mediawiki-extensions-Discus.../includes/ImmutableRange.php
libraryupgrader b0884b177c build: Updating dependencies
composer:
* mediawiki/mediawiki-codesniffer: 36.0.0 → 37.0.0

npm:
* postcss: 7.0.35 → 7.0.36
  * https://npmjs.com/advisories/1693 (CVE-2021-23368)
* glob-parent: 5.1.1 → 5.1.2
  * https://npmjs.com/advisories/1751 (CVE-2020-28469)
* trim-newlines: 3.0.0 → 3.0.1
  * https://npmjs.com/advisories/1753 (CVE-2021-33623)

Change-Id: I7a71e23da561599da417db3b3077b78d91173bbc
2021-07-22 16:29:04 +00:00

490 lines
14 KiB
PHP

<?php
namespace MediaWiki\Extension\DiscussionTools;
use DOMComment;
use DOMDocumentFragment;
use DOMDocumentType;
use DOMNode;
use DOMProcessingInstruction;
use DOMText;
use Error;
use Exception;
/**
* ImmutableRange has a similar API to the DOM Range class.
*
* start/endContainer and offsets can be accessed, as can commonAncestorContainer
* which is lazy evaluated.
*
* setStart and setEnd are still available but return a cloned range.
*/
class ImmutableRange {
private $mCollapsed;
private $mCommonAncestorContainer;
private $mEndContainer;
private $mEndOffset;
private $mStartContainer;
private $mStartOffset;
/**
* Find the common ancestor container of two nodes
*
* @param DOMNode $a
* @param DOMNode $b
* @return DOMNode Common ancestor container
*/
private static function findCommonAncestorContainer( DOMNode $a, DOMNode $b ): DOMNode {
$ancestorsA = [];
$ancestorsB = [];
do {
$ancestorsA[] = $a;
} while ( ( $a = $a->parentNode ) );
do {
$ancestorsB[] = $b;
} while ( ( $b = $b->parentNode ) );
$node = null;
while ( end( $ancestorsA ) && end( $ancestorsA ) === end( $ancestorsB ) ) {
$node = end( $ancestorsA );
array_pop( $ancestorsA );
array_pop( $ancestorsB );
}
if ( !$node ) {
throw new Error( 'Nodes are not in the same document' );
}
return $node;
}
/**
* Get the root ancestor of a node
*
* @param DOMNode $node
* @return DOMNode
*/
private static function getRootNode( DOMNode $node ): DOMNode {
while ( $node->parentNode ) {
$node = $node->parentNode;
}
return $node;
}
/**
* @param DOMNode $startNode
* @param int $startOffset
* @param DOMNode $endNode
* @param int $endOffset
*/
public function __construct(
DOMNode $startNode, int $startOffset, DOMNode $endNode, int $endOffset
) {
$this->mStartContainer = $startNode;
$this->mStartOffset = $startOffset;
$this->mEndContainer = $endNode;
$this->mEndOffset = $endOffset;
}
/**
* @param string $field Field name
* @return mixed
*/
public function __get( string $field ) {
switch ( $field ) {
case 'collapsed':
return $this->mStartContainer === $this->mEndContainer &&
$this->mStartOffset === $this->mEndOffset;
case 'commonAncestorContainer':
if ( !$this->mCommonAncestorContainer ) {
$this->mCommonAncestorContainer =
self::findCommonAncestorContainer( $this->mStartContainer, $this->mEndContainer );
}
return $this->mCommonAncestorContainer;
case 'endContainer':
return $this->mEndContainer;
case 'endOffset':
return $this->mEndOffset;
case 'startContainer':
return $this->mStartContainer;
case 'startOffset':
return $this->mStartOffset;
default:
throw new Exception( 'Invalid property: ' . $field );
}
}
/**
* Clone range with a new start position
*
* @param DOMNode $startNode
* @param int $startOffset
* @return self
*/
public function setStart( DOMNode $startNode, int $startOffset ): self {
return new self(
$startNode, $startOffset, $this->mEndContainer, $this->mEndOffset
);
}
/**
* Clone range with a new end position
*
* @param DOMNode $endNode
* @param int $endOffset
* @return self
*/
public function setEnd( DOMNode $endNode, int $endOffset ): self {
return new self(
$this->mStartContainer, $this->mStartOffset, $endNode, $endOffset
);
}
/**
* Returns true if only a portion of the Node is contained within the Range.
*
* Ported from https://github.com/TRowbotham/PHPDOM (MIT)
* @see https://dom.spec.whatwg.org/#partially-contained
*
* @param DOMNode $node The Node to check against.
* @return bool
*/
private function isPartiallyContainedNode( DOMNode $node ): bool {
$isAncestorOfStart = CommentUtils::contains( $node, $this->mStartContainer );
$isAncestorOfEnd = CommentUtils::contains( $node, $this->mEndContainer );
return ( $isAncestorOfStart && !$isAncestorOfEnd )
|| ( !$isAncestorOfStart && $isAncestorOfEnd );
}
/**
* Returns true if the entire Node is within the Range, otherwise false.
*
* Ported from https://github.com/TRowbotham/PHPDOM (MIT)
* @see https://dom.spec.whatwg.org/#contained
*
* @param DOMNode $node The Node to check against.
* @return bool
*/
private function isFullyContainedNode( DOMNode $node ): bool {
$startBP = [ $this->mStartContainer, $this->mStartOffset ];
$endBP = [ $this->mEndContainer, $this->mEndOffset ];
$root = self::getRootNode( $this->mStartContainer );
return self::getRootNode( $node ) === $root
&& $this->computePosition( [ $node, 0 ], $startBP ) === 'after'
&& $this->computePosition(
[ $node, strlen( $node->nodeValue ) ],
$endBP
) === 'before';
}
/**
* Ported from https://github.com/TRowbotham/PHPDOM (MIT)
* @see https://dom.spec.whatwg.org/#dom-range-clonecontents
*
* @return DOMDocumentFragment
*/
public function cloneContents(): DOMDocumentFragment {
$ownerDocument = $this->mStartContainer->ownerDocument;
$fragment = $ownerDocument->createDocumentFragment();
if ( $this->mStartContainer === $this->mEndContainer
&& $this->mStartOffset === $this->mEndOffset
) {
return $fragment;
}
$originalStartContainer = $this->mStartContainer;
$originalStartOffset = $this->mStartOffset;
$originalEndContainer = $this->mEndContainer;
$originalEndOffset = $this->mEndOffset;
if ( $originalStartContainer === $originalEndContainer
&& ( $originalStartContainer instanceof DOMText
|| $originalStartContainer instanceof DOMProcessingInstruction
|| $originalStartContainer instanceof DOMComment )
) {
$clone = $originalStartContainer->cloneNode();
$clone->nodeValue = substr(
$originalStartContainer->nodeValue,
$originalStartOffset,
$originalEndOffset - $originalStartOffset
);
$fragment->appendChild( $clone );
return $fragment;
}
$commonAncestor = self::findCommonAncestorContainer(
$originalStartContainer,
$originalEndContainer
);
$firstPartiallyContainedChild = null;
if ( !CommentUtils::contains( $originalStartContainer, $originalEndContainer ) ) {
foreach ( $commonAncestor->childNodes as $node ) {
if ( $this->isPartiallyContainedNode( $node ) ) {
$firstPartiallyContainedChild = $node;
break;
}
}
}
$lastPartiallyContainedChild = null;
if ( !CommentUtils::contains( $originalEndContainer, $originalStartContainer ) ) {
$childNodes = iterator_to_array( $commonAncestor->childNodes );
foreach ( array_reverse( $childNodes ) as $node ) {
if ( $this->isPartiallyContainedNode( $node ) ) {
$lastPartiallyContainedChild = $node;
break;
}
}
}
$containedChildrenStart = null;
$containedChildrenEnd = null;
$child = $firstPartiallyContainedChild ?: $commonAncestor->firstChild;
for ( ; $child; $child = $child->nextSibling ) {
if ( $this->isFullyContainedNode( $child ) ) {
$containedChildrenStart = $child;
break;
}
}
$child = $lastPartiallyContainedChild ?: $commonAncestor->lastChild;
for ( ; $child !== $containedChildrenStart; $child = $child->previousSibling ) {
if ( $this->isFullyContainedNode( $child ) ) {
$containedChildrenEnd = $child;
break;
}
}
if ( !$containedChildrenEnd ) {
$containedChildrenEnd = $containedChildrenStart;
}
// $containedChildrenStart and $containedChildrenEnd may be null here, but this loop still works correctly
for ( $child = $containedChildrenStart; $child !== $containedChildrenEnd; $child = $child->nextSibling ) {
if ( $child instanceof DOMDocumentType ) {
throw new Error();
}
}
if ( $firstPartiallyContainedChild instanceof DOMText
|| $firstPartiallyContainedChild instanceof DOMProcessingInstruction
|| $firstPartiallyContainedChild instanceof DOMComment
) {
$clone = $originalStartContainer->cloneNode();
$clone->nodeValue = substr(
$originalStartContainer->nodeValue,
$originalStartOffset,
strlen( $originalStartContainer->nodeValue ) - $originalStartOffset
);
$fragment->appendChild( $clone );
} elseif ( $firstPartiallyContainedChild ) {
$clone = $firstPartiallyContainedChild->cloneNode();
$fragment->appendChild( $clone );
$subrange = new self(
$originalStartContainer, $originalStartOffset,
$firstPartiallyContainedChild,
strlen( $firstPartiallyContainedChild->nodeValue )
);
$subfragment = $subrange->cloneContents();
if ( $subfragment->hasChildNodes() ) {
$clone->appendChild( $subfragment );
}
}
// $containedChildrenStart and $containedChildrenEnd may be null here, but this loop still works correctly
for ( $child = $containedChildrenStart; $child !== $containedChildrenEnd; $child = $child->nextSibling ) {
$clone = $child->cloneNode( true );
$fragment->appendChild( $clone );
}
// If not null, this node wasn't processed by the loop
if ( $containedChildrenEnd ) {
$clone = $containedChildrenEnd->cloneNode( true );
$fragment->appendChild( $clone );
}
if ( $lastPartiallyContainedChild instanceof DOMText
|| $lastPartiallyContainedChild instanceof DOMProcessingInstruction
|| $lastPartiallyContainedChild instanceof DOMComment
) {
$clone = $originalEndContainer->cloneNode();
$clone->nodeValue = substr(
$originalEndContainer->nodeValue,
0,
$originalEndOffset
);
$fragment->appendChild( $clone );
} elseif ( $lastPartiallyContainedChild ) {
$clone = $lastPartiallyContainedChild->cloneNode();
$fragment->appendChild( $clone );
$subrange = new self(
$lastPartiallyContainedChild, 0,
$originalEndContainer, $originalEndOffset
);
$subfragment = $subrange->cloneContents();
if ( $subfragment->hasChildNodes() ) {
$clone->appendChild( $subfragment );
}
}
return $fragment;
}
/**
* Inserts a new Node into at the start of the Range.
*
* Ported from https://github.com/TRowbotham/PHPDOM (MIT)
*
* @see https://dom.spec.whatwg.org/#dom-range-insertnode
*
* @param DOMNode $node The Node to be inserted.
* @return void
*/
public function insertNode( DOMNode $node ): void {
if ( ( $this->mStartContainer instanceof DOMProcessingInstruction
|| $this->mStartContainer instanceof DOMComment )
|| ( $this->mStartContainer instanceof DOMText
&& $this->mStartContainer->parentNode === null )
) {
throw new Error();
}
$referenceNode = null;
if ( $this->mStartContainer instanceof DOMText ) {
$referenceNode = $this->mStartContainer;
} else {
$referenceNode = $this
->mStartContainer
->childNodes
->item( $this->mStartOffset );
}
$parent = !$referenceNode
? $this->mStartContainer
: $referenceNode->parentNode;
// TODO: Restore this validation check?
// $parent->ensurePreinsertionValidity( $node, $referenceNode );
if ( $this->mStartContainer instanceof DOMText ) {
$referenceNode = $this->mStartContainer->splitText( $this->mStartOffset );
}
if ( $node === $referenceNode ) {
$referenceNode = $referenceNode->nextSibling;
}
if ( $node->parentNode ) {
$node->parentNode->removeChild( $node );
}
// TODO: Restore this validation check?
// $parent->preinsertNode( $node, $referenceNode );
//
// This should just be
// $parent->insertBefore( $node, $referenceNode );
// but the second argument is optional, not nullable
if ( $referenceNode ) {
$parent->insertBefore( $node, $referenceNode );
} else {
$parent->insertBefore( $node );
}
}
/**
* Compares the position of two boundary points.
*
* Ported from https://github.com/TRowbotham/PHPDOM (MIT)
* @internal
*
* @see https://dom.spec.whatwg.org/#concept-range-bp-position
*
* @param mixed[] $boundaryPointA An array containing a Node and an offset within that Node representing a boundary.
* @param mixed[] $boundaryPointB An array containing a Node and an offset within that Node representing a boundary.
* @return string Returns before, equal, or after based on the position of the first boundary relative to the second
* boundary.
*/
private function computePosition(
array $boundaryPointA,
array $boundaryPointB
): string {
if ( $boundaryPointA[0] === $boundaryPointB[0] ) {
if ( $boundaryPointA[1] === $boundaryPointB[1] ) {
return 'equal';
} elseif ( $boundaryPointA[1] < $boundaryPointB[1] ) {
return 'before';
} else {
return 'after';
}
}
$commonAncestor = $this->findCommonAncestorContainer( $boundaryPointB[0], $boundaryPointA[0] );
if ( $commonAncestor === $boundaryPointA[0] ) {
$AFollowsB = false;
} elseif ( $commonAncestor === $boundaryPointB[0] ) {
$AFollowsB = true;
} else {
// A was not found inside B. Traverse both A & B up to the nodes
// before their common ancestor, then see if A is in the nextSibling
// chain of B.
$b = $boundaryPointB[0];
while ( $b->parentNode !== $commonAncestor ) {
$b = $b->parentNode;
}
$a = $boundaryPointA[0];
while ( $a->parentNode !== $commonAncestor ) {
$a = $a->parentNode;
}
$AFollowsB = false;
while ( $b ) {
if ( $a === $b ) {
$AFollowsB = true;
break;
}
$b = $b->nextSibling;
}
}
if ( $AFollowsB ) {
// Swap variables
[ $boundaryPointB, $boundaryPointA ] = [ $boundaryPointA, $boundaryPointB ];
}
$ancestor = $boundaryPointB[0]->parentNode;
while ( $ancestor ) {
if ( $ancestor === $boundaryPointA[0] ) {
break;
}
$ancestor = $ancestor->parentNode;
}
if ( $ancestor ) {
$child = $boundaryPointB[0];
while ( $child ) {
if ( $child->parentNode === $boundaryPointA[0] ) {
break;
}
$child = $child->parentNode;
}
if ( CommentUtils::childIndexOf( $child ) < $boundaryPointA[1] ) {
return $AFollowsB ? 'before' : 'after';
}
}
return $AFollowsB ? 'after' : 'before';
}
}