BookStack/app/Entities/Tools/PageIncludeParser.php

221 lines
7.0 KiB
PHP
Raw Normal View History

<?php
namespace BookStack\Entities\Tools;
use BookStack\Util\HtmlDocument;
use Closure;
use DOMDocument;
use DOMElement;
use DOMNode;
use DOMText;
class PageIncludeParser
{
protected static string $includeTagRegex = "/{{@\s?([0-9].*?)}}/";
/**
* Elements to clean up and remove if left empty after a parsing operation.
* @var DOMElement[]
*/
protected array $toCleanup = [];
/**
* @param Closure(PageIncludeTag $tag): PageContent $pageContentForId
*/
public function __construct(
protected HtmlDocument $doc,
protected Closure $pageContentForId,
) {
}
/**
* Parse out the include tags.
* Returns the count of new content DOM nodes added to the document.
*/
public function parse(): int
{
$nodesAdded = 0;
$tags = $this->locateAndIsolateIncludeTags();
foreach ($tags as $tag) {
/** @var PageIncludeContent $content */
$content = $this->pageContentForId->call($this, $tag);
if (!$content->isInline()) {
$parentP = $this->getParentParagraph($tag->domNode);
$isWithinParentP = $parentP === $tag->domNode->parentNode;
if ($parentP && $isWithinParentP) {
$this->splitNodeAtChildNode($tag->domNode->parentNode, $tag->domNode);
} else if ($parentP) {
$this->moveTagNodeToBesideParent($tag, $parentP);
}
}
$replacementNodes = $content->toDomNodes();
$nodesAdded += count($replacementNodes);
$this->replaceNodeWithNodes($tag->domNode, $replacementNodes);
}
$this->cleanup();
return $nodesAdded;
}
/**
* Locate include tags within the given document, isolating them to their
* own nodes in the DOM for future targeted manipulation.
* @return PageIncludeTag[]
*/
protected function locateAndIsolateIncludeTags(): array
{
$includeHosts = $this->doc->queryXPath("//*[text()[contains(., '{{@')]]");
$includeTags = [];
/** @var DOMNode $node */
foreach ($includeHosts as $node) {
/** @var DOMNode $childNode */
foreach ($node->childNodes as $childNode) {
if ($childNode->nodeName === '#text') {
array_push($includeTags, ...$this->splitTextNodesAtTags($childNode));
}
}
}
return $includeTags;
}
/**
* Takes a text DOMNode and splits its text content at include tags
* into multiple text nodes within the original parent.
* Returns found PageIncludeTag references.
* @return PageIncludeTag[]
*/
protected function splitTextNodesAtTags(DOMNode $textNode): array
{
$includeTags = [];
$text = $textNode->textContent;
preg_match_all(static::$includeTagRegex, $text, $matches, PREG_OFFSET_CAPTURE);
$currentOffset = 0;
foreach ($matches[0] as $index => $fullTagMatch) {
$tagOuterContent = $fullTagMatch[0];
$tagInnerContent = $matches[1][$index][0];
$tagStartOffset = $fullTagMatch[1];
if ($currentOffset < $tagStartOffset) {
$previousText = substr($text, $currentOffset, $tagStartOffset - $currentOffset);
$textNode->parentNode->insertBefore(new DOMText($previousText), $textNode);
}
$node = $textNode->parentNode->insertBefore(new DOMText($tagOuterContent), $textNode);
$includeTags[] = new PageIncludeTag($tagInnerContent, $node);
$currentOffset = $tagStartOffset + strlen($tagOuterContent);
}
if ($currentOffset > 0) {
$textNode->textContent = substr($text, $currentOffset);
}
return $includeTags;
}
/**
* Replace the given node with all those in $replacements
* @param DOMNode[] $replacements
*/
protected function replaceNodeWithNodes(DOMNode $toReplace, array $replacements): void
{
/** @var DOMDocument $targetDoc */
$targetDoc = $toReplace->ownerDocument;
foreach ($replacements as $replacement) {
if ($replacement->ownerDocument !== $targetDoc) {
$replacement = $targetDoc->importNode($replacement, true);
}
$toReplace->parentNode->insertBefore($replacement, $toReplace);
}
$toReplace->parentNode->removeChild($toReplace);
}
/**
* Move a tag node to become a sibling of the given parent.
* Will attempt to guess a position based upon the tag content within the parent.
*/
protected function moveTagNodeToBesideParent(PageIncludeTag $tag, DOMNode $parent): void
{
$parentText = $parent->textContent;
$tagPos = strpos($parentText, $tag->tagContent);
$before = $tagPos < (strlen($parentText) / 2);
$this->toCleanup[] = $tag->domNode->parentNode;
if ($before) {
$parent->parentNode->insertBefore($tag->domNode, $parent);
} else {
$parent->parentNode->insertBefore($tag->domNode, $parent->nextSibling);
}
}
/**
* Splits the given $parentNode at the location of the $domNode within it.
* Attempts replicate the original $parentNode, moving some of their parent
* children in where needed, before adding the $domNode between.
*/
protected function splitNodeAtChildNode(DOMElement $parentNode, DOMNode $domNode): void
{
$children = [...$parentNode->childNodes];
$splitPos = array_search($domNode, $children, true);
if ($splitPos === false) {
$splitPos = count($children) - 1;
}
$parentClone = $parentNode->cloneNode();
$parentNode->parentNode->insertBefore($parentClone, $parentNode);
$parentClone->removeAttribute('id');
for ($i = 0; $i < $splitPos; $i++) {
/** @var DOMNode $child */
$child = $children[$i];
$parentClone->appendChild($child);
}
$parentNode->parentNode->insertBefore($domNode, $parentNode);
$this->toCleanup[] = $parentNode;
$this->toCleanup[] = $parentClone;
}
/**
* Get the parent paragraph of the given node, if existing.
*/
protected function getParentParagraph(DOMNode $parent): ?DOMNode
{
do {
if (strtolower($parent->nodeName) === 'p') {
return $parent;
}
$parent = $parent->parentNode;
} while ($parent !== null);
return null;
}
/**
* Cleanup after a parse operation.
* Removes stranded elements we may have left during the parse.
*/
protected function cleanup(): void
{
foreach ($this->toCleanup as $element) {
$element->normalize();
while ($element->parentNode && !$element->hasChildNodes()) {
$parent = $element->parentNode;
$parent->removeChild($element);
$element = $parent;
}
}
}
}