium.org/p/chromium/issues/detail?id=829668
p.generateImpliedEndTags()
for i := len(p.oe) - 1; i >= 0; i-- {
if n := p.oe[i]; n.Namespace == "" && n.DataAtom == a.Template {
p.oe = p.oe[:i]
break
}
}
p.clearActiveFormattingElements()
p.templateStack.pop()
p.resetInsertionMode()
return true
default:
// Ignore the token.
return true
}
case CommentToken:
p.addChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
return true
case DoctypeToken:
// Ignore the token.
return true
}
p.parseImpliedToken(EndTagToken, a.Head, a.Head.String())
return false
}
// 12.2.6.4.5.
func inHeadNoscriptIM(p *parser) bool {
switch p.tok.Type {
case DoctypeToken:
// Ignore the token.
return true
case StartTagToken:
switch p.tok.DataAtom {
case a.Html:
return inBodyIM(p)
case a.Basefont, a.Bgsound, a.Link, a.Meta, a.Noframes, a.Style:
return inHeadIM(p)
case a.Head:
// Ignore the token.
return true
case a.Noscript:
// Don't let the tokenizer go into raw text mode even when a <noscript>
// tag is in "in head noscript" insertion mode.
p.tokenizer.NextIsNotRawText()
// Ignore the token.
return true
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Noscript, a.Br:
default:
// Ignore the token.
return true
}
case TextToken:
s := strings.TrimLeft(p.tok.Data, whitespace)
if len(s) == 0 {
// It was all whitespace.
return inHeadIM(p)
}
case CommentToken:
return inHeadIM(p)
}
p.oe.pop()
if p.top().DataAtom != a.Head {
panic("html: the new current node will be a head element.")
}
p.im = inHeadIM
if p.tok.DataAtom == a.Noscript {
return true
}
return false
}
// Section 12.2.6.4.6.
func afterHeadIM(p *parser) bool {
switch p.tok.Type {
case TextToken:
s := strings.TrimLeft(p.tok.Data, whitespace)
if len(s) < len(p.tok.Data) {
// Add the initial whitespace to the current node.
p.addText(p.tok.Data[:len(p.tok.Data)-len(s)])
if s == "" {
return true
}
p.tok.Data = s
}
case StartTagToken:
switch p.tok.DataAtom {
case a.Html:
return inBodyIM(p)
case a.Body:
p.addElement()
p.framesetOK = false
p.im = inBodyIM
return true
case a.Frameset:
p.addElement()
p.im = inFramesetIM
return true
case a.Base, a.Basefont, a.Bgsound, a.Link, a.Meta, a.Noframes, a.Script, a.Style, a.Template, a.Title:
p.oe = append(p.oe, p.head)
defer p.oe.remove(p.head)
return inHeadIM(p)
case a.Head:
// Ignore the token.
return true
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Body, a.Html, a.Br:
// Drop down to creating an implied <body> tag.
case a.Template:
return inHeadIM(p)
default:
// Ignore the token.
return true
}
case CommentToken:
p.addChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
return true
case DoctypeToken:
// Ignore the token.
return true
}
p.parseImpliedToken(StartTagToken, a.Body, a.Body.String())
p.framesetOK = true
return false
}
// copyAttributes copies attributes of src not found on dst to dst.
func copyAttributes(dst *Node, src Token) {
if len(src.Attr) == 0 {
return
}
attr := map[string]string{}
for _, t := range dst.Attr {
attr[t.Key] = t.Val
}
for _, t := range src.Attr {
if _, ok := attr[t.Key]; !ok {
dst.Attr = append(dst.Attr, t)
attr[t.Key] = t.Val
}
}
}
// Section 12.2.6.4.7.
func inBodyIM(p *parser) bool {
switch p.tok.Type {
case TextToken:
d := p.tok.Data
switch n := p.oe.top(); n.DataAtom {
case a.Pre, a.Listing:
if n.FirstChild == nil {
// Ignore a newline at the start of a <pre> block.
if d != "" && d[0] == '\r' {
d = d[1:]
}
if d != "" && d[0] == '\n' {
d = d[1:]
}
}
}
d = strings.Replace(d, "\x00", "", -1)
if d == "" {
return true
}
p.reconstructActiveFormattingElements()
p.addText(d)
if p.framesetOK && strings.TrimLeft(d, whitespace) != "" {
// There were non-whitespace characters inserted.
p.framesetOK = false
}
case StartTagToken:
switch p.tok.DataAtom {
case a.Html:
if p.oe.contains(a.Template) {
return true
}
copyAttributes(p.oe[0], p.tok)
case a.Base, a.Basefont, a.Bgsound, a.Link, a.Meta, a.Noframes, a.Script, a.Style, a.Template, a.Title:
return inHeadIM(p)
case a.Body:
if p.oe.contains(a.Template) {
return true
}
if len(p.oe) >= 2 {
body := p.oe[1]
if body.Type == ElementNode && body.DataAtom == a.Body {
p.framesetOK = false
copyAttributes(body, p.tok)
}
}
case a.Frameset:
if !p.framesetOK || len(p.oe) < 2 || p.oe[1].DataAtom != a.Body {
// Ignore the token.
return true
}
body := p.oe[1]
if body.Parent != nil {
body.Parent.RemoveChild(body)
}
p.oe = p.oe[:1]
p.addElement()
p.im = inFramesetIM
return true
case a.Address, a.Article, a.Aside, a.Blockquote, a.Center, a.Details, a.Dialog, a.Dir, a.Div, a.Dl, a.Fieldset, a.Figcaption, a.Figure, a.Footer, a.Header, a.Hgroup, a.Main, a.Menu, a.Nav, a.Ol, a.P, a.Section, a.Summary, a.Ul:
p.popUntil(buttonScope, a.P)
p.addElement()
case a.H1, a.H2, a.H3, a.H4, a.H5, a.H6:
p.popUntil(buttonScope, a.P)
switch n := p.top(); n.DataAtom {
case a.H1, a.H2, a.H3, a.H4, a.H5, a.H6:
p.oe.pop()
}
p.addElement()
case a.Pre, a.Listing:
p.popUntil(buttonScope, a.P)
p.addElement()
// The newline, if any, will be dealt with by the TextToken case.
p.framesetOK = false
case a.Form:
if p.form != nil && !p.oe.contains(a.Template) {
// Ignore the token
return true
}
p.popUntil(buttonScope, a.P)
p.addElement()
if !p.oe.contains(a.Template) {
p.form = p.top()
}
case a.Li:
p.framesetOK = false
for i := len(p.oe) - 1; i >= 0; i-- {
node := p.oe[i]
switch node.DataAtom {
case a.Li:
p.oe = p.oe[:i]
case a.Address, a.Div, a.P:
continue
default:
if !isSpecialElement(node) {
continue
}
}
break
}
p.popUntil(buttonScope, a.P)
p.addElement()
case a.Dd, a.Dt:
p.framesetOK = false
for i := len(p.oe) - 1; i >= 0; i-- {
node := p.oe[i]
switch node.DataAtom {
case a.Dd, a.Dt:
p.oe = p.oe[:i]
case a.Address, a.Div, a.P:
continue
default:
if !isSpecialElement(node) {
continue
}
}
break
}
p.popUntil(buttonScope, a.P)
p.addElement()
case a.Plaintext:
p.popUntil(buttonScope, a.P)
p.addElement()
case a.Button:
p.popUntil(defaultScope, a.Button)
p.reconstructActiveFormattingElements()
p.addElement()
p.framesetOK = false
case a.A:
for i := len(p.afe) - 1; i >= 0 && p.afe[i].Type != scopeMarkerNode; i-- {
if n := p.afe[i]; n.Type == ElementNode && n.DataAtom == a.A {
p.inBodyEndTagFormatting(a.A, "a")
p.oe.remove(n)
p.afe.remove(n)
break
}
}
p.reconstructActiveFormattingElements()
p.addFormattingElement()
case a.B, a.Big, a.Code, a.Em, a.Font, a.I, a.S, a.Small, a.Strike, a.Strong, a.Tt, a.U:
p.reconstructActiveFormattingElements()
p.addFormattingElement()
case a.Nobr:
p.reconstructActiveFormattingElements()
if p.elementInScope(defaultScope, a.Nobr) {
p.inBodyEndTagFormatting(a.Nobr, "nobr")
p.reconstructActiveFormattingElements()
}
p.addFormattingElement()
case a.Applet, a.Marquee, a.Object:
p.reconstructActiveFormattingElements()
p.addElement()
p.afe = append(p.afe, &scopeMarker)
p.framesetOK = false
case a.Table:
if !p.quirks {
p.popUntil(buttonScope, a.P)
}
p.addElement()
p.framesetOK = false
p.im = inTableIM
return true
case a.Area, a.Br, a.Embed, a.Img, a.Input, a.Keygen, a.Wbr:
p.reconstructActiveFormattingElements()
p.addElement()
p.oe.pop()
p.acknowledgeSelfClosingTag()
if p.tok.DataAtom == a.Input {
for _, t := range p.tok.Attr {
if t.Key == "type" {
if strings.ToLower(t.Val) == "hidden" {
// Skip setting framesetOK = false
return true
}
}
}
}
p.framesetOK = false
case a.Param, a.Source, a.Track:
p.addElement()
p.oe.pop()
p.acknowledgeSelfClosingTag()
case a.Hr:
p.popUntil(buttonScope, a.P)
p.addElement()
p.oe.pop()
p.acknowledgeSelfClosingTag()
p.framesetOK = false
case a.Image:
p.tok.DataAtom = a.Img
p.tok.Data = a.Img.String()
return false
case a.Textarea:
p.addElement()
p.setOriginalIM()
p.framesetOK = false
p.im = textIM
case a.Xmp:
p.popUntil(buttonScope, a.P)
p.reconstructActiveFormattingElements()
p.framesetOK = false
p.parseGenericRawTextElement()
case a.Iframe:
p.framesetOK = false
p.parseGenericRawTextElement()
case a.Noembed:
p.parseGenericRawTextElement()
case a.Noscript:
if p.scripting {
p.parseGenericRawTextElement()
return true
}
p.reconstructActiveFormattingElements()
p.addElement()
// Don't let the tokenizer go into raw text mode when scripting is disabled.
p.tokenizer.NextIsNotRawText()
case a.Select:
p.reconstructActiveFormattingElements()
p.addElement()
p.framesetOK = false
p.im = inSelectIM
return true
case a.Optgroup, a.Option:
if p.top().DataAtom == a.Option {
p.oe.pop()
}
p.reconstructActiveFormattingElements()
p.addElement()
case a.Rb, a.Rtc:
if p.elementInScope(defaultScope, a.Ruby) {
p.generateImpliedEndTags()
}
p.addElement()
case a.Rp, a.Rt:
if p.elementInScope(defaultScope, a.Ruby) {
p.generateImpliedEndTags("rtc")
}
p.addElement()
case a.Math, a.Svg:
p.reconstructActiveFormattingElements()
if p.tok.DataAtom == a.Math {
adjustAttributeNames(p.tok.Attr, mathMLAttributeAdjustments)
} else {
adjustAttributeNames(p.tok.Attr, svgAttributeAdjustments)
}
adjustForeignAttributes(p.tok.Attr)
p.addElement()
p.top().Namespace = p.tok.Data
if p.hasSelfClosingToken {
p.oe.pop()
p.acknowledgeSelfClosingTag()
}
return true
case a.Caption, a.Col, a.Colgroup, a.Frame, a.Head, a.Tbody, a.Td, a.Tfoot, a.Th, a.Thead, a.Tr:
// Ignore the token.
default:
p.reconstructActiveFormattingElements()
p.addElement()
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Body:
if p.elementInScope(defaultScope, a.Body) {
p.im = afterBodyIM
}
case a.Html:
if p.elementInScope(defaultScope, a.Body) {
p.parseImpliedToken(EndTagToken, a.Body, a.Body.String())
return false
}
return true
case a.Address, a.Article, a.Aside, a.Blockquote, a.Button, a.Center, a.Details, a.Dialog, a.Dir, a.Div, a.Dl, a.Fieldset, a.Figcaption, a.Figure, a.Footer, a.Header, a.Hgroup, a.Listing, a.Main, a.Menu, a.Nav, a.Ol, a.Pre, a.Section, a.Summary, a.Ul:
p.popUntil(defaultScope, p.tok.DataAtom)
case a.Form:
if p.oe.contains(a.Template) {
i := p.indexOfElementInScope(defaultScope, a.Form)
if i == -1 {
// Ignore the token.
return true
}
p.generateImpliedEndTags()
if p.oe[i].DataAtom != a.Form {
// Ignore the token.
return true
}
p.popUntil(defaultScope, a.Form)
} else {
node := p.form
p.form = nil
i := p.indexOfElementInScope(defaultScope, a.Form)
if node == nil || i == -1 || p.oe[i] != node {
// Ignore the token.
return true
}
p.generateImpliedEndTags()
p.oe.remove(node)
}
case a.P:
if !p.elementInScope(buttonScope, a.P) {
p.parseImpliedToken(StartTagToken, a.P, a.P.String())
}
p.popUntil(buttonScope, a.P)
case a.Li:
p.popUntil(listItemScope, a.Li)
case a.Dd, a.Dt:
p.popUntil(defaultScope, p.tok.DataAtom)
case a.H1, a.H2, a.H3, a.H4, a.H5, a.H6:
p.popUntil(defaultScope, a.H1, a.H2, a.H3, a.H4, a.H5, a.H6)
case a.A, a.B, a.Big, a.Code, a.Em, a.Font, a.I, a.Nobr, a.S, a.Small, a.Strike, a.Strong, a.Tt, a.U:
p.inBodyEndTagFormatting(p.tok.DataAtom, p.tok.Data)
case a.Applet, a.Marquee, a.Object:
if p.popUntil(defaultScope, p.tok.DataAtom) {
p.clearActiveFormattingElements()
}
case a.Br:
p.tok.Type = StartTagToken
return false
case a.Template:
return inHeadIM(p)
default:
p.inBodyEndTagOther(p.tok.DataAtom, p.tok.Data)
}
case CommentToken:
p.addChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
case ErrorToken:
// TODO: remove this divergence from the HTML5 spec.
if len(p.templateStack) > 0 {
p.im = inTemplateIM
return false
}
for _, e := range p.oe {
switch e.DataAtom {
case a.Dd, a.Dt, a.Li, a.Optgroup, a.Option, a.P, a.Rb, a.Rp, a.Rt, a.Rtc, a.Tbody, a.Td, a.Tfoot, a.Th,
a.Thead, a.Tr, a.Body, a.Html:
default:
return true
}
}
}
return true
}
func (p *parser) inBodyEndTagFormatting(tagAtom a.Atom, tagName string) {
// This is the "adoption agency" algorithm, described at
// https://html.spec.whatwg.org/multipage/syntax.html#adoptionAgency
// TODO: this is a fairly literal line-by-line translation of that algorithm.
// Once the code successfully parses the comprehensive test suite, we should
// refactor this code to be more idiomatic.
// Steps 1-2
if current := p.oe.top(); current.Data == tagName && p.afe.index(current) == -1 {
p.oe.pop()
return
}
// Steps 3-5. The outer loop.
for i := 0; i < 8; i++ {
// Step 6. Find the formatting element.
var formattingElement *Node
for j := len(p.afe) - 1; j >= 0; j-- {
if p.afe[j].Type == scopeMarkerNode {
break
}
if p.afe[j].DataAtom == tagAtom {
formattingElement = p.afe[j]
break
}
}
if formattingElement == nil {
p.inBodyEndTagOther(tagAtom, tagName)
return
}
// Step 7. Ignore the tag if formatting element is not in the stack of open elements.
feIndex := p.oe.index(formattingElement)
if feIndex == -1 {
p.afe.remove(formattingElement)
return
}
// Step 8. Ignore the tag if formatting element is not in the scope.
if !p.elementInScope(defaultScope, tagAtom) {
// Ignore the tag.
return
}
// Step 9. This step is omitted because it's just a parse error but no need to return.
// Steps 10-11. Find the furthest block.
var furthestBlock *Node
for _, e := range p.oe[feIndex:] {
if isSpecialElement(e) {
furthestBlock = e
break
}
}
if furthestBlock == nil {
e := p.oe.pop()
for e != formattingElement {
e = p.oe.pop()
}
p.afe.remove(e)
return
}
// Steps 12-13. Find the common ancestor and bookmark node.
commonAncestor := p.oe[feIndex-1]
bookmark := p.afe.index(formattingElement)
// Step 14. The inner loop. Find the lastNode to reparent.
lastNode := furthestBlock
node := furthestBlock
x := p.oe.index(node)
// Step 14.1.
j := 0
for {
// Step 14.2.
j++
// Step. 14.3.
x--
node = p.oe[x]
// Step 14.4. Go to the next step if node is formatting element.
if node == formattingElement {
break
}
// Step 14.5. Remove node from the list of active formatting elements if
// inner loop counter is greater than three and node is in the list of
// active formatting elements.
if ni := p.afe.index(node); j > 3 && ni > -1 {
p.afe.remove(node)
// If any element of the list of active formatting elements is removed,
// we need to take care whether bookmark should be decremented or not.
// This is because the value of bookmark may exceed the size of the
// list by removing elements from the list.
if ni <= bookmark {
bookmark--
}
continue
}
// Step 14.6. Continue the next inner loop if node is not in the list of
// active formatting elements.
if p.afe.index(node) == -1 {
p.oe.remove(node)
continue
}
// Step 14.7.
clone := node.clone()
p.afe[p.afe.index(node)] = clone
p.oe[p.oe.index(node)] = clone
node = clone
// Step 14.8.
if lastNode == furthestBlock {
bookmark = p.afe.index(node) + 1
}
// Step 14.9.
if lastNode.Parent != nil {
lastNode.Parent.RemoveChild(lastNode)
}
node.AppendChild(lastNode)
// Step 14.10.
lastNode = node
}
// Step 15. Reparent lastNode to the common ancestor,
// or for misnested table nodes, to the foster parent.
if lastNode.Parent != nil {
lastNode.Parent.RemoveChild(lastNode)
}
switch commonAncestor.DataAtom {
case a.Table, a.Tbody, a.Tfoot, a.Thead, a.Tr:
p.fosterParent(lastNode)
default:
commonAncestor.AppendChild(lastNode)
}
// Steps 16-18. Reparent nodes from the furthest block's children
// to a clone of the formatting element.
clone := formattingElement.clone()
reparentChildren(clone, furthestBlock)
furthestBlock.AppendChild(clone)
// Step 19. Fix up the list of active formatting elements.
if oldLoc := p.afe.index(formattingElement); oldLoc != -1 && oldLoc < bookmark {
// Move the bookmark with the rest of the list.
bookmark--
}
p.afe.remove(formattingElement)
p.afe.insert(bookmark, clone)
// Step 20. Fix up the stack of open elements.
p.oe.remove(formattingElement)
p.oe.insert(p.oe.index(furthestBlock)+1, clone)
}
}
// inBodyEndTagOther performs the "any other end tag" algorithm for inBodyIM.
// "Any other end tag" handling from 12.2.6.5 The rules for parsing tokens in foreign content
// https://html.spec.whatwg.org/multipage/syntax.html#parsing-main-inforeign
func (p *parser) inBodyEndTagOther(tagAtom a.Atom, tagName string) {
for i := len(p.oe) - 1; i >= 0; i-- {
// Two element nodes have the same tag if they have the same Data (a
// string-typed field). As an optimization, for common HTML tags, each
// Data string is assigned a unique, non-zero DataAtom (a uint32-typed
// field), since integer comparison is faster than string comparison.
// Uncommon (custom) tags get a zero DataAtom.
//
// The if condition here is equivalent to (p.oe[i].Data == tagName).
if (p.oe[i].DataAtom == tagAtom) &&
((tagAtom != 0) || (p.oe[i].Data == tagName)) {
p.oe = p.oe[:i]
break
}
if isSpecialElement(p.oe[i]) {
break
}
}
}
// Section 12.2.6.4.8.
func textIM(p *parser) bool {
switch p.tok.Type {
case ErrorToken:
p.oe.pop()
case TextToken:
d := p.tok.Data
if n := p.oe.top(); n.DataAtom == a.Textarea && n.FirstChild == nil {
// Ignore a newline at the start of a <textarea> block.
if d != "" && d[0] == '\r' {
d = d[1:]
}
if d != "" && d[0] == '\n' {
d = d[1:]
}
}
if d == "" {
return true
}
p.addText(d)
return true
case EndTagToken:
p.oe.pop()
}
p.im = p.originalIM
p.originalIM = nil
return p.tok.Type == EndTagToken
}
// Section 12.2.6.4.9.
func inTableIM(p *parser) bool {
switch p.tok.Type {
case TextToken:
p.tok.Data = strings.Replace(p.tok.Data, "\x00", "", -1)
switch p.oe.top().DataAtom {
case a.Table, a.Tbody, a.Tfoot, a.Thead, a.Tr:
if strings.Trim(p.tok.Data, whitespace) == "" {
p.addText(p.tok.Data)
return true
}
}
case StartTagToken:
switch p.tok.DataAtom {
case a.Caption:
p.clearStackToContext(tableScope)
p.afe = append(p.afe, &scopeMarker)
p.addElement()
p.im = inCaptionIM
return true
case a.Colgroup:
p.clearStackToContext(tableScope)
p.addElement()
p.im = inColumnGroupIM
return true
case a.Col:
p.parseImpliedToken(StartTagToken, a.Colgroup, a.Colgroup.String())
return false
case a.Tbody, a.Tfoot, a.Thead:
p.clearStackToContext(tableScope)
p.addElement()
p.im = inTableBodyIM
return true
case a.Td, a.Th, a.Tr:
p.parseImpliedToken(StartTagToken, a.Tbody, a.Tbody.String())
return false
case a.Table:
if p.popUntil(tableScope, a.Table) {
p.resetInsertionMode()
return false
}
// Ignore the token.
return true
case a.Style, a.Script, a.Template:
return inHeadIM(p)
case a.Input:
for _, t := range p.tok.Attr {
if t.Key == "type" && strings.ToLower(t.Val) == "hidden" {
p.addElement()
p.oe.pop()
return true
}
}
// Otherwise drop down to the default action.
case a.Form:
if p.oe.contains(a.Template) || p.form != nil {
// Ignore the token.
return true
}
p.addElement()
p.form = p.oe.pop()
case a.Select:
p.reconstructActiveFormattingElements()
switch p.top().DataAtom {
case a.Table, a.Tbody, a.Tfoot, a.Thead, a.Tr:
p.fosterParenting = true
}
p.addElement()
p.fosterParenting = false
p.framesetOK = false
p.im = inSelectInTableIM
return true
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Table:
if p.popUntil(tableScope, a.Table) {
p.resetInsertionMode()
return true
}
// Ignore the token.
return true
case a.Body, a.Caption, a.Col, a.Colgroup, a.Html, a.Tbody, a.Td, a.Tfoot, a.Th, a.Thead, a.Tr:
// Ignore the token.
return true
case a.Template:
return inHeadIM(p)
}
case CommentToken:
p.addChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
return true
case DoctypeToken:
// Ignore the token.
return true
case ErrorToken:
return inBodyIM(p)
}
p.fosterParenting = true
defer func() { p.fosterParenting = false }()
return inBodyIM(p)
}
// Section 12.2.6.4.11.
func inCaptionIM(p *parser) bool {
switch p.tok.Type {
case StartTagToken:
switch p.tok.DataAtom {
case a.Caption, a.Col, a.Colgroup, a.Tbody, a.Td, a.Tfoot, a.Thead, a.Tr:
if !p.popUntil(tableScope, a.Caption) {
// Ignore the token.
return true
}
p.clearActiveFormattingElements()
p.im = inTableIM
return false
case a.Select:
p.reconstructActiveFormattingElements()
p.addElement()
p.framesetOK = false
p.im = inSelectInTableIM
return true
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Caption:
if p.popUntil(tableScope, a.Caption) {
p.clearActiveFormattingElements()
p.im = inTableIM
}
return true
case a.Table:
if !p.popUntil(tableScope, a.Caption) {
// Ignore the token.
return true
}
p.clearActiveFormattingElements()
p.im = inTableIM
return false
case a.Body, a.Col, a.Colgroup, a.Html, a.Tbody, a.Td, a.Tfoot, a.Th, a.Thead, a.Tr:
// Ignore the token.
return true
}
}
return inBodyIM(p)
}
// Section 12.2.6.4.12.
func inColumnGroupIM(p *parser) bool {
switch p.tok.Type {
case TextToken:
s := strings.TrimLeft(p.tok.Data, whitespace)
if len(s) < len(p.tok.Data) {
// Add the initial whitespace to the current node.
p.addText(p.tok.Data[:len(p.tok.Data)-len(s)])
if s == "" {
return true
}
p.tok.Data = s
}
case CommentToken:
p.addChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
return true
case DoctypeToken:
// Ignore the token.
return true
case StartTagToken:
switch p.tok.DataAtom {
case a.Html:
return inBodyIM(p)
case a.Col:
p.addElement()
p.oe.pop()
p.acknowledgeSelfClosingTag()
return true
case a.Template:
return inHeadIM(p)
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Colgroup:
if p.oe.top().DataAtom == a.Colgroup {
p.oe.pop()
p.im = inTableIM
}
return true
case a.Col:
// Ignore the token.
return true
case a.Template:
return inHeadIM(p)
}
case ErrorToken:
return inBodyIM(p)
}
if p.oe.top().DataAtom != a.Colgroup {
return true
}
p.oe.pop()
p.im = inTableIM
return false
}
// Section 12.2.6.4.13.
func inTableBodyIM(p *parser) bool {
switch p.tok.Type {
case StartTagToken:
switch p.tok.DataAtom {
case a.Tr:
p.clearStackToContext(tableBodyScope)
p.addElement()
p.im = inRowIM
return true
case a.Td, a.Th:
p.parseImpliedToken(StartTagToken, a.Tr, a.Tr.String())
return false
case a.Caption, a.Col, a.Colgroup, a.Tbody, a.Tfoot, a.Thead:
if p.popUntil(tableScope, a.Tbody, a.Thead, a.Tfoot) {
p.im = inTableIM
return false
}
// Ignore the token.
return true
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Tbody, a.Tfoot, a.Thead:
if p.elementInScope(tableScope, p.tok.DataAtom) {
p.clearStackToContext(tableBodyScope)
p.oe.pop()
p.im = inTableIM
}
return true
case a.Table:
if p.popUntil(tableScope, a.Tbody, a.Thead, a.Tfoot) {
p.im = inTableIM
return false
}
// Ignore the token.
return true
case a.Body, a.Caption, a.Col, a.Colgroup, a.Html, a.Td, a.Th, a.Tr:
// Ignore the token.
return true
}
case CommentToken:
p.addChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
return true
}
return inTableIM(p)
}
// Section 12.2.6.4.14.
func inRowIM(p *parser) bool {
switch p.tok.Type {
case StartTagToken:
switch p.tok.DataAtom {
case a.Td, a.Th:
p.clearStackToContext(tableRowScope)
p.addElement()
p.afe = append(p.afe, &scopeMarker)
p.im = inCellIM
return true
case a.Caption, a.Col, a.Colgroup, a.Tbody, a.Tfoot, a.Thead, a.Tr:
if p.popUntil(tableScope, a.Tr) {
p.im = inTableBodyIM
return false
}
// Ignore the token.
return true
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Tr:
if p.popUntil(tableScope, a.Tr) {
p.im = inTableBodyIM
return true
}
// Ignore the token.
return true
case a.Table:
if p.popUntil(tableScope, a.Tr) {
p.im = inTableBodyIM
return false
}
// Ignore the token.
return true
case a.Tbody, a.Tfoot, a.Thead:
if p.elementInScope(tableScope, p.tok.DataAtom) {
p.parseImpliedToken(EndTagToken, a.Tr, a.Tr.String())
return false
}
// Ignore the token.
return true
case a.Body, a.Caption, a.Col, a.Colgroup, a.Html, a.Td, a.Th:
// Ignore the token.
return true
}
}
return inTableIM(p)
}
// Section 12.2.6.4.15.
func inCellIM(p *parser) bool {
switch p.tok.Type {
case StartTagToken:
switch p.tok.DataAtom {
case a.Caption, a.Col, a.Colgroup, a.Tbody, a.Td, a.Tfoot, a.Th, a.Thead, a.Tr:
if p.popUntil(tableScope, a.Td, a.Th) {
// Close the cell and reprocess.
p.clearActiveFormattingElements()
p.im = inRowIM
return false
}
// Ignore the token.
return true
case a.Select:
p.reconstructActiveFormattingElements()
p.addElement()
p.framesetOK = false
p.im = inSelectInTableIM
return true
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Td, a.Th:
if !p.popUntil(tableScope, p.tok.DataAtom) {
// Ignore the token.
return true
}
p.clearActiveFormattingElements()
p.im = inRowIM
return true
case a.Body, a.Caption, a.Col, a.Colgroup, a.Html:
// Ignore the token.
return true
case a.Table, a.Tbody, a.Tfoot, a.Thead, a.Tr:
if !p.elementInScope(tableScope, p.tok.DataAtom) {
// Ignore the token.
return true
}
// Close the cell and reprocess.
if p.popUntil(tableScope, a.Td, a.Th) {
p.clearActiveFormattingElements()
}
p.im = inRowIM
return false
}
}
return inBodyIM(p)
}
// Section 12.2.6.4.16.
func inSelectIM(p *parser) bool {
switch p.tok.Type {
case TextToken:
p.addText(strings.Replace(p.tok.Data, "\x00", "", -1))
case StartTagToken:
switch p.tok.DataAtom {
case a.Html:
return inBodyIM(p)
case a.Option:
if p.top().DataAtom == a.Option {
p.oe.pop()
}
p.addElement()
case a.Optgroup:
if p.top().DataAtom == a.Option {
p.oe.pop()
}
if p.top().DataAtom == a.Optgroup {
p.oe.pop()
}
p.addElement()
case a.Select:
if !p.popUntil(selectScope, a.Select) {
// Ignore the token.
return true
}
p.resetInsertionMode()
case a.Input, a.Keygen, a.Textarea:
if p.elementInScope(selectScope, a.Select) {
p.parseImpliedToken(EndTagToken, a.Select, a.Select.String())
return false
}
// In order to properly ignore <textarea>, we need to change the tokenizer mode.
p.tokenizer.NextIsNotRawText()
// Ignore the token.
return true
case a.Script, a.Template:
return inHeadIM(p)
case a.Iframe, a.Noembed, a.Noframes, a.Noscript, a.Plaintext, a.Style, a.Title, a.Xmp:
// Don't let the tokenizer go into raw text mode when there are raw tags
// to be ignored. These tags should be ignored from the tokenizer
// properly.
p.tokenizer.NextIsNotRawText()
// Ignore the token.
return true
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Option:
if p.top().DataAtom == a.Option {
p.oe.pop()
}
case a.Optgroup:
i := len(p.oe) - 1
if p.oe[i].DataAtom == a.Option {
i--
}
if p.oe[i].DataAtom == a.Optgroup {
p.oe = p.oe[:i]
}
case a.Select:
if !p.popUntil(selectScope, a.Select) {
// Ignore the token.
return true
}
p.resetInsertionMode()
case a.Template:
return inHeadIM(p)
}
case CommentToken:
p.addChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
case DoctypeToken:
// Ignore the token.
return true
case ErrorToken:
return inBodyIM(p)
}
return true
}
// Section 12.2.6.4.17.
func inSelectInTableIM(p *parser) bool {
switch p.tok.Type {
case StartTagToken, EndTagToken:
switch p.tok.DataAtom {
case a.Caption, a.Table, a.Tbody, a.Tfoot, a.Thead, a.Tr, a.Td, a.Th:
if p.tok.Type == EndTagToken && !p.elementInScope(tableScope, p.tok.DataAtom) {
// Ignore the token.
return true
}
// This is like p.popUntil(selectScope, a.Select), but it also
// matches <math select>, not just <select>. Matching the MathML
// tag is arguably incorrect (conceptually), but it mimics what
// Chromium does.
for i := len(p.oe) - 1; i >= 0; i-- {
if n := p.oe[i]; n.DataAtom == a.Select {
p.oe = p.oe[:i]
break
}
}
p.resetInsertionMode()
return false
}
}
return inSelectIM(p)
}
// Section 12.2.6.4.18.
func inTemplateIM(p *parser) bool {
switch p.tok.Type {
case TextToken, CommentToken, DoctypeToken:
return inBodyIM(p)
case StartTagToken:
switch p.tok.DataAtom {
case a.Base, a.Basefont, a.Bgsound, a.Link, a.Meta, a.Noframes, a.Script, a.Style, a.Template, a.Title:
return inHeadIM(p)
case a.Caption, a.Colgroup, a.Tbody, a.Tfoot, a.Thead:
p.templateStack.pop()
p.templateStack = append(p.templateStack, inTableIM)
p.im = inTableIM
return false
case a.Col:
p.templateStack.pop()
p.templateStack = append(p.templateStack, inColumnGroupIM)
p.im = inColumnGroupIM
return false
case a.Tr:
p.templateStack.pop()
p.templateStack = append(p.templateStack, inTableBodyIM)
p.im = inTableBodyIM
return false
case a.Td, a.Th:
p.templateStack.pop()
p.templateStack = append(p.templateStack, inRowIM)
p.im = inRowIM
return false
default:
p.templateStack.pop()
p.templateStack = append(p.templateStack, inBodyIM)
p.im = inBodyIM
return false
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Template:
return inHeadIM(p)
default:
// Ignore the token.
return true
}
case ErrorToken:
if !p.oe.contains(a.Template) {
// Ignore the token.
return true
}
// TODO: remove this divergence from the HTML5 spec.
//
// See https://bugs.chromium.org/p/chromium/issues/detail?id=829668
p.generateImpliedEndTags()
for i := len(p.oe) - 1; i >= 0; i-- {
if n := p.oe[i]; n.Namespace == "" && n.DataAtom == a.Template {
p.oe = p.oe[:i]
break
}
}
p.clearActiveFormattingElements()
p.templateStack.pop()
p.resetInsertionMode()
return false
}
return false
}
// Section 12.2.6.4.19.
func afterBodyIM(p *parser) bool {
switch p.tok.Type {
case ErrorToken:
// Stop parsing.
return true
case TextToken:
s := strings.TrimLeft(p.tok.Data, whitespace)
if len(s) == 0 {
// It was all whitespace.
return inBodyIM(p)
}
case StartTagToken:
if p.tok.DataAtom == a.Html {
return inBodyIM(p)
}
case EndTagToken:
if p.tok.DataAtom == a.Html {
if !p.fragment {
p.im = afterAfterBodyIM
}
return true
}
case CommentToken:
// The comment is attached to the <html> element.
if len(p.oe) < 1 || p.oe[0].DataAtom != a.Html {
panic("html: bad parser state: <html> element not found, in the after-body insertion mode")
}
p.oe[0].AppendChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
return true
}
p.im = inBodyIM
return false
}
// Section 12.2.6.4.20.
func inFramesetIM(p *parser) bool {
switch p.tok.Type {
case CommentToken:
p.addChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
case TextToken:
// Ignore all text but whitespace.
s := strings.Map(func(c rune) rune {
switch c {
case ' ', '\t', '\n', '\f', '\r':
return c
}
return -1
}, p.tok.Data)
if s != "" {
p.addText(s)
}
case StartTagToken:
switch p.tok.DataAtom {
case a.Html:
return inBodyIM(p)
case a.Frameset:
p.addElement()
case a.Frame:
p.addElement()
p.oe.pop()
p.acknowledgeSelfClosingTag()
case a.Noframes:
return inHeadIM(p)
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Frameset:
if p.oe.top().DataAtom != a.Html {
p.oe.pop()
if p.oe.top().DataAtom != a.Frameset {
p.im = afterFramesetIM
return true
}
}
}
default:
// Ignore the token.
}
return true
}
// Section 12.2.6.4.21.
func afterFramesetIM(p *parser) bool {
switch p.tok.Type {
case CommentToken:
p.addChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
case TextToken:
// Ignore all text but whitespace.
s := strings.Map(func(c rune) rune {
switch c {
case ' ', '\t', '\n', '\f', '\r':
return c
}
return -1
}, p.tok.Data)
if s != "" {
p.addText(s)
}
case StartTagToken:
switch p.tok.DataAtom {
case a.Html:
return inBodyIM(p)
case a.Noframes:
return inHeadIM(p)
}
case EndTagToken:
switch p.tok.DataAtom {
case a.Html:
p.im = afterAfterFramesetIM
return true
}
default:
// Ignore the token.
}
return true
}
// Section 12.2.6.4.22.
func afterAfterBodyIM(p *parser) bool {
switch p.tok.Type {
case ErrorToken:
// Stop parsing.
return true
case TextToken:
s := strings.TrimLeft(p.tok.Data, whitespace)
if len(s) == 0 {
// It was all whitespace.
return inBodyIM(p)
}
case StartTagToken:
if p.tok.DataAtom == a.Html {
return inBodyIM(p)
}
case CommentToken:
p.doc.AppendChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
return true
case DoctypeToken:
return inBodyIM(p)
}
p.im = inBodyIM
return false
}
// Section 12.2.6.4.23.
func afterAfterFramesetIM(p *parser) bool {
switch p.tok.Type {
case CommentToken:
p.doc.AppendChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
case TextToken:
// Ignore all text but whitespace.
s := strings.Map(func(c rune) rune {
switch c {
case ' ', '\t', '\n', '\f', '\r':
return c
}
return -1
}, p.tok.Data)
if s != "" {
p.tok.Data = s
return inBodyIM(p)
}
case StartTagToken:
switch p.tok.DataAtom {
case a.Html:
return inBodyIM(p)
case a.Noframes:
return inHeadIM(p)
}
case DoctypeToken:
return inBodyIM(p)
default:
// Ignore the token.
}
return true
}
func ignoreTheRemainingTokens(p *parser) bool {
return true
}
const whitespaceOrNUL = whitespace + "\x00"
// Section 12.2.6.5
func parseForeignContent(p *parser) bool {
switch p.tok.Type {
case TextToken:
if p.framesetOK {
p.framesetOK = strings.TrimLeft(p.tok.Data, whitespaceOrNUL) == ""
}
p.tok.Data = strings.Replace(p.tok.Data, "\x00", "\ufffd", -1)
p.addText(p.tok.Data)
case CommentToken:
p.addChild(&Node{
Type: CommentNode,
Data: p.tok.Data,
})
case StartTagToken:
if !p.fragment {
b := breakout[p.tok.Data]
if p.tok.DataAtom == a.Font {
loop:
for _, attr := range p.tok.Attr {
switch attr.Key {
case "color", "face", "size":
b = true
break loop
}
}
}
if b {
for i := len(p.oe) - 1; i >= 0; i-- {
n := p.oe[i]
if n.Namespace == "" || htmlIntegrationPoint(n) || mathMLTextIntegrationPoint(n) {
p.oe = p.oe[:i+1]
break
}
}
return false
}
}
current := p.adjustedCurrentNode()
switch current.Namespace {
case "math":
adjustAttributeNames(p.tok.Attr, mathMLAttributeAdjustments)
case "svg":
// Adjust SVG tag names. The tokenizer lower-cases tag names, but
// SVG wants e.g. "foreignObject" with a capital second "O".
if x := svgTagNameAdjustments[p.tok.Data]; x != "" {
p.tok.DataAtom = a.Lookup([]byte(x))
p.tok.Data = x
}
adjustAttributeNames(p.tok.Attr, svgAttributeAdjustments)
default:
panic("html: bad parser state: unexpected namespace")
}
adjustForeignAttributes(p.tok.Attr)
namespace := current.Namespace
p.addElement()
p.top().Namespace = namespace
if namespace != "" {
// Don't let the tokenizer go into raw text mode in foreign content
// (e.g. in an SVG <title> tag).
p.tokenizer.NextIsNotRawText()
}
if p.hasSelfClosingToken {
p.oe.pop()
p.acknowledgeSelfClosingTag()
}
case EndTagToken:
for i := len(p.oe) - 1; i >= 0; i-- {
if p.oe[i].Namespace == "" {
return p.im(p)
}
if strings.EqualFold(p.oe[i].Data, p.tok.Data) {
p.oe = p.oe[:i]
break
}
}
return true
default:
// Ignore the token.
}
return true
}
// Section 12.2.4.2.
func (p *parser) adjustedCurrentNode() *Node {
if len(p.oe) == 1 && p.fragment && p.context != nil {
return p.context
}
return p.oe.top()
}
// Section 12.2.6.
func (p *parser) inForeignContent() bool {
if len(p.oe) == 0 {
return false
}
n := p.adjustedCurrentNode()
if n.Namespace == "" {
return false
}
if mathMLTextIntegrationPoint(n) {
if p.tok.Type == StartTagToken && p.tok.DataAtom != a.Mglyph && p.tok.DataAtom != a.Malignmark {
return false
}
if p.tok.Type == TextToken {
return false
}
}
if n.Namespace == "math" && n.DataAtom == a.AnnotationXml && p.tok.Type == StartTagToken && p.tok.DataAtom == a.Svg {
return false
}
if htmlIntegrationPoint(n) && (p.tok.Type == StartTagToken || p.tok.Type == TextToken) {
return false
}
if p.tok.Type == ErrorToken {
return false
}
return true
}
// parseImpliedToken parses a token as though it had appeared in the parser's
// input.
func (p *parser) parseImpliedToken(t TokenType, dataAtom a.Atom, data string) {
realToken, selfClosing := p.tok, p.hasSelfClosingToken
p.tok = Token{
Type: t,
DataAtom: dataAtom,
Data: data,
}
p.hasSelfClosingToken = false
p.parseCurrentToken()
p.tok, p.hasSelfClosingToken = realToken, selfClosing
}
// parseCurrentToken runs the current token through the parsing routines
// until it is consumed.
func (p *parser) parseCurrentToken() {
if p.tok.Type == SelfClosingTagToken {
p.hasSelfClosingToken = true
p.tok.Type = StartTagToken
}
consumed := false
for !consumed {
if p.inForeignContent() {
consumed = parseForeignContent(p)
} else {
consumed = p.im(p)
}
}
if p.hasSelfClosingToken {
// This is a parse error, but ignore it.
p.hasSelfClosingToken = false
}
}
func (p *parser) parse() error {
// Iterate until EOF. Any other error will cause an early return.
var err error
for err != io.EOF {
// CDATA sections are allowed only in foreign content.
n := p.oe.top()
p.tokenizer.AllowCDATA(n != nil && n.Namespace != "")
// Read and parse the next token.
p.tokenizer.Next()
p.tok = p.tokenizer.Token()
if p.tok.Type == ErrorToken {
err = p.tokenizer.Err()
if err != nil && err != io.EOF {
return err
}
}
p.parseCurrentToken()
}
return nil
}
// Parse returns the parse tree for the HTML from the given Reader.
//
// It implements the HTML5 parsing algorithm
// (https://html.spec.whatwg.org/multipage/syntax.html#tree-construction),
// which is very complicated. The resultant tree can contain implicitly created
// nodes that have no explicit <tag> listed in r's data, and nodes' parents can
// differ from the nesting implied by a naive processing of start and end
// <tag>s. Conversely, explicit <tag>s in r's data can be silently dropped,
// with no corresponding node in the resulting tree.
//
// The input is assumed to be UTF-8 encoded.
func Parse(r io.Reader) (*Node, error) {
return ParseWithOptions(r)
}
// ParseFragment parses a fragment of HTML and returns the nodes that were
// found. If the fragment is the InnerHTML for an existing element, pass that
// element in context.
//
// It has the same intricacies as Parse.
func ParseFragment(r io.Reader, context *Node) ([]*Node, error) {
return ParseFragmentWithOptions(r, context)
}
// ParseOption configures a parser.
type ParseOption func(p *parser)
// ParseOptionEnableScripting configures the scripting flag.
// https://html.spec.whatwg.org/multipage/webappapis.html#enabling-and-disabling-scripting
//
// By default, scripting is enabled.
func ParseOptionEnableScripting(enable bool) ParseOption {
return func(p *parser) {
p.scripting = enable
}
}
// ParseWithOptions is like Parse, with options.
func ParseWithOptions(r io.Reader, opts ...ParseOption) (*Node, error) {
p := &parser{
tokenizer: NewTokenizer(r),
doc: &Node{
Type: DocumentNode,
},
scripting: true,
framesetOK: true,
im: initialIM,
}
for _, f := range opts {
f(p)
}
if err := p.parse(); err != nil {
return nil, err
}
return p.doc, nil
}
// ParseFragmentWithOptions is like ParseFragment, with options.
func ParseFragmentWithOptions(r io.Reader, context *Node, opts ...ParseOption) ([]*Node, error) {
contextTag := ""
if context != nil {
if context.Type != ElementNode {
return nil, errors.New("html: ParseFragment of non-element Node")
}
// The next check isn't just context.DataAtom.String() == context.Data because
// it is valid to pass an element whose tag isn't a known atom. For example,
// DataAtom == 0 and Data = "tagfromthefuture" is perfectly consistent.
if context.DataAtom != a.Lookup([]byte(context.Data)) {
return nil, fmt.Errorf("html: inconsistent Node: DataAtom=%q, Data=%q", context.DataAtom, context.Data)
}
contextTag = context.DataAtom.String()
}
p := &parser{
doc: &Node{
Type: DocumentNode,
},
scripting: true,
fragment: true,
context: context,
}
if context != nil && context.Namespace != "" {
p.tokenizer = NewTokenizer(r)
} else {
p.tokenizer = NewTokenizerFragment(r, contextTag)
}
for _, f := range opts {
f(p)
}
root := &Node{
Type: ElementNode,
DataAtom: a.Html,
Data: a.Html.String(),
}
p.doc.AppendChild(root)
p.oe = nodeStack{root}
if context != nil && context.DataAtom == a.Template {
p.templateStack = append(p.templateStack, inTemplateIM)
}
p.resetInsertionMode()
for n := context; n != nil; n = n.Parent {
if n.Type == ElementNode && n.DataAtom == a.Form {
p.form = n
break
}
}
if err := p.parse(); err != nil {
return nil, err
}
parent := p.doc
if context != nil {
parent = root
}
var result []*Node
for c := parent.FirstChild; c != nil; {
next := c.NextSibling
parent.RemoveChild(c)
result = append(result, c)
c = next
}
return result, nil
}
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