View file File name : class-wp-html-tag-processor.php Content :<?php /** * HTML API: WP_HTML_Tag_Processor class * * Scans through an HTML document to find specific tags, then * transforms those tags by adding, removing, or updating the * values of the HTML attributes within that tag (opener). * * Does not fully parse HTML or _recurse_ into the HTML structure * Instead this scans linearly through a document and only parses * the HTML tag openers. * * ### Possible future direction for this module * * - Prune the whitespace when removing classes/attributes: e.g. "a b c" -> "c" not " c". * This would increase the size of the changes for some operations but leave more * natural-looking output HTML. * - Properly decode HTML character references in `get_attribute()`. PHP's * `html_entity_decode()` is wrong in a couple ways: it doesn't account for the * no-ambiguous-ampersand rule, and it improperly handles the way semicolons may * or may not terminate a character reference. * * @package WordPress * @subpackage HTML-API * @since 6.2.0 */ /** * Core class used to modify attributes in an HTML document for tags matching a query. * * ## Usage * * Use of this class requires three steps: * * 1. Create a new class instance with your input HTML document. * 2. Find the tag(s) you are looking for. * 3. Request changes to the attributes in those tag(s). * * Example: * * $tags = new WP_HTML_Tag_Processor( $html ); * if ( $tags->next_tag( 'option' ) ) { * $tags->set_attribute( 'selected', true ); * } * * ### Finding tags * * The `next_tag()` function moves the internal cursor through * your input HTML document until it finds a tag meeting any of * the supplied restrictions in the optional query argument. If * no argument is provided then it will find the next HTML tag, * regardless of what kind it is. * * If you want to _find whatever the next tag is_: * * $tags->next_tag(); * * | Goal | Query | * |-----------------------------------------------------------|---------------------------------------------------------------------------------| * | Find any tag. | `$tags->next_tag();` | * | Find next image tag. | `$tags->next_tag( array( 'tag_name' => 'img' ) );` | * | Find next image tag (without passing the array). | `$tags->next_tag( 'img' );` | * | Find next tag containing the `fullwidth` CSS class. | `$tags->next_tag( array( 'class_name' => 'fullwidth' ) );` | * | Find next image tag containing the `fullwidth` CSS class. | `$tags->next_tag( array( 'tag_name' => 'img', 'class_name' => 'fullwidth' ) );` | * * If a tag was found meeting your criteria then `next_tag()` * will return `true` and you can proceed to modify it. If it * returns `false`, however, it failed to find the tag and * moved the cursor to the end of the file. * * Once the cursor reaches the end of the file the processor * is done and if you want to reach an earlier tag you will * need to recreate the processor and start over, as it's * unable to back up or move in reverse. * * See the section on bookmarks for an exception to this * no-backing-up rule. * * #### Custom queries * * Sometimes it's necessary to further inspect an HTML tag than * the query syntax here permits. In these cases one may further * inspect the search results using the read-only functions * provided by the processor or external state or variables. * * Example: * * // Paint up to the first five DIV or SPAN tags marked with the "jazzy" style. * $remaining_count = 5; * while ( $remaining_count > 0 && $tags->next_tag() ) { * if ( * ( 'DIV' === $tags->get_tag() || 'SPAN' === $tags->get_tag() ) && * 'jazzy' === $tags->get_attribute( 'data-style' ) * ) { * $tags->add_class( 'theme-style-everest-jazz' ); * $remaining_count--; * } * } * * `get_attribute()` will return `null` if the attribute wasn't present * on the tag when it was called. It may return `""` (the empty string) * in cases where the attribute was present but its value was empty. * For boolean attributes, those whose name is present but no value is * given, it will return `true` (the only way to set `false` for an * attribute is to remove it). * * #### When matching fails * * When `next_tag()` returns `false` it could mean different things: * * - The requested tag wasn't found in the input document. * - The input document ended in the middle of an HTML syntax element. * * When a document ends in the middle of a syntax element it will pause * the processor. This is to make it possible in the future to extend the * input document and proceed - an important requirement for chunked * streaming parsing of a document. * * Example: * * $processor = new WP_HTML_Tag_Processor( 'This <div is="a" partial="token' ); * false === $processor->next_tag(); * * If a special element (see next section) is encountered but no closing tag * is found it will count as an incomplete tag. The parser will pause as if * the opening tag were incomplete. * * Example: * * $processor = new WP_HTML_Tag_Processor( '<style>// there could be more styling to come' ); * false === $processor->next_tag(); * * $processor = new WP_HTML_Tag_Processor( '<style>// this is everything</style><div>' ); * true === $processor->next_tag( 'DIV' ); * * #### Special elements * * Some HTML elements are handled in a special way; their start and end tags * act like a void tag. These are special because their contents can't contain * HTML markup. Everything inside these elements is handled in a special way * and content that _appears_ like HTML tags inside of them isn't. There can * be no nesting in these elements. * * In the following list, "raw text" means that all of the content in the HTML * until the matching closing tag is treated verbatim without any replacements * and without any parsing. * * - IFRAME allows no content but requires a closing tag. * - NOEMBED (deprecated) content is raw text. * - NOFRAMES (deprecated) content is raw text. * - SCRIPT content is plaintext apart from legacy rules allowing `</script>` inside an HTML comment. * - STYLE content is raw text. * - TITLE content is plain text but character references are decoded. * - TEXTAREA content is plain text but character references are decoded. * - XMP (deprecated) content is raw text. * * ### Modifying HTML attributes for a found tag * * Once you've found the start of an opening tag you can modify * any number of the attributes on that tag. You can set a new * value for an attribute, remove the entire attribute, or do * nothing and move on to the next opening tag. * * Example: * * if ( $tags->next_tag( array( 'class_name' => 'wp-group-block' ) ) ) { * $tags->set_attribute( 'title', 'This groups the contained content.' ); * $tags->remove_attribute( 'data-test-id' ); * } * * If `set_attribute()` is called for an existing attribute it will * overwrite the existing value. Similarly, calling `remove_attribute()` * for a non-existing attribute has no effect on the document. Both * of these methods are safe to call without knowing if a given attribute * exists beforehand. * * ### Modifying CSS classes for a found tag * * The tag processor treats the `class` attribute as a special case. * Because it's a common operation to add or remove CSS classes, this * interface adds helper methods to make that easier. * * As with attribute values, adding or removing CSS classes is a safe * operation that doesn't require checking if the attribute or class * exists before making changes. If removing the only class then the * entire `class` attribute will be removed. * * Example: * * // from `<span>Yippee!</span>` * // to `<span class="is-active">Yippee!</span>` * $tags->add_class( 'is-active' ); * * // from `<span class="excited">Yippee!</span>` * // to `<span class="excited is-active">Yippee!</span>` * $tags->add_class( 'is-active' ); * * // from `<span class="is-active heavy-accent">Yippee!</span>` * // to `<span class="is-active heavy-accent">Yippee!</span>` * $tags->add_class( 'is-active' ); * * // from `<input type="text" class="is-active rugby not-disabled" length="24">` * // to `<input type="text" class="is-active not-disabled" length="24"> * $tags->remove_class( 'rugby' ); * * // from `<input type="text" class="rugby" length="24">` * // to `<input type="text" length="24"> * $tags->remove_class( 'rugby' ); * * // from `<input type="text" length="24">` * // to `<input type="text" length="24"> * $tags->remove_class( 'rugby' ); * * When class changes are enqueued but a direct change to `class` is made via * `set_attribute` then the changes to `set_attribute` (or `remove_attribute`) * will take precedence over those made through `add_class` and `remove_class`. * * ### Bookmarks * * While scanning through the input HTMl document it's possible to set * a named bookmark when a particular tag is found. Later on, after * continuing to scan other tags, it's possible to `seek` to one of * the set bookmarks and then proceed again from that point forward. * * Because bookmarks create processing overhead one should avoid * creating too many of them. As a rule, create only bookmarks * of known string literal names; avoid creating "mark_{$index}" * and so on. It's fine from a performance standpoint to create a * bookmark and update it frequently, such as within a loop. * * $total_todos = 0; * while ( $p->next_tag( array( 'tag_name' => 'UL', 'class_name' => 'todo' ) ) ) { * $p->set_bookmark( 'list-start' ); * while ( $p->next_tag( array( 'tag_closers' => 'visit' ) ) ) { * if ( 'UL' === $p->get_tag() && $p->is_tag_closer() ) { * $p->set_bookmark( 'list-end' ); * $p->seek( 'list-start' ); * $p->set_attribute( 'data-contained-todos', (string) $total_todos ); * $total_todos = 0; * $p->seek( 'list-end' ); * break; * } * * if ( 'LI' === $p->get_tag() && ! $p->is_tag_closer() ) { * $total_todos++; * } * } * } * * ## Tokens and finer-grained processing. * * It's possible to scan through every lexical token in the * HTML document using the `next_token()` function. This * alternative form takes no argument and provides no built-in * query syntax. * * Example: * * $title = '(untitled)'; * $text = ''; * while ( $processor->next_token() ) { * switch ( $processor->get_token_name() ) { * case '#text': * $text .= $processor->get_modifiable_text(); * break; * * case 'BR': * $text .= "\n"; * break; * * case 'TITLE': * $title = $processor->get_modifiable_text(); * break; * } * } * return trim( "# {$title}\n\n{$text}" ); * * ### Tokens and _modifiable text_. * * #### Special "atomic" HTML elements. * * Not all HTML elements are able to contain other elements inside of them. * For instance, the contents inside a TITLE element are plaintext (except * that character references like & will be decoded). This means that * if the string `<img>` appears inside a TITLE element, then it's not an * image tag, but rather it's text describing an image tag. Likewise, the * contents of a SCRIPT or STYLE element are handled entirely separately in * a browser than the contents of other elements because they represent a * different language than HTML. * * For these elements the Tag Processor treats the entire sequence as one, * from the opening tag, including its contents, through its closing tag. * This means that the it's not possible to match the closing tag for a * SCRIPT element unless it's unexpected; the Tag Processor already matched * it when it found the opening tag. * * The inner contents of these elements are that element's _modifiable text_. * * The special elements are: * - `SCRIPT` whose contents are treated as raw plaintext but supports a legacy * style of including Javascript inside of HTML comments to avoid accidentally * closing the SCRIPT from inside a Javascript string. E.g. `console.log( '</script>' )`. * - `TITLE` and `TEXTAREA` whose contents are treated as plaintext and then any * character references are decoded. E.g. `1 < 2 < 3` becomes `1 < 2 < 3`. * - `IFRAME`, `NOSCRIPT`, `NOEMBED`, `NOFRAME`, `STYLE` whose contents are treated as * raw plaintext and left as-is. E.g. `1 < 2 < 3` remains `1 < 2 < 3`. * * #### Other tokens with modifiable text. * * There are also non-elements which are void/self-closing in nature and contain * modifiable text that is part of that individual syntax token itself. * * - `#text` nodes, whose entire token _is_ the modifiable text. * - HTML comments and tokens that become comments due to some syntax error. The * text for these tokens is the portion of the comment inside of the syntax. * E.g. for `<!-- comment -->` the text is `" comment "` (note the spaces are included). * - `CDATA` sections, whose text is the content inside of the section itself. E.g. for * `<![CDATA[some content]]>` the text is `"some content"` (with restrictions [1]). * - "Funky comments," which are a special case of invalid closing tags whose name is * invalid. The text for these nodes is the text that a browser would transform into * an HTML comment when parsing. E.g. for `</%post_author>` the text is `%post_author`. * - `DOCTYPE` declarations like `<DOCTYPE html>` which have no closing tag. * - XML Processing instruction nodes like `<?wp __( "Like" ); ?>` (with restrictions [2]). * - The empty end tag `</>` which is ignored in the browser and DOM. * * [1]: There are no CDATA sections in HTML. When encountering `<![CDATA[`, everything * until the next `>` becomes a bogus HTML comment, meaning there can be no CDATA * section in an HTML document containing `>`. The Tag Processor will first find * all valid and bogus HTML comments, and then if the comment _would_ have been a * CDATA section _were they to exist_, it will indicate this as the type of comment. * * [2]: XML allows a broader range of characters in a processing instruction's target name * and disallows "xml" as a name, since it's special. The Tag Processor only recognizes * target names with an ASCII-representable subset of characters. It also exhibits the * same constraint as with CDATA sections, in that `>` cannot exist within the token * since Processing Instructions do no exist within HTML and their syntax transforms * into a bogus comment in the DOM. * * ## Design and limitations * * The Tag Processor is designed to linearly scan HTML documents and tokenize * HTML tags and their attributes. It's designed to do this as efficiently as * possible without compromising parsing integrity. Therefore it will be * slower than some methods of modifying HTML, such as those incorporating * over-simplified PCRE patterns, but will not introduce the defects and * failures that those methods bring in, which lead to broken page renders * and often to security vulnerabilities. On the other hand, it will be faster * than full-blown HTML parsers such as DOMDocument and use considerably * less memory. It requires a negligible memory overhead, enough to consider * it a zero-overhead system. * * The performance characteristics are maintained by avoiding tree construction * and semantic cleanups which are specified in HTML5. Because of this, for * example, it's not possible for the Tag Processor to associate any given * opening tag with its corresponding closing tag, or to return the inner markup * inside an element. Systems may be built on top of the Tag Processor to do * this, but the Tag Processor is and should be constrained so it can remain an * efficient, low-level, and reliable HTML scanner. * * The Tag Processor's design incorporates a "garbage-in-garbage-out" philosophy. * HTML5 specifies that certain invalid content be transformed into different forms * for display, such as removing null bytes from an input document and replacing * invalid characters with the Unicode replacement character `U+FFFD` (visually "�"). * Where errors or transformations exist within the HTML5 specification, the Tag Processor * leaves those invalid inputs untouched, passing them through to the final browser * to handle. While this implies that certain operations will be non-spec-compliant, * such as reading the value of an attribute with invalid content, it also preserves a * simplicity and efficiency for handling those error cases. * * Most operations within the Tag Processor are designed to minimize the difference * between an input and output document for any given change. For example, the * `add_class` and `remove_class` methods preserve whitespace and the class ordering * within the `class` attribute; and when encountering tags with duplicated attributes, * the Tag Processor will leave those invalid duplicate attributes where they are but * update the proper attribute which the browser will read for parsing its value. An * exception to this rule is that all attribute updates store their values as * double-quoted strings, meaning that attributes on input with single-quoted or * unquoted values will appear in the output with double-quotes. * * ### Scripting Flag * * The Tag Processor parses HTML with the "scripting flag" disabled. This means * that it doesn't run any scripts while parsing the page. In a browser with * JavaScript enabled, for example, the script can change the parse of the * document as it loads. On the server, however, evaluating JavaScript is not * only impractical, but also unwanted. * * Practically this means that the Tag Processor will descend into NOSCRIPT * elements and process its child tags. Were the scripting flag enabled, such * as in a typical browser, the contents of NOSCRIPT are skipped entirely. * * This allows the HTML API to process the content that will be presented in * a browser when scripting is disabled, but it offers a different view of a * page than most browser sessions will experience. E.g. the tags inside the * NOSCRIPT disappear. * * ### Text Encoding * * The Tag Processor assumes that the input HTML document is encoded with a * text encoding compatible with 7-bit ASCII's '<', '>', '&', ';', '/', '=', * "'", '"', 'a' - 'z', 'A' - 'Z', and the whitespace characters ' ', tab, * carriage-return, newline, and form-feed. * * In practice, this includes almost every single-byte encoding as well as * UTF-8. Notably, however, it does not include UTF-16. If providing input * that's incompatible, then convert the encoding beforehand. * * @since 6.2.0 * @since 6.2.1 Fix: Support for various invalid comments; attribute updates are case-insensitive. * @since 6.3.2 Fix: Skip HTML-like content inside rawtext elements such as STYLE. * @since 6.5.0 Pauses processor when input ends in an incomplete syntax token. * Introduces "special" elements which act like void elements, e.g. TITLE, STYLE. * Allows scanning through all tokens and processing modifiable text, where applicable. */ class WP_HTML_Tag_Processor { /** * The maximum number of bookmarks allowed to exist at * any given time. * * @since 6.2.0 * @var int * * @see WP_HTML_Tag_Processor::set_bookmark() */ const MAX_BOOKMARKS = 10; /** * Maximum number of times seek() can be called. * Prevents accidental infinite loops. * * @since 6.2.0 * @var int * * @see WP_HTML_Tag_Processor::seek() */ const MAX_SEEK_OPS = 1000; /** * The HTML document to parse. * * @since 6.2.0 * @var string */ protected $html; /** * The last query passed to next_tag(). * * @since 6.2.0 * @var array|null */ private $last_query; /** * The tag name this processor currently scans for. * * @since 6.2.0 * @var string|null */ private $sought_tag_name; /** * The CSS class name this processor currently scans for. * * @since 6.2.0 * @var string|null */ private $sought_class_name; /** * The match offset this processor currently scans for. * * @since 6.2.0 * @var int|null */ private $sought_match_offset; /** * Whether to visit tag closers, e.g. </div>, when walking an input document. * * @since 6.2.0 * @var bool */ private $stop_on_tag_closers; /** * Specifies mode of operation of the parser at any given time. * * | State | Meaning | * | ----------------|----------------------------------------------------------------------| * | *Ready* | The parser is ready to run. | * | *Complete* | There is nothing left to parse. | * | *Incomplete* | The HTML ended in the middle of a token; nothing more can be parsed. | * | *Matched tag* | Found an HTML tag; it's possible to modify its attributes. | * | *Text node* | Found a #text node; this is plaintext and modifiable. | * | *CDATA node* | Found a CDATA section; this is modifiable. | * | *Comment* | Found a comment or bogus comment; this is modifiable. | * | *Presumptuous* | Found an empty tag closer: `</>`. | * | *Funky comment* | Found a tag closer with an invalid tag name; this is modifiable. | * * @since 6.5.0 * * @see WP_HTML_Tag_Processor::STATE_READY * @see WP_HTML_Tag_Processor::STATE_COMPLETE * @see WP_HTML_Tag_Processor::STATE_INCOMPLETE_INPUT * @see WP_HTML_Tag_Processor::STATE_MATCHED_TAG * @see WP_HTML_Tag_Processor::STATE_TEXT_NODE * @see WP_HTML_Tag_Processor::STATE_CDATA_NODE * @see WP_HTML_Tag_Processor::STATE_COMMENT * @see WP_HTML_Tag_Processor::STATE_DOCTYPE * @see WP_HTML_Tag_Processor::STATE_PRESUMPTUOUS_TAG * @see WP_HTML_Tag_Processor::STATE_FUNKY_COMMENT * * @var string */ protected $parser_state = self::STATE_READY; /** * What kind of syntax token became an HTML comment. * * Since there are many ways in which HTML syntax can create an HTML comment, * this indicates which of those caused it. This allows the Tag Processor to * represent more from the original input document than would appear in the DOM. * * @since 6.5.0 * * @var string|null */ protected $comment_type = null; /** * How many bytes from the original HTML document have been read and parsed. * * This value points to the latest byte offset in the input document which * has been already parsed. It is the internal cursor for the Tag Processor * and updates while scanning through the HTML tokens. * * @since 6.2.0 * @var int */ private $bytes_already_parsed = 0; /** * Byte offset in input document where current token starts. * * Example: * * <div id="test">... * 01234 * - token starts at 0 * * @since 6.5.0 * * @var int|null */ private $token_starts_at; /** * Byte length of current token. * * Example: * * <div id="test">... * 012345678901234 * - token length is 14 - 0 = 14 * * a <!-- comment --> is a token. * 0123456789 123456789 123456789 * - token length is 17 - 2 = 15 * * @since 6.5.0 * * @var int|null */ private $token_length; /** * Byte offset in input document where current tag name starts. * * Example: * * <div id="test">... * 01234 * - tag name starts at 1 * * @since 6.2.0 * * @var int|null */ private $tag_name_starts_at; /** * Byte length of current tag name. * * Example: * * <div id="test">... * 01234 * --- tag name length is 3 * * @since 6.2.0 * * @var int|null */ private $tag_name_length; /** * Byte offset into input document where current modifiable text starts. * * @since 6.5.0 * * @var int */ private $text_starts_at; /** * Byte length of modifiable text. * * @since 6.5.0 * * @var string */ private $text_length; /** * Whether the current tag is an opening tag, e.g. <div>, or a closing tag, e.g. </div>. * * @var bool */ private $is_closing_tag; /** * Lazily-built index of attributes found within an HTML tag, keyed by the attribute name. * * Example: * * // Supposing the parser is working through this content * // and stops after recognizing the `id` attribute. * // <div id="test-4" class=outline title="data:text/plain;base64=asdk3nk1j3fo8"> * // ^ parsing will continue from this point. * $this->attributes = array( * 'id' => new WP_HTML_Attribute_Token( 'id', 9, 6, 5, 11, false ) * ); * * // When picking up parsing again, or when asking to find the * // `class` attribute we will continue and add to this array. * $this->attributes = array( * 'id' => new WP_HTML_Attribute_Token( 'id', 9, 6, 5, 11, false ), * 'class' => new WP_HTML_Attribute_Token( 'class', 23, 7, 17, 13, false ) * ); * * // Note that only the `class` attribute value is stored in the index. * // That's because it is the only value used by this class at the moment. * * @since 6.2.0 * @var WP_HTML_Attribute_Token[] */ private $attributes = array(); /** * Tracks spans of duplicate attributes on a given tag, used for removing * all copies of an attribute when calling `remove_attribute()`. * * @since 6.3.2 * * @var (WP_HTML_Span[])[]|null */ private $duplicate_attributes = null; /** * Which class names to add or remove from a tag. * * These are tracked separately from attribute updates because they are * semantically distinct, whereas this interface exists for the common * case of adding and removing class names while other attributes are * generally modified as with DOM `setAttribute` calls. * * When modifying an HTML document these will eventually be collapsed * into a single `set_attribute( 'class', $changes )` call. * * Example: * * // Add the `wp-block-group` class, remove the `wp-group` class. * $classname_updates = array( * // Indexed by a comparable class name. * 'wp-block-group' => WP_HTML_Tag_Processor::ADD_CLASS, * 'wp-group' => WP_HTML_Tag_Processor::REMOVE_CLASS * ); * * @since 6.2.0 * @var bool[] */ private $classname_updates = array(); /** * Tracks a semantic location in the original HTML which * shifts with updates as they are applied to the document. * * @since 6.2.0 * @var WP_HTML_Span[] */ protected $bookmarks = array(); const ADD_CLASS = true; const REMOVE_CLASS = false; const SKIP_CLASS = null; /** * Lexical replacements to apply to input HTML document. * * "Lexical" in this class refers to the part of this class which * operates on pure text _as text_ and not as HTML. There's a line * between the public interface, with HTML-semantic methods like * `set_attribute` and `add_class`, and an internal state that tracks * text offsets in the input document. * * When higher-level HTML methods are called, those have to transform their * operations (such as setting an attribute's value) into text diffing * operations (such as replacing the sub-string from indices A to B with * some given new string). These text-diffing operations are the lexical * updates. * * As new higher-level methods are added they need to collapse their * operations into these lower-level lexical updates since that's the * Tag Processor's internal language of change. Any code which creates * these lexical updates must ensure that they do not cross HTML syntax * boundaries, however, so these should never be exposed outside of this * class or any classes which intentionally expand its functionality. * * These are enqueued while editing the document instead of being immediately * applied to avoid processing overhead, string allocations, and string * copies when applying many updates to a single document. * * Example: * * // Replace an attribute stored with a new value, indices * // sourced from the lazily-parsed HTML recognizer. * $start = $attributes['src']->start; * $length = $attributes['src']->length; * $modifications[] = new WP_HTML_Text_Replacement( $start, $length, $new_value ); * * // Correspondingly, something like this will appear in this array. * $lexical_updates = array( * WP_HTML_Text_Replacement( 14, 28, 'https://my-site.my-domain/wp-content/uploads/2014/08/kittens.jpg' ) * ); * * @since 6.2.0 * @var WP_HTML_Text_Replacement[] */ protected $lexical_updates = array(); /** * Tracks and limits `seek()` calls to prevent accidental infinite loops. * * @since 6.2.0 * @var int * * @see WP_HTML_Tag_Processor::seek() */ protected $seek_count = 0; /** * Constructor. * * @since 6.2.0 * * @param string $html HTML to process. */ public function __construct( $html ) { $this->html = $html; } /** * Finds the next tag matching the $query. * * @since 6.2.0 * @since 6.5.0 No longer processes incomplete tokens at end of document; pauses the processor at start of token. * * @param array|string|null $query { * Optional. Which tag name to find, having which class, etc. Default is to find any tag. * * @type string|null $tag_name Which tag to find, or `null` for "any tag." * @type int|null $match_offset Find the Nth tag matching all search criteria. * 1 for "first" tag, 3 for "third," etc. * Defaults to first tag. * @type string|null $class_name Tag must contain this whole class name to match. * @type string|null $tag_closers "visit" or "skip": whether to stop on tag closers, e.g. </div>. * } * @return bool Whether a tag was matched. */ public function next_tag( $query = null ) { $this->parse_query( $query ); $already_found = 0; do { if ( false === $this->next_token() ) { return false; } if ( self::STATE_MATCHED_TAG !== $this->parser_state ) { continue; } if ( $this->matches() ) { ++$already_found; } } while ( $already_found < $this->sought_match_offset ); return true; } /** * Finds the next token in the HTML document. * * An HTML document can be viewed as a stream of tokens, * where tokens are things like HTML tags, HTML comments, * text nodes, etc. This method finds the next token in * the HTML document and returns whether it found one. * * If it starts parsing a token and reaches the end of the * document then it will seek to the start of the last * token and pause, returning `false` to indicate that it * failed to find a complete token. * * Possible token types, based on the HTML specification: * * - an HTML tag, whether opening, closing, or void. * - a text node - the plaintext inside tags. * - an HTML comment. * - a DOCTYPE declaration. * - a processing instruction, e.g. `<?xml version="1.0" ?>`. * * The Tag Processor currently only supports the tag token. * * @since 6.5.0 * * @return bool Whether a token was parsed. */ public function next_token() { return $this->base_class_next_token(); } /** * Internal method which finds the next token in the HTML document. * * This method is a protected internal function which implements the logic for * finding the next token in a document. It exists so that the parser can update * its state without affecting the location of the cursor in the document and * without triggering subclass methods for things like `next_token()`, e.g. when * applying patches before searching for the next token. * * @since 6.5.0 * * @access private * * @return bool Whether a token was parsed. */ private function base_class_next_token() { $was_at = $this->bytes_already_parsed; $this->after_tag(); // Don't proceed if there's nothing more to scan. if ( self::STATE_COMPLETE === $this->parser_state || self::STATE_INCOMPLETE_INPUT === $this->parser_state ) { return false; } /* * The next step in the parsing loop determines the parsing state; * clear it so that state doesn't linger from the previous step. */ $this->parser_state = self::STATE_READY; if ( $this->bytes_already_parsed >= strlen( $this->html ) ) { $this->parser_state = self::STATE_COMPLETE; return false; } // Find the next tag if it exists. if ( false === $this->parse_next_tag() ) { if ( self::STATE_INCOMPLETE_INPUT === $this->parser_state ) { $this->bytes_already_parsed = $was_at; } return false; } /* * For legacy reasons the rest of this function handles tags and their * attributes. If the processor has reached the end of the document * or if it matched any other token then it should return here to avoid * attempting to process tag-specific syntax. */ if ( self::STATE_INCOMPLETE_INPUT !== $this->parser_state && self::STATE_COMPLETE !== $this->parser_state && self::STATE_MATCHED_TAG !== $this->parser_state ) { return true; } // Parse all of its attributes. while ( $this->parse_next_attribute() ) { continue; } // Ensure that the tag closes before the end of the document. if ( self::STATE_INCOMPLETE_INPUT === $this->parser_state || $this->bytes_already_parsed >= strlen( $this->html ) ) { // Does this appropriately clear state (parsed attributes)? $this->parser_state = self::STATE_INCOMPLETE_INPUT; $this->bytes_already_parsed = $was_at; return false; } $tag_ends_at = strpos( $this->html, '>', $this->bytes_already_parsed ); if ( false === $tag_ends_at ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; $this->bytes_already_parsed = $was_at; return false; } $this->parser_state = self::STATE_MATCHED_TAG; $this->token_length = $tag_ends_at - $this->token_starts_at; $this->bytes_already_parsed = $tag_ends_at + 1; /* * For non-DATA sections which might contain text that looks like HTML tags but * isn't, scan with the appropriate alternative mode. Looking at the first letter * of the tag name as a pre-check avoids a string allocation when it's not needed. */ $t = $this->html[ $this->tag_name_starts_at ]; if ( $this->is_closing_tag || ! ( 'i' === $t || 'I' === $t || 'n' === $t || 'N' === $t || 's' === $t || 'S' === $t || 't' === $t || 'T' === $t || 'x' === $t || 'X' === $t ) ) { return true; } $tag_name = $this->get_tag(); /* * Preserve the opening tag pointers, as these will be overwritten * when finding the closing tag. They will be reset after finding * the closing to tag to point to the opening of the special atomic * tag sequence. */ $tag_name_starts_at = $this->tag_name_starts_at; $tag_name_length = $this->tag_name_length; $tag_ends_at = $this->token_starts_at + $this->token_length; $attributes = $this->attributes; $duplicate_attributes = $this->duplicate_attributes; // Find the closing tag if necessary. $found_closer = false; switch ( $tag_name ) { case 'SCRIPT': $found_closer = $this->skip_script_data(); break; case 'TEXTAREA': case 'TITLE': $found_closer = $this->skip_rcdata( $tag_name ); break; /* * In the browser this list would include the NOSCRIPT element, * but the Tag Processor is an environment with the scripting * flag disabled, meaning that it needs to descend into the * NOSCRIPT element to be able to properly process what will be * sent to a browser. * * Note that this rule makes HTML5 syntax incompatible with XML, * because the parsing of this token depends on client application. * The NOSCRIPT element cannot be represented in the XHTML syntax. */ case 'IFRAME': case 'NOEMBED': case 'NOFRAMES': case 'STYLE': case 'XMP': $found_closer = $this->skip_rawtext( $tag_name ); break; // No other tags should be treated in their entirety here. default: return true; } if ( ! $found_closer ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; $this->bytes_already_parsed = $was_at; return false; } /* * The values here look like they reference the opening tag but they reference * the closing tag instead. This is why the opening tag values were stored * above in a variable. It reads confusingly here, but that's because the * functions that skip the contents have moved all the internal cursors past * the inner content of the tag. */ $this->token_starts_at = $was_at; $this->token_length = $this->bytes_already_parsed - $this->token_starts_at; $this->text_starts_at = $tag_ends_at + 1; $this->text_length = $this->tag_name_starts_at - $this->text_starts_at; $this->tag_name_starts_at = $tag_name_starts_at; $this->tag_name_length = $tag_name_length; $this->attributes = $attributes; $this->duplicate_attributes = $duplicate_attributes; return true; } /** * Whether the processor paused because the input HTML document ended * in the middle of a syntax element, such as in the middle of a tag. * * Example: * * $processor = new WP_HTML_Tag_Processor( '<input type="text" value="Th' ); * false === $processor->get_next_tag(); * true === $processor->paused_at_incomplete_token(); * * @since 6.5.0 * * @return bool Whether the parse paused at the start of an incomplete token. */ public function paused_at_incomplete_token() { return self::STATE_INCOMPLETE_INPUT === $this->parser_state; } /** * Generator for a foreach loop to step through each class name for the matched tag. * * This generator function is designed to be used inside a "foreach" loop. * * Example: * * $p = new WP_HTML_Tag_Processor( "<div class='free <egg<\tlang-en'>" ); * $p->next_tag(); * foreach ( $p->class_list() as $class_name ) { * echo "{$class_name} "; * } * // Outputs: "free <egg> lang-en " * * @since 6.4.0 */ public function class_list() { if ( self::STATE_MATCHED_TAG !== $this->parser_state ) { return; } /** @var string $class contains the string value of the class attribute, with character references decoded. */ $class = $this->get_attribute( 'class' ); if ( ! is_string( $class ) ) { return; } $seen = array(); $at = 0; while ( $at < strlen( $class ) ) { // Skip past any initial boundary characters. $at += strspn( $class, " \t\f\r\n", $at ); if ( $at >= strlen( $class ) ) { return; } // Find the byte length until the next boundary. $length = strcspn( $class, " \t\f\r\n", $at ); if ( 0 === $length ) { return; } /* * CSS class names are case-insensitive in the ASCII range. * * @see https://www.w3.org/TR/CSS2/syndata.html#x1 */ $name = strtolower( substr( $class, $at, $length ) ); $at += $length; /* * It's expected that the number of class names for a given tag is relatively small. * Given this, it is probably faster overall to scan an array for a value rather * than to use the class name as a key and check if it's a key of $seen. */ if ( in_array( $name, $seen, true ) ) { continue; } $seen[] = $name; yield $name; } } /** * Returns if a matched tag contains the given ASCII case-insensitive class name. * * @since 6.4.0 * * @param string $wanted_class Look for this CSS class name, ASCII case-insensitive. * @return bool|null Whether the matched tag contains the given class name, or null if not matched. */ public function has_class( $wanted_class ) { if ( self::STATE_MATCHED_TAG !== $this->parser_state ) { return null; } $wanted_class = strtolower( $wanted_class ); foreach ( $this->class_list() as $class_name ) { if ( $class_name === $wanted_class ) { return true; } } return false; } /** * Sets a bookmark in the HTML document. * * Bookmarks represent specific places or tokens in the HTML * document, such as a tag opener or closer. When applying * edits to a document, such as setting an attribute, the * text offsets of that token may shift; the bookmark is * kept updated with those shifts and remains stable unless * the entire span of text in which the token sits is removed. * * Release bookmarks when they are no longer needed. * * Example: * * <main><h2>Surprising fact you may not know!</h2></main> * ^ ^ * \-|-- this `H2` opener bookmark tracks the token * * <main class="clickbait"><h2>Surprising fact you may no… * ^ ^ * \-|-- it shifts with edits * * Bookmarks provide the ability to seek to a previously-scanned * place in the HTML document. This avoids the need to re-scan * the entire document. * * Example: * * <ul><li>One</li><li>Two</li><li>Three</li></ul> * ^^^^ * want to note this last item * * $p = new WP_HTML_Tag_Processor( $html ); * $in_list = false; * while ( $p->next_tag( array( 'tag_closers' => $in_list ? 'visit' : 'skip' ) ) ) { * if ( 'UL' === $p->get_tag() ) { * if ( $p->is_tag_closer() ) { * $in_list = false; * $p->set_bookmark( 'resume' ); * if ( $p->seek( 'last-li' ) ) { * $p->add_class( 'last-li' ); * } * $p->seek( 'resume' ); * $p->release_bookmark( 'last-li' ); * $p->release_bookmark( 'resume' ); * } else { * $in_list = true; * } * } * * if ( 'LI' === $p->get_tag() ) { * $p->set_bookmark( 'last-li' ); * } * } * * Bookmarks intentionally hide the internal string offsets * to which they refer. They are maintained internally as * updates are applied to the HTML document and therefore * retain their "position" - the location to which they * originally pointed. The inability to use bookmarks with * functions like `substr` is therefore intentional to guard * against accidentally breaking the HTML. * * Because bookmarks allocate memory and require processing * for every applied update, they are limited and require * a name. They should not be created with programmatically-made * names, such as "li_{$index}" with some loop. As a general * rule they should only be created with string-literal names * like "start-of-section" or "last-paragraph". * * Bookmarks are a powerful tool to enable complicated behavior. * Consider double-checking that you need this tool if you are * reaching for it, as inappropriate use could lead to broken * HTML structure or unwanted processing overhead. * * @since 6.2.0 * * @param string $name Identifies this particular bookmark. * @return bool Whether the bookmark was successfully created. */ public function set_bookmark( $name ) { // It only makes sense to set a bookmark if the parser has paused on a concrete token. if ( self::STATE_COMPLETE === $this->parser_state || self::STATE_INCOMPLETE_INPUT === $this->parser_state ) { return false; } if ( ! array_key_exists( $name, $this->bookmarks ) && count( $this->bookmarks ) >= static::MAX_BOOKMARKS ) { _doing_it_wrong( __METHOD__, __( 'Too many bookmarks: cannot create any more.' ), '6.2.0' ); return false; } $this->bookmarks[ $name ] = new WP_HTML_Span( $this->token_starts_at, $this->token_length ); return true; } /** * Removes a bookmark that is no longer needed. * * Releasing a bookmark frees up the small * performance overhead it requires. * * @param string $name Name of the bookmark to remove. * @return bool Whether the bookmark already existed before removal. */ public function release_bookmark( $name ) { if ( ! array_key_exists( $name, $this->bookmarks ) ) { return false; } unset( $this->bookmarks[ $name ] ); return true; } /** * Skips contents of generic rawtext elements. * * @since 6.3.2 * * @see https://html.spec.whatwg.org/#generic-raw-text-element-parsing-algorithm * * @param string $tag_name The uppercase tag name which will close the RAWTEXT region. * @return bool Whether an end to the RAWTEXT region was found before the end of the document. */ private function skip_rawtext( $tag_name ) { /* * These two functions distinguish themselves on whether character references are * decoded, and since functionality to read the inner markup isn't supported, it's * not necessary to implement these two functions separately. */ return $this->skip_rcdata( $tag_name ); } /** * Skips contents of RCDATA elements, namely title and textarea tags. * * @since 6.2.0 * * @see https://html.spec.whatwg.org/multipage/parsing.html#rcdata-state * * @param string $tag_name The uppercase tag name which will close the RCDATA region. * @return bool Whether an end to the RCDATA region was found before the end of the document. */ private function skip_rcdata( $tag_name ) { $html = $this->html; $doc_length = strlen( $html ); $tag_length = strlen( $tag_name ); $at = $this->bytes_already_parsed; while ( false !== $at && $at < $doc_length ) { $at = strpos( $this->html, '</', $at ); $this->tag_name_starts_at = $at; // Fail if there is no possible tag closer. if ( false === $at || ( $at + $tag_length ) >= $doc_length ) { return false; } $at += 2; /* * Find a case-insensitive match to the tag name. * * Because tag names are limited to US-ASCII there is no * need to perform any kind of Unicode normalization when * comparing; any character which could be impacted by such * normalization could not be part of a tag name. */ for ( $i = 0; $i < $tag_length; $i++ ) { $tag_char = $tag_name[ $i ]; $html_char = $html[ $at + $i ]; if ( $html_char !== $tag_char && strtoupper( $html_char ) !== $tag_char ) { $at += $i; continue 2; } } $at += $tag_length; $this->bytes_already_parsed = $at; if ( $at >= strlen( $html ) ) { return false; } /* * Ensure that the tag name terminates to avoid matching on * substrings of a longer tag name. For example, the sequence * "</textarearug" should not match for "</textarea" even * though "textarea" is found within the text. */ $c = $html[ $at ]; if ( ' ' !== $c && "\t" !== $c && "\r" !== $c && "\n" !== $c && '/' !== $c && '>' !== $c ) { continue; } while ( $this->parse_next_attribute() ) { continue; } $at = $this->bytes_already_parsed; if ( $at >= strlen( $this->html ) ) { return false; } if ( '>' === $html[ $at ] ) { $this->bytes_already_parsed = $at + 1; return true; } if ( $at + 1 >= strlen( $this->html ) ) { return false; } if ( '/' === $html[ $at ] && '>' === $html[ $at + 1 ] ) { $this->bytes_already_parsed = $at + 2; return true; } } return false; } /** * Skips contents of script tags. * * @since 6.2.0 * * @return bool Whether the script tag was closed before the end of the document. */ private function skip_script_data() { $state = 'unescaped'; $html = $this->html; $doc_length = strlen( $html ); $at = $this->bytes_already_parsed; while ( false !== $at && $at < $doc_length ) { $at += strcspn( $html, '-<', $at ); /* * For all script states a "-->" transitions * back into the normal unescaped script mode, * even if that's the current state. */ if ( $at + 2 < $doc_length && '-' === $html[ $at ] && '-' === $html[ $at + 1 ] && '>' === $html[ $at + 2 ] ) { $at += 3; $state = 'unescaped'; continue; } // Everything of interest past here starts with "<". if ( $at + 1 >= $doc_length || '<' !== $html[ $at++ ] ) { continue; } /* * Unlike with "-->", the "<!--" only transitions * into the escaped mode if not already there. * * Inside the escaped modes it will be ignored; and * should never break out of the double-escaped * mode and back into the escaped mode. * * While this requires a mode change, it does not * impact the parsing otherwise, so continue * parsing after updating the state. */ if ( $at + 2 < $doc_length && '!' === $html[ $at ] && '-' === $html[ $at + 1 ] && '-' === $html[ $at + 2 ] ) { $at += 3; $state = 'unescaped' === $state ? 'escaped' : $state; continue; } if ( '/' === $html[ $at ] ) { $closer_potentially_starts_at = $at - 1; $is_closing = true; ++$at; } else { $is_closing = false; } /* * At this point the only remaining state-changes occur with the * <script> and </script> tags; unless one of these appears next, * proceed scanning to the next potential token in the text. */ if ( ! ( $at + 6 < $doc_length && ( 's' === $html[ $at ] || 'S' === $html[ $at ] ) && ( 'c' === $html[ $at + 1 ] || 'C' === $html[ $at + 1 ] ) && ( 'r' === $html[ $at + 2 ] || 'R' === $html[ $at + 2 ] ) && ( 'i' === $html[ $at + 3 ] || 'I' === $html[ $at + 3 ] ) && ( 'p' === $html[ $at + 4 ] || 'P' === $html[ $at + 4 ] ) && ( 't' === $html[ $at + 5 ] || 'T' === $html[ $at + 5 ] ) ) ) { ++$at; continue; } /* * Ensure that the script tag terminates to avoid matching on * substrings of a non-match. For example, the sequence * "<script123" should not end a script region even though * "<script" is found within the text. */ if ( $at + 6 >= $doc_length ) { continue; } $at += 6; $c = $html[ $at ]; if ( ' ' !== $c && "\t" !== $c && "\r" !== $c && "\n" !== $c && '/' !== $c && '>' !== $c ) { ++$at; continue; } if ( 'escaped' === $state && ! $is_closing ) { $state = 'double-escaped'; continue; } if ( 'double-escaped' === $state && $is_closing ) { $state = 'escaped'; continue; } if ( $is_closing ) { $this->bytes_already_parsed = $closer_potentially_starts_at; $this->tag_name_starts_at = $closer_potentially_starts_at; if ( $this->bytes_already_parsed >= $doc_length ) { return false; } while ( $this->parse_next_attribute() ) { continue; } if ( $this->bytes_already_parsed >= $doc_length ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; return false; } if ( '>' === $html[ $this->bytes_already_parsed ] ) { ++$this->bytes_already_parsed; return true; } } ++$at; } return false; } /** * Parses the next tag. * * This will find and start parsing the next tag, including * the opening `<`, the potential closer `/`, and the tag * name. It does not parse the attributes or scan to the * closing `>`; these are left for other methods. * * @since 6.2.0 * @since 6.2.1 Support abruptly-closed comments, invalid-tag-closer-comments, and empty elements. * * @return bool Whether a tag was found before the end of the document. */ private function parse_next_tag() { $this->after_tag(); $html = $this->html; $doc_length = strlen( $html ); $was_at = $this->bytes_already_parsed; $at = $was_at; while ( false !== $at && $at < $doc_length ) { $at = strpos( $html, '<', $at ); /* * This does not imply an incomplete parse; it indicates that there * can be nothing left in the document other than a #text node. */ if ( false === $at ) { $this->parser_state = self::STATE_TEXT_NODE; $this->token_starts_at = $was_at; $this->token_length = strlen( $html ) - $was_at; $this->text_starts_at = $was_at; $this->text_length = $this->token_length; $this->bytes_already_parsed = strlen( $html ); return true; } if ( $at > $was_at ) { /* * A "<" normally starts a new HTML tag or syntax token, but in cases where the * following character can't produce a valid token, the "<" is instead treated * as plaintext and the parser should skip over it. This avoids a problem when * following earlier practices of typing emoji with text, e.g. "<3". This * should be a heart, not a tag. It's supposed to be rendered, not hidden. * * At this point the parser checks if this is one of those cases and if it is * will continue searching for the next "<" in search of a token boundary. * * @see https://html.spec.whatwg.org/#tag-open-state */ if ( strlen( $html ) > $at + 1 ) { $next_character = $html[ $at + 1 ]; $at_another_node = ( '!' === $next_character || '/' === $next_character || '?' === $next_character || ( 'A' <= $next_character && $next_character <= 'Z' ) || ( 'a' <= $next_character && $next_character <= 'z' ) ); if ( ! $at_another_node ) { ++$at; continue; } } $this->parser_state = self::STATE_TEXT_NODE; $this->token_starts_at = $was_at; $this->token_length = $at - $was_at; $this->text_starts_at = $was_at; $this->text_length = $this->token_length; $this->bytes_already_parsed = $at; return true; } $this->token_starts_at = $at; if ( $at + 1 < $doc_length && '/' === $this->html[ $at + 1 ] ) { $this->is_closing_tag = true; ++$at; } else { $this->is_closing_tag = false; } /* * HTML tag names must start with [a-zA-Z] otherwise they are not tags. * For example, "<3" is rendered as text, not a tag opener. If at least * one letter follows the "<" then _it is_ a tag, but if the following * character is anything else it _is not a tag_. * * It's not uncommon to find non-tags starting with `<` in an HTML * document, so it's good for performance to make this pre-check before * continuing to attempt to parse a tag name. * * Reference: * * https://html.spec.whatwg.org/multipage/parsing.html#data-state * * https://html.spec.whatwg.org/multipage/parsing.html#tag-open-state */ $tag_name_prefix_length = strspn( $html, 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ', $at + 1 ); if ( $tag_name_prefix_length > 0 ) { ++$at; $this->parser_state = self::STATE_MATCHED_TAG; $this->tag_name_starts_at = $at; $this->tag_name_length = $tag_name_prefix_length + strcspn( $html, " \t\f\r\n/>", $at + $tag_name_prefix_length ); $this->bytes_already_parsed = $at + $this->tag_name_length; return true; } /* * Abort if no tag is found before the end of * the document. There is nothing left to parse. */ if ( $at + 1 >= $doc_length ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; return false; } /* * `<!` transitions to markup declaration open state * https://html.spec.whatwg.org/multipage/parsing.html#markup-declaration-open-state */ if ( '!' === $html[ $at + 1 ] ) { /* * `<!--` transitions to a comment state – apply further comment rules. * https://html.spec.whatwg.org/multipage/parsing.html#tag-open-state */ if ( $doc_length > $at + 3 && '-' === $html[ $at + 2 ] && '-' === $html[ $at + 3 ] ) { $closer_at = $at + 4; // If it's not possible to close the comment then there is nothing more to scan. if ( $doc_length <= $closer_at ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; return false; } // Abruptly-closed empty comments are a sequence of dashes followed by `>`. $span_of_dashes = strspn( $html, '-', $closer_at ); if ( '>' === $html[ $closer_at + $span_of_dashes ] ) { /* * @todo When implementing `set_modifiable_text()` ensure that updates to this token * don't break the syntax for short comments, e.g. `<!--->`. Unlike other comment * and bogus comment syntax, these leave no clear insertion point for text and * they need to be modified specially in order to contain text. E.g. to store * `?` as the modifiable text, the `<!--->` needs to become `<!--?-->`, which * involves inserting an additional `-` into the token after the modifiable text. */ $this->parser_state = self::STATE_COMMENT; $this->comment_type = self::COMMENT_AS_ABRUPTLY_CLOSED_COMMENT; $this->token_length = $closer_at + $span_of_dashes + 1 - $this->token_starts_at; // Only provide modifiable text if the token is long enough to contain it. if ( $span_of_dashes >= 2 ) { $this->comment_type = self::COMMENT_AS_HTML_COMMENT; $this->text_starts_at = $this->token_starts_at + 4; $this->text_length = $span_of_dashes - 2; } $this->bytes_already_parsed = $closer_at + $span_of_dashes + 1; return true; } /* * Comments may be closed by either a --> or an invalid --!>. * The first occurrence closes the comment. * * See https://html.spec.whatwg.org/#parse-error-incorrectly-closed-comment */ --$closer_at; // Pre-increment inside condition below reduces risk of accidental infinite looping. while ( ++$closer_at < $doc_length ) { $closer_at = strpos( $html, '--', $closer_at ); if ( false === $closer_at ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; return false; } if ( $closer_at + 2 < $doc_length && '>' === $html[ $closer_at + 2 ] ) { $this->parser_state = self::STATE_COMMENT; $this->comment_type = self::COMMENT_AS_HTML_COMMENT; $this->token_length = $closer_at + 3 - $this->token_starts_at; $this->text_starts_at = $this->token_starts_at + 4; $this->text_length = $closer_at - $this->text_starts_at; $this->bytes_already_parsed = $closer_at + 3; return true; } if ( $closer_at + 3 < $doc_length && '!' === $html[ $closer_at + 2 ] && '>' === $html[ $closer_at + 3 ] ) { $this->parser_state = self::STATE_COMMENT; $this->comment_type = self::COMMENT_AS_HTML_COMMENT; $this->token_length = $closer_at + 4 - $this->token_starts_at; $this->text_starts_at = $this->token_starts_at + 4; $this->text_length = $closer_at - $this->text_starts_at; $this->bytes_already_parsed = $closer_at + 4; return true; } } } /* * `<!DOCTYPE` transitions to DOCTYPE state – skip to the nearest > * These are ASCII-case-insensitive. * https://html.spec.whatwg.org/multipage/parsing.html#tag-open-state */ if ( $doc_length > $at + 8 && ( 'D' === $html[ $at + 2 ] || 'd' === $html[ $at + 2 ] ) && ( 'O' === $html[ $at + 3 ] || 'o' === $html[ $at + 3 ] ) && ( 'C' === $html[ $at + 4 ] || 'c' === $html[ $at + 4 ] ) && ( 'T' === $html[ $at + 5 ] || 't' === $html[ $at + 5 ] ) && ( 'Y' === $html[ $at + 6 ] || 'y' === $html[ $at + 6 ] ) && ( 'P' === $html[ $at + 7 ] || 'p' === $html[ $at + 7 ] ) && ( 'E' === $html[ $at + 8 ] || 'e' === $html[ $at + 8 ] ) ) { $closer_at = strpos( $html, '>', $at + 9 ); if ( false === $closer_at ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; return false; } $this->parser_state = self::STATE_DOCTYPE; $this->token_length = $closer_at + 1 - $this->token_starts_at; $this->text_starts_at = $this->token_starts_at + 9; $this->text_length = $closer_at - $this->text_starts_at; $this->bytes_already_parsed = $closer_at + 1; return true; } /* * Anything else here is an incorrectly-opened comment and transitions * to the bogus comment state - skip to the nearest >. If no closer is * found then the HTML was truncated inside the markup declaration. */ $closer_at = strpos( $html, '>', $at + 1 ); if ( false === $closer_at ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; return false; } $this->parser_state = self::STATE_COMMENT; $this->comment_type = self::COMMENT_AS_INVALID_HTML; $this->token_length = $closer_at + 1 - $this->token_starts_at; $this->text_starts_at = $this->token_starts_at + 2; $this->text_length = $closer_at - $this->text_starts_at; $this->bytes_already_parsed = $closer_at + 1; /* * Identify nodes that would be CDATA if HTML had CDATA sections. * * This section must occur after identifying the bogus comment end * because in an HTML parser it will span to the nearest `>`, even * if there's no `]]>` as would be required in an XML document. It * is therefore not possible to parse a CDATA section containing * a `>` in the HTML syntax. * * Inside foreign elements there is a discrepancy between browsers * and the specification on this. * * @todo Track whether the Tag Processor is inside a foreign element * and require the proper closing `]]>` in those cases. */ if ( $this->token_length >= 10 && '[' === $html[ $this->token_starts_at + 2 ] && 'C' === $html[ $this->token_starts_at + 3 ] && 'D' === $html[ $this->token_starts_at + 4 ] && 'A' === $html[ $this->token_starts_at + 5 ] && 'T' === $html[ $this->token_starts_at + 6 ] && 'A' === $html[ $this->token_starts_at + 7 ] && '[' === $html[ $this->token_starts_at + 8 ] && ']' === $html[ $closer_at - 1 ] && ']' === $html[ $closer_at - 2 ] ) { $this->parser_state = self::STATE_COMMENT; $this->comment_type = self::COMMENT_AS_CDATA_LOOKALIKE; $this->text_starts_at += 7; $this->text_length -= 9; } return true; } /* * </> is a missing end tag name, which is ignored. * * This was also known as the "presumptuous empty tag" * in early discussions as it was proposed to close * the nearest previous opening tag. * * See https://html.spec.whatwg.org/#parse-error-missing-end-tag-name */ if ( '>' === $html[ $at + 1 ] ) { $this->parser_state = self::STATE_PRESUMPTUOUS_TAG; $this->token_length = $at + 2 - $this->token_starts_at; $this->bytes_already_parsed = $at + 2; return true; } /* * `<?` transitions to a bogus comment state – skip to the nearest > * See https://html.spec.whatwg.org/multipage/parsing.html#tag-open-state */ if ( '?' === $html[ $at + 1 ] ) { $closer_at = strpos( $html, '>', $at + 2 ); if ( false === $closer_at ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; return false; } $this->parser_state = self::STATE_COMMENT; $this->comment_type = self::COMMENT_AS_INVALID_HTML; $this->token_length = $closer_at + 1 - $this->token_starts_at; $this->text_starts_at = $this->token_starts_at + 2; $this->text_length = $closer_at - $this->text_starts_at; $this->bytes_already_parsed = $closer_at + 1; /* * Identify a Processing Instruction node were HTML to have them. * * This section must occur after identifying the bogus comment end * because in an HTML parser it will span to the nearest `>`, even * if there's no `?>` as would be required in an XML document. It * is therefore not possible to parse a Processing Instruction node * containing a `>` in the HTML syntax. * * XML allows for more target names, but this code only identifies * those with ASCII-representable target names. This means that it * may identify some Processing Instruction nodes as bogus comments, * but it will not misinterpret the HTML structure. By limiting the * identification to these target names the Tag Processor can avoid * the need to start parsing UTF-8 sequences. * * > NameStartChar ::= ":" | [A-Z] | "_" | [a-z] | [#xC0-#xD6] | [#xD8-#xF6] | [#xF8-#x2FF] | * [#x370-#x37D] | [#x37F-#x1FFF] | [#x200C-#x200D] | [#x2070-#x218F] | * [#x2C00-#x2FEF] | [#x3001-#xD7FF] | [#xF900-#xFDCF] | [#xFDF0-#xFFFD] | * [#x10000-#xEFFFF] * > NameChar ::= NameStartChar | "-" | "." | [0-9] | #xB7 | [#x0300-#x036F] | [#x203F-#x2040] * * @see https://www.w3.org/TR/2006/REC-xml11-20060816/#NT-PITarget */ if ( $this->token_length >= 5 && '?' === $html[ $closer_at - 1 ] ) { $comment_text = substr( $html, $this->token_starts_at + 2, $this->token_length - 4 ); $pi_target_length = strspn( $comment_text, 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ:_' ); if ( 0 < $pi_target_length ) { $pi_target_length += strspn( $comment_text, 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789:_-.', $pi_target_length ); $this->comment_type = self::COMMENT_AS_PI_NODE_LOOKALIKE; $this->tag_name_starts_at = $this->token_starts_at + 2; $this->tag_name_length = $pi_target_length; $this->text_starts_at += $pi_target_length; $this->text_length -= $pi_target_length + 1; } } return true; } /* * If a non-alpha starts the tag name in a tag closer it's a comment. * Find the first `>`, which closes the comment. * * This parser classifies these particular comments as special "funky comments" * which are made available for further processing. * * See https://html.spec.whatwg.org/#parse-error-invalid-first-character-of-tag-name */ if ( $this->is_closing_tag ) { // No chance of finding a closer. if ( $at + 3 > $doc_length ) { return false; } $closer_at = strpos( $html, '>', $at + 3 ); if ( false === $closer_at ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; return false; } $this->parser_state = self::STATE_FUNKY_COMMENT; $this->token_length = $closer_at + 1 - $this->token_starts_at; $this->text_starts_at = $this->token_starts_at + 2; $this->text_length = $closer_at - $this->text_starts_at; $this->bytes_already_parsed = $closer_at + 1; return true; } ++$at; } return false; } /** * Parses the next attribute. * * @since 6.2.0 * * @return bool Whether an attribute was found before the end of the document. */ private function parse_next_attribute() { // Skip whitespace and slashes. $this->bytes_already_parsed += strspn( $this->html, " \t\f\r\n/", $this->bytes_already_parsed ); if ( $this->bytes_already_parsed >= strlen( $this->html ) ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; return false; } /* * Treat the equal sign as a part of the attribute * name if it is the first encountered byte. * * @see https://html.spec.whatwg.org/multipage/parsing.html#before-attribute-name-state */ $name_length = '=' === $this->html[ $this->bytes_already_parsed ] ? 1 + strcspn( $this->html, "=/> \t\f\r\n", $this->bytes_already_parsed + 1 ) : strcspn( $this->html, "=/> \t\f\r\n", $this->bytes_already_parsed ); // No attribute, just tag closer. if ( 0 === $name_length || $this->bytes_already_parsed + $name_length >= strlen( $this->html ) ) { return false; } $attribute_start = $this->bytes_already_parsed; $attribute_name = substr( $this->html, $attribute_start, $name_length ); $this->bytes_already_parsed += $name_length; if ( $this->bytes_already_parsed >= strlen( $this->html ) ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; return false; } $this->skip_whitespace(); if ( $this->bytes_already_parsed >= strlen( $this->html ) ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; return false; } $has_value = '=' === $this->html[ $this->bytes_already_parsed ]; if ( $has_value ) { ++$this->bytes_already_parsed; $this->skip_whitespace(); if ( $this->bytes_already_parsed >= strlen( $this->html ) ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; return false; } switch ( $this->html[ $this->bytes_already_parsed ] ) { case "'": case '"': $quote = $this->html[ $this->bytes_already_parsed ]; $value_start = $this->bytes_already_parsed + 1; $value_length = strcspn( $this->html, $quote, $value_start ); $attribute_end = $value_start + $value_length + 1; $this->bytes_already_parsed = $attribute_end; break; default: $value_start = $this->bytes_already_parsed; $value_length = strcspn( $this->html, "> \t\f\r\n", $value_start ); $attribute_end = $value_start + $value_length; $this->bytes_already_parsed = $attribute_end; } } else { $value_start = $this->bytes_already_parsed; $value_length = 0; $attribute_end = $attribute_start + $name_length; } if ( $attribute_end >= strlen( $this->html ) ) { $this->parser_state = self::STATE_INCOMPLETE_INPUT; return false; } if ( $this->is_closing_tag ) { return true; } /* * > There must never be two or more attributes on * > the same start tag whose names are an ASCII * > case-insensitive match for each other. * - HTML 5 spec * * @see https://html.spec.whatwg.org/multipage/syntax.html#attributes-2:ascii-case-insensitive */ $comparable_name = strtolower( $attribute_name ); // If an attribute is listed many times, only use the first declaration and ignore the rest. if ( ! array_key_exists( $comparable_name, $this->attributes ) ) { $this->attributes[ $comparable_name ] = new WP_HTML_Attribute_Token( $attribute_name, $value_start, $value_length, $attribute_start, $attribute_end - $attribute_start, ! $has_value ); return true; } /* * Track the duplicate attributes so if we remove it, all disappear together. * * While `$this->duplicated_attributes` could always be stored as an `array()`, * which would simplify the logic here, storing a `null` and only allocating * an array when encountering duplicates avoids needless allocations in the * normative case of parsing tags with no duplicate attributes. */ $duplicate_span = new WP_HTML_Span( $attribute_start, $attribute_end - $attribute_start ); if ( null === $this->duplicate_attributes ) { $this->duplicate_attributes = array( $comparable_name => array( $duplicate_span ) ); } elseif ( ! array_key_exists( $comparable_name, $this->duplicate_attributes ) ) { $this->duplicate_attributes[ $comparable_name ] = array( $duplicate_span ); } else { $this->duplicate_attributes[ $comparable_name ][] = $duplicate_span; } return true; } /** * Move the internal cursor past any immediate successive whitespace. * * @since 6.2.0 */ private function skip_whitespace() { $this->bytes_already_parsed += strspn( $this->html, " \t\f\r\n", $this->bytes_already_parsed ); } /** * Applies attribute updates and cleans up once a tag is fully parsed. * * @since 6.2.0 */ private function after_tag() { /* * There could be lexical updates enqueued for an attribute that * also exists on the next tag. In order to avoid conflating the * attributes across the two tags, lexical updates with names * need to be flushed to raw lexical updates. */ $this->class_name_updates_to_attributes_updates(); /* * Purge updates if there are too many. The actual count isn't * scientific, but a few values from 100 to a few thousand were * tests to find a practially-useful limit. * * If the update queue grows too big, then the Tag Processor * will spend more time iterating through them and lose the * efficiency gains of deferring applying them. */ if ( 1000 < count( $this->lexical_updates ) ) { $this->get_updated_html(); } foreach ( $this->lexical_updates as $name => $update ) { /* * Any updates appearing after the cursor should be applied * before proceeding, otherwise they may be overlooked. */ if ( $update->start >= $this->bytes_already_parsed ) { $this->get_updated_html(); break; } if ( is_int( $name ) ) { continue; } $this->lexical_updates[] = $update; unset( $this->lexical_updates[ $name ] ); } $this->token_starts_at = null; $this->token_length = null; $this->tag_name_starts_at = null; $this->tag_name_length = null; $this->text_starts_at = 0; $this->text_length = 0; $this->is_closing_tag = null; $this->attributes = array(); $this->comment_type = null; $this->duplicate_attributes = null; } /** * Converts class name updates into tag attributes updates * (they are accumulated in different data formats for performance). * * @since 6.2.0 * * @see WP_HTML_Tag_Processor::$lexical_updates * @see WP_HTML_Tag_Processor::$classname_updates */ private function class_name_updates_to_attributes_updates() { if ( count( $this->classname_updates ) === 0 ) { return; } $existing_class = $this->get_enqueued_attribute_value( 'class' ); if ( null === $existing_class || true === $existing_class ) { $existing_class = ''; } if ( false === $existing_class && isset( $this->attributes['class'] ) ) { $existing_class = substr( $this->html, $this->attributes['class']->value_starts_at, $this->attributes['class']->value_length ); } if ( false === $existing_class ) { $existing_class = ''; } /** * Updated "class" attribute value. * * This is incrementally built while scanning through the existing class * attribute, skipping removed classes on the way, and then appending * added classes at the end. Only when finished processing will the * value contain the final new value. * @var string $class */ $class = ''; /** * Tracks the cursor position in the existing * class attribute value while parsing. * * @var int $at */ $at = 0; /** * Indicates if there's any need to modify the existing class attribute. * * If a call to `add_class()` and `remove_class()` wouldn't impact * the `class` attribute value then there's no need to rebuild it. * For example, when adding a class that's already present or * removing one that isn't. * * This flag enables a performance optimization when none of the enqueued * class updates would impact the `class` attribute; namely, that the * processor can continue without modifying the input document, as if * none of the `add_class()` or `remove_class()` calls had been made. * * This flag is set upon the first change that requires a string update. * * @var bool $modified */ $modified = false; // Remove unwanted classes by only copying the new ones. $existing_class_length = strlen( $existing_class ); while ( $at < $existing_class_length ) { // Skip to the first non-whitespace character. $ws_at = $at; $ws_length = strspn( $existing_class, " \t\f\r\n", $ws_at ); $at += $ws_length; // Capture the class name – it's everything until the next whitespace. $name_length = strcspn( $existing_class, " \t\f\r\n", $at ); if ( 0 === $name_length ) { // If no more class names are found then that's the end. break; } $name = substr( $existing_class, $at, $name_length ); $at += $name_length; // If this class is marked for removal, start processing the next one. $remove_class = ( isset( $this->classname_updates[ $name ] ) && self::REMOVE_CLASS === $this->classname_updates[ $name ] ); // If a class has already been seen then skip it; it should not be added twice. if ( ! $remove_class ) { $this->classname_updates[ $name ] = self::SKIP_CLASS; } if ( $remove_class ) { $modified = true; continue; } /* * Otherwise, append it to the new "class" attribute value. * * There are options for handling whitespace between tags. * Preserving the existing whitespace produces fewer changes * to the HTML content and should clarify the before/after * content when debugging the modified output. * * This approach contrasts normalizing the inter-class * whitespace to a single space, which might appear cleaner * in the output HTML but produce a noisier change. */ $class .= substr( $existing_class, $ws_at, $ws_length ); $class .= $name; } // Add new classes by appending those which haven't already been seen. foreach ( $this->classname_updates as $name => $operation ) { if ( self::ADD_CLASS === $operation ) { $modified = true; $class .= strlen( $class ) > 0 ? ' ' : ''; $class .= $name; } } $this->classname_updates = array(); if ( ! $modified ) { return; } if ( strlen( $class ) > 0 ) { $this->set_attribute( 'class', $class ); } else { $this->remove_attribute( 'class' ); } } /** * Applies attribute updates to HTML document. * * @since 6.2.0 * @since 6.2.1 Accumulates shift for internal cursor and passed pointer. * @since 6.3.0 Invalidate any bookmarks whose targets are overwritten. * * @param int $shift_this_point Accumulate and return shift for this position. * @return int How many bytes the given pointer moved in response to the updates. */ private function apply_attributes_updates( $shift_this_point = 0 ) { if ( ! count( $this->lexical_updates ) ) { return 0; } $accumulated_shift_for_given_point = 0; /* * Attribute updates can be enqueued in any order but updates * to the document must occur in lexical order; that is, each * replacement must be made before all others which follow it * at later string indices in the input document. * * Sorting avoid making out-of-order replacements which * can lead to mangled output, partially-duplicated * attributes, and overwritten attributes. */ usort( $this->lexical_updates, array( self::class, 'sort_start_ascending' ) ); $bytes_already_copied = 0; $output_buffer = ''; foreach ( $this->lexical_updates as $diff ) { $shift = strlen( $diff->text ) - $diff->length; // Adjust the cursor position by however much an update affects it. if ( $diff->start < $this->bytes_already_parsed ) { $this->bytes_already_parsed += $shift; } // Accumulate shift of the given pointer within this function call. if ( $diff->start <= $shift_this_point ) { $accumulated_shift_for_given_point += $shift; } $output_buffer .= substr( $this->html, $bytes_already_copied, $diff->start - $bytes_already_copied ); $output_buffer .= $diff->text; $bytes_already_copied = $diff->start + $diff->length; } $this->html = $output_buffer . substr( $this->html, $bytes_already_copied ); /* * Adjust bookmark locations to account for how the text * replacements adjust offsets in the input document. */ foreach ( $this->bookmarks as $bookmark_name => $bookmark ) { $bookmark_end = $bookmark->start + $bookmark->length; /* * Each lexical update which appears before the bookmark's endpoints * might shift the offsets for those endpoints. Loop through each change * and accumulate the total shift for each bookmark, then apply that * shift after tallying the full delta. */ $head_delta = 0; $tail_delta = 0; foreach ( $this->lexical_updates as $diff ) { $diff_end = $diff->start + $diff->length; if ( $bookmark->start < $diff->start && $bookmark_end < $diff->start ) { break; } if ( $bookmark->start >= $diff->start && $bookmark_end < $diff_end ) { $this->release_bookmark( $bookmark_name ); continue 2; } $delta = strlen( $diff->text ) - $diff->length; if ( $bookmark->start >= $diff->start ) { $head_delta += $delta; } if ( $bookmark_end >= $diff_end ) { $tail_delta += $delta; } } $bookmark->start += $head_delta; $bookmark->length += $tail_delta - $head_delta; } $this->lexical_updates = array(); return $accumulated_shift_for_given_point; } /** * Checks whether a bookmark with the given name exists. * * @since 6.3.0 * * @param string $bookmark_name Name to identify a bookmark that potentially exists. * @return bool Whether that bookmark exists. */ public function has_bookmark( $bookmark_name ) { return array_key_exists( $bookmark_name, $this->bookmarks ); } /** * Move the internal cursor in the Tag Processor to a given bookmark's location. * * In order to prevent accidental infinite loops, there's a * maximum limit on the number of times seek() can be called. * * @since 6.2.0 * * @param string $bookmark_name Jump to the place in the document identified by this bookmark name. * @return bool Whether the internal cursor was successfully moved to the bookmark's location. */ public function seek( $bookmark_name ) { if ( ! array_key_exists( $bookmark_name, $this->bookmarks ) ) { _doing_it_wrong( __METHOD__, __( 'Unknown bookmark name.' ), '6.2.0' ); return false; } if ( ++$this->seek_count > static::MAX_SEEK_OPS ) { _doing_it_wrong( __METHOD__, __( 'Too many calls to seek() - this can lead to performance issues.' ), '6.2.0' ); return false; } // Flush out any pending updates to the document. $this->get_updated_html(); // Point this tag processor before the sought tag opener and consume it. $this->bytes_already_parsed = $this->bookmarks[ $bookmark_name ]->start; $this->parser_state = self::STATE_READY; return $this->next_token(); } /** * Compare two WP_HTML_Text_Replacement objects. * * @since 6.2.0 * * @param WP_HTML_Text_Replacement $a First attribute update. * @param WP_HTML_Text_Replacement $b Second attribute update. * @return int Comparison value for string order. */ private static function sort_start_ascending( $a, $b ) { $by_start = $a->start - $b->start; if ( 0 !== $by_start ) { return $by_start; } $by_text = isset( $a->text, $b->text ) ? strcmp( $a->text, $b->text ) : 0; if ( 0 !== $by_text ) { return $by_text; } /* * This code should be unreachable, because it implies the two replacements * start at the same location and contain the same text. */ return $a->length - $b->length; } /** * Return the enqueued value for a given attribute, if one exists. * * Enqueued updates can take different data types: * - If an update is enqueued and is boolean, the return will be `true` * - If an update is otherwise enqueued, the return will be the string value of that update. * - If an attribute is enqueued to be removed, the return will be `null` to indicate that. * - If no updates are enqueued, the return will be `false` to differentiate from "removed." * * @since 6.2.0 * * @param string $comparable_name The attribute name in its comparable form. * @return string|boolean|null Value of enqueued update if present, otherwise false. */ private function get_enqueued_attribute_value( $comparable_name ) { if ( self::STATE_MATCHED_TAG !== $this->parser_state ) { return false; } if ( ! isset( $this->lexical_updates[ $comparable_name ] ) ) { return false; } $enqueued_text = $this->lexical_updates[ $comparable_name ]->text; // Removed attributes erase the entire span. if ( '' === $enqueued_text ) { return null; } /* * Boolean attribute updates are just the attribute name without a corresponding value. * * This value might differ from the given comparable name in that there could be leading * or trailing whitespace, and that the casing follows the name given in `set_attribute`. * * Example: * * $p->set_attribute( 'data-TEST-id', 'update' ); * 'update' === $p->get_enqueued_attribute_value( 'data-test-id' ); * * Detect this difference based on the absence of the `=`, which _must_ exist in any * attribute containing a value, e.g. `<input type="text" enabled />`. * ¹ ² * 1. Attribute with a string value. * 2. Boolean attribute whose value is `true`. */ $equals_at = strpos( $enqueued_text, '=' ); if ( false === $equals_at ) { return true; } /* * Finally, a normal update's value will appear after the `=` and * be double-quoted, as performed incidentally by `set_attribute`. * * e.g. `type="text"` * ¹² ³ * 1. Equals is here. * 2. Double-quoting starts one after the equals sign. * 3. Double-quoting ends at the last character in the update. */ $enqueued_value = substr( $enqueued_text, $equals_at + 2, -1 ); return html_entity_decode( $enqueued_value ); } /** * Returns the value of a requested attribute from a matched tag opener if that attribute exists. * * Example: * * $p = new WP_HTML_Tag_Processor( '<div enabled class="test" data-test-id="14">Test</div>' ); * $p->next_tag( array( 'class_name' => 'test' ) ) === true; * $p->get_attribute( 'data-test-id' ) === '14'; * $p->get_attribute( 'enabled' ) === true; * $p->get_attribute( 'aria-label' ) === null; * * $p->next_tag() === false; * $p->get_attribute( 'class' ) === null; * * @since 6.2.0 * * @param string $name Name of attribute whose value is requested. * @return string|true|null Value of attribute or `null` if not available. Boolean attributes return `true`. */ public function get_attribute( $name ) { if ( self::STATE_MATCHED_TAG !== $this->parser_state ) { return null; } $comparable = strtolower( $name ); /* * For every attribute other than `class` it's possible to perform a quick check if * there's an enqueued lexical update whose value takes priority over what's found in * the input document. * * The `class` attribute is special though because of the exposed helpers `add_class` * and `remove_class`. These form a builder for the `class` attribute, so an additional * check for enqueued class changes is required in addition to the check for any enqueued * attribute values. If any exist, those enqueued class changes must first be flushed out * into an attribute value update. */ if ( 'class' === $name ) { $this->class_name_updates_to_attributes_updates(); } // Return any enqueued attribute value updates if they exist. $enqueued_value = $this->get_enqueued_attribute_value( $comparable ); if ( false !== $enqueued_value ) { return $enqueued_value; } if ( ! isset( $this->attributes[ $comparable ] ) ) { return null; } $attribute = $this->attributes[ $comparable ]; /* * This flag distinguishes an attribute with no value * from an attribute with an empty string value. For * unquoted attributes this could look very similar. * It refers to whether an `=` follows the name. * * e.g. <div boolean-attribute empty-attribute=></div> * ¹ ² * 1. Attribute `boolean-attribute` is `true`. * 2. Attribute `empty-attribute` is `""`. */ if ( true === $attribute->is_true ) { return true; } $raw_value = substr( $this->html, $attribute->value_starts_at, $attribute->value_length ); return html_entity_decode( $raw_value ); } /** * Gets lowercase names of all attributes matching a given prefix in the current tag. * * Note that matching is case-insensitive. This is in accordance with the spec: * * > There must never be two or more attributes on * > the same start tag whose names are an ASCII * > case-insensitive match for each other. * - HTML 5 spec * * Example: * * $p = new WP_HTML_Tag_Processor( '<div data-ENABLED class="test" DATA-test-id="14">Test</div>' ); * $p->next_tag( array( 'class_name' => 'test' ) ) === true; * $p->get_attribute_names_with_prefix( 'data-' ) === array( 'data-enabled', 'data-test-id' ); * * $p->next_tag() === false; * $p->get_attribute_names_with_prefix( 'data-' ) === null; * * @since 6.2.0 * * @see https://html.spec.whatwg.org/multipage/syntax.html#attributes-2:ascii-case-insensitive * * @param string $prefix Prefix of requested attribute names. * @return array|null List of attribute names, or `null` when no tag opener is matched. */ public function get_attribute_names_with_prefix( $prefix ) { if ( self::STATE_MATCHED_TAG !== $this->parser_state || $this->is_closing_tag ) { return null; } $comparable = strtolower( $prefix ); $matches = array(); foreach ( array_keys( $this->attributes ) as $attr_name ) { if ( str_starts_with( $attr_name, $comparable ) ) { $matches[] = $attr_name; } } return $matches; } /** * Returns the uppercase name of the matched tag. * * Example: * * $p = new WP_HTML_Tag_Processor( '<div class="test">Test</div>' ); * $p->next_tag() === true; * $p->get_tag() === 'DIV'; * * $p->next_tag() === false; * $p->get_tag() === null; * * @since 6.2.0 * * @return string|null Name of currently matched tag in input HTML, or `null` if none found. */ public function get_tag() { if ( null === $this->tag_name_starts_at ) { return null; } $tag_name = substr( $this->html, $this->tag_name_starts_at, $this->tag_name_length ); if ( self::STATE_MATCHED_TAG === $this->parser_state ) { return strtoupper( $tag_name ); } if ( self::STATE_COMMENT === $this->parser_state && self::COMMENT_AS_PI_NODE_LOOKALIKE === $this->get_comment_type() ) { return $tag_name; } return null; } /** * Indicates if the currently matched tag contains the self-closing flag. * * No HTML elements ought to have the self-closing flag and for those, the self-closing * flag will be ignored. For void elements this is benign because they "self close" * automatically. For non-void HTML elements though problems will appear if someone * intends to use a self-closing element in place of that element with an empty body. * For HTML foreign elements and custom elements the self-closing flag determines if * they self-close or not. * * This function does not determine if a tag is self-closing, * but only if the self-closing flag is present in the syntax. * * @since 6.3.0 * * @return bool Whether the currently matched tag contains the self-closing flag. */ public function has_self_closing_flag() { if ( self::STATE_MATCHED_TAG !== $this->parser_state ) { return false; } /* * The self-closing flag is the solidus at the _end_ of the tag, not the beginning. * * Example: * * <figure /> * ^ this appears one character before the end of the closing ">". */ return '/' === $this->html[ $this->token_starts_at + $this->token_length - 1 ]; } /** * Indicates if the current tag token is a tag closer. * * Example: * * $p = new WP_HTML_Tag_Processor( '<div></div>' ); * $p->next_tag( array( 'tag_name' => 'div', 'tag_closers' => 'visit' ) ); * $p->is_tag_closer() === false; * * $p->next_tag( array( 'tag_name' => 'div', 'tag_closers' => 'visit' ) ); * $p->is_tag_closer() === true; * * @since 6.2.0 * * @return bool Whether the current tag is a tag closer. */ public function is_tag_closer() { return ( self::STATE_MATCHED_TAG === $this->parser_state && $this->is_closing_tag ); } /** * Indicates the kind of matched token, if any. * * This differs from `get_token_name()` in that it always * returns a static string indicating the type, whereas * `get_token_name()` may return values derived from the * token itself, such as a tag name or processing * instruction tag. * * Possible values: * - `#tag` when matched on a tag. * - `#text` when matched on a text node. * - `#cdata-section` when matched on a CDATA node. * - `#comment` when matched on a comment. * - `#doctype` when matched on a DOCTYPE declaration. * - `#presumptuous-tag` when matched on an empty tag closer. * - `#funky-comment` when matched on a funky comment. * * @since 6.5.0 * * @return string|null What kind of token is matched, or null. */ public function get_token_type() { switch ( $this->parser_state ) { case self::STATE_MATCHED_TAG: return '#tag'; case self::STATE_DOCTYPE: return '#doctype'; default: return $this->get_token_name(); } } /** * Returns the node name represented by the token. * * This matches the DOM API value `nodeName`. Some values * are static, such as `#text` for a text node, while others * are dynamically generated from the token itself. * * Dynamic names: * - Uppercase tag name for tag matches. * - `html` for DOCTYPE declarations. * * Note that if the Tag Processor is not matched on a token * then this function will return `null`, either because it * hasn't yet found a token or because it reached the end * of the document without matching a token. * * @since 6.5.0 * * @return string|null Name of the matched token. */ public function get_token_name() { switch ( $this->parser_state ) { case self::STATE_MATCHED_TAG: return $this->get_tag(); case self::STATE_TEXT_NODE: return '#text'; case self::STATE_CDATA_NODE: return '#cdata-section'; case self::STATE_COMMENT: return '#comment'; case self::STATE_DOCTYPE: return 'html'; case self::STATE_PRESUMPTUOUS_TAG: return '#presumptuous-tag'; case self::STATE_FUNKY_COMMENT: return '#funky-comment'; } } /** * Indicates what kind of comment produced the comment node. * * Because there are different kinds of HTML syntax which produce * comments, the Tag Processor tracks and exposes this as a type * for the comment. Nominally only regular HTML comments exist as * they are commonly known, but a number of unrelated syntax errors * also produce comments. * * @see self::COMMENT_AS_ABRUPTLY_CLOSED_COMMENT * @see self::COMMENT_AS_CDATA_LOOKALIKE * @see self::COMMENT_AS_INVALID_HTML * @see self::COMMENT_AS_HTML_COMMENT * @see self::COMMENT_AS_PI_NODE_LOOKALIKE * * @since 6.5.0 * * @return string|null */ public function get_comment_type() { if ( self::STATE_COMMENT !== $this->parser_state ) { return null; } return $this->comment_type; } /** * Returns the modifiable text for a matched token, or an empty string. * * Modifiable text is text content that may be read and changed without * changing the HTML structure of the document around it. This includes * the contents of `#text` nodes in the HTML as well as the inner * contents of HTML comments, Processing Instructions, and others, even * though these nodes aren't part of a parsed DOM tree. They also contain * the contents of SCRIPT and STYLE tags, of TEXTAREA tags, and of any * other section in an HTML document which cannot contain HTML markup (DATA). * * If a token has no modifiable text then an empty string is returned to * avoid needless crashing or type errors. An empty string does not mean * that a token has modifiable text, and a token with modifiable text may * have an empty string (e.g. a comment with no contents). * * @since 6.5.0 * * @return string */ public function get_modifiable_text() { if ( null === $this->text_starts_at ) { return ''; } $text = substr( $this->html, $this->text_starts_at, $this->text_length ); // Comment data is not decoded. if ( self::STATE_CDATA_NODE === $this->parser_state || self::STATE_COMMENT === $this->parser_state || self::STATE_DOCTYPE === $this->parser_state || self::STATE_FUNKY_COMMENT === $this->parser_state ) { return $text; } $tag_name = $this->get_tag(); if ( // Script data is not decoded. 'SCRIPT' === $tag_name || // RAWTEXT data is not decoded. 'IFRAME' === $tag_name || 'NOEMBED' === $tag_name || 'NOFRAMES' === $tag_name || 'STYLE' === $tag_name || 'XMP' === $tag_name ) { return $text; } $decoded = html_entity_decode( $text, ENT_QUOTES | ENT_HTML5 | ENT_SUBSTITUTE ); /* * TEXTAREA skips a leading newline, but this newline may appear not only as the * literal character `\n`, but also as a character reference, such as in the * following markup: `<textarea>
Content</textarea>`. * * For these cases it's important to first decode the text content before checking * for a leading newline and removing it. */ if ( self::STATE_MATCHED_TAG === $this->parser_state && 'TEXTAREA' === $tag_name && strlen( $decoded ) > 0 && "\n" === $decoded[0] ) { return substr( $decoded, 1 ); } return $decoded; } /** * Updates or creates a new attribute on the currently matched tag with the passed value. * * For boolean attributes special handling is provided: * - When `true` is passed as the value, then only the attribute name is added to the tag. * - When `false` is passed, the attribute gets removed if it existed before. * * For string attributes, the value is escaped using the `esc_attr` function. * * @since 6.2.0 * @since 6.2.1 Fix: Only create a single update for multiple calls with case-variant attribute names. * * @param string $name The attribute name to target. * @param string|bool $value The new attribute value. * @return bool Whether an attribute value was set. */ public function set_attribute( $name, $value ) { if ( self::STATE_MATCHED_TAG !== $this->parser_state || $this->is_closing_tag ) { return false; } /* * WordPress rejects more characters than are strictly forbidden * in HTML5. This is to prevent additional security risks deeper * in the WordPress and plugin stack. Specifically the * less-than (<) greater-than (>) and ampersand (&) aren't allowed. * * The use of a PCRE match enables looking for specific Unicode * code points without writing a UTF-8 decoder. Whereas scanning * for one-byte characters is trivial (with `strcspn`), scanning * for the longer byte sequences would be more complicated. Given * that this shouldn't be in the hot path for execution, it's a * reasonable compromise in efficiency without introducing a * noticeable impact on the overall system. * * @see https://html.spec.whatwg.org/#attributes-2 * * @todo As the only regex pattern maybe we should take it out? * Are Unicode patterns available broadly in Core? */ if ( preg_match( '~[' . // Syntax-like characters. '"\'>&</ =' . // Control characters. '\x{00}-\x{1F}' . // HTML noncharacters. '\x{FDD0}-\x{FDEF}' . '\x{FFFE}\x{FFFF}\x{1FFFE}\x{1FFFF}\x{2FFFE}\x{2FFFF}\x{3FFFE}\x{3FFFF}' . '\x{4FFFE}\x{4FFFF}\x{5FFFE}\x{5FFFF}\x{6FFFE}\x{6FFFF}\x{7FFFE}\x{7FFFF}' . '\x{8FFFE}\x{8FFFF}\x{9FFFE}\x{9FFFF}\x{AFFFE}\x{AFFFF}\x{BFFFE}\x{BFFFF}' . '\x{CFFFE}\x{CFFFF}\x{DFFFE}\x{DFFFF}\x{EFFFE}\x{EFFFF}\x{FFFFE}\x{FFFFF}' . '\x{10FFFE}\x{10FFFF}' . ']~Ssu', $name ) ) { _doing_it_wrong( __METHOD__, __( 'Invalid attribute name.' ), '6.2.0' ); return false; } /* * > The values "true" and "false" are not allowed on boolean attributes. * > To represent a false value, the attribute has to be omitted altogether. * - HTML5 spec, https://html.spec.whatwg.org/#boolean-attributes */ if ( false === $value ) { return $this->remove_attribute( $name ); } if ( true === $value ) { $updated_attribute = $name; } else { $comparable_name = strtolower( $name ); /* * Escape URL attributes. * * @see https://html.spec.whatwg.org/#attributes-3 */ $escaped_new_value = in_array( $comparable_name, wp_kses_uri_attributes() ) ? esc_url( $value ) : esc_attr( $value ); $updated_attribute = "{$name}=\"{$escaped_new_value}\""; } /* * > There must never be two or more attributes on * > the same start tag whose names are an ASCII * > case-insensitive match for each other. * - HTML 5 spec * * @see https://html.spec.whatwg.org/multipage/syntax.html#attributes-2:ascii-case-insensitive */ $comparable_name = strtolower( $name ); if ( isset( $this->attributes[ $comparable_name ] ) ) { /* * Update an existing attribute. * * Example – set attribute id to "new" in <div id="initial_id" />: * * <div id="initial_id"/> * ^-------------^ * start end * replacement: `id="new"` * * Result: <div id="new"/> */ $existing_attribute = $this->attributes[ $comparable_name ]; $this->lexical_updates[ $comparable_name ] = new WP_HTML_Text_Replacement( $existing_attribute->start, $existing_attribute->length, $updated_attribute ); } else { /* * Create a new attribute at the tag's name end. * * Example – add attribute id="new" to <div />: * * <div/> * ^ * start and end * replacement: ` id="new"` * * Result: <div id="new"/> */ $this->lexical_updates[ $comparable_name ] = new WP_HTML_Text_Replacement( $this->tag_name_starts_at + $this->tag_name_length, 0, ' ' . $updated_attribute ); } /* * Any calls to update the `class` attribute directly should wipe out any * enqueued class changes from `add_class` and `remove_class`. */ if ( 'class' === $comparable_name && ! empty( $this->classname_updates ) ) { $this->classname_updates = array(); } return true; } /** * Remove an attribute from the currently-matched tag. * * @since 6.2.0 * * @param string $name The attribute name to remove. * @return bool Whether an attribute was removed. */ public function remove_attribute( $name ) { if ( self::STATE_MATCHED_TAG !== $this->parser_state || $this->is_closing_tag ) { return false; } /* * > There must never be two or more attributes on * > the same start tag whose names are an ASCII * > case-insensitive match for each other. * - HTML 5 spec * * @see https://html.spec.whatwg.org/multipage/syntax.html#attributes-2:ascii-case-insensitive */ $name = strtolower( $name ); /* * Any calls to update the `class` attribute directly should wipe out any * enqueued class changes from `add_class` and `remove_class`. */ if ( 'class' === $name && count( $this->classname_updates ) !== 0 ) { $this->classname_updates = array(); } /* * If updating an attribute that didn't exist in the input * document, then remove the enqueued update and move on. * * For example, this might occur when calling `remove_attribute()` * after calling `set_attribute()` for the same attribute * and when that attribute wasn't originally present. */ if ( ! isset( $this->attributes[ $name ] ) ) { if ( isset( $this->lexical_updates[ $name ] ) ) { unset( $this->lexical_updates[ $name ] ); } return false; } /* * Removes an existing tag attribute. * * Example – remove the attribute id from <div id="main"/>: * <div id="initial_id"/> * ^-------------^ * start end * replacement: `` * * Result: <div /> */ $this->lexical_updates[ $name ] = new WP_HTML_Text_Replacement( $this->attributes[ $name ]->start, $this->attributes[ $name ]->length, '' ); // Removes any duplicated attributes if they were also present. if ( null !== $this->duplicate_attributes && array_key_exists( $name, $this->duplicate_attributes ) ) { foreach ( $this->duplicate_attributes[ $name ] as $attribute_token ) { $this->lexical_updates[] = new WP_HTML_Text_Replacement( $attribute_token->start, $attribute_token->length, '' ); } } return true; } /** * Adds a new class name to the currently matched tag. * * @since 6.2.0 * * @param string $class_name The class name to add. * @return bool Whether the class was set to be added. */ public function add_class( $class_name ) { if ( self::STATE_MATCHED_TAG !== $this->parser_state || $this->is_closing_tag ) { return false; } $this->classname_updates[ $class_name ] = self::ADD_CLASS; return true; } /** * Removes a class name from the currently matched tag. * * @since 6.2.0 * * @param string $class_name The class name to remove. * @return bool Whether the class was set to be removed. */ public function remove_class( $class_name ) { if ( self::STATE_MATCHED_TAG !== $this->parser_state || $this->is_closing_tag ) { return false; } if ( null !== $this->tag_name_starts_at ) { $this->classname_updates[ $class_name ] = self::REMOVE_CLASS; } return true; } /** * Returns the string representation of the HTML Tag Processor. * * @since 6.2.0 * * @see WP_HTML_Tag_Processor::get_updated_html() * * @return string The processed HTML. */ public function __toString() { return $this->get_updated_html(); } /** * Returns the string representation of the HTML Tag Processor. * * @since 6.2.0 * @since 6.2.1 Shifts the internal cursor corresponding to the applied updates. * @since 6.4.0 No longer calls subclass method `next_tag()` after updating HTML. * * @return string The processed HTML. */ public function get_updated_html() { $requires_no_updating = 0 === count( $this->classname_updates ) && 0 === count( $this->lexical_updates ); /* * When there is nothing more to update and nothing has already been * updated, return the original document and avoid a string copy. */ if ( $requires_no_updating ) { return $this->html; } /* * Keep track of the position right before the current tag. This will * be necessary for reparsing the current tag after updating the HTML. */ $before_current_tag = $this->token_starts_at; /* * 1. Apply the enqueued edits and update all the pointers to reflect those changes. */ $this->class_name_updates_to_attributes_updates(); $before_current_tag += $this->apply_attributes_updates( $before_current_tag ); /* * 2. Rewind to before the current tag and reparse to get updated attributes. * * At this point the internal cursor points to the end of the tag name. * Rewind before the tag name starts so that it's as if the cursor didn't * move; a call to `next_tag()` will reparse the recently-updated attributes * and additional calls to modify the attributes will apply at this same * location, but in order to avoid issues with subclasses that might add * behaviors to `next_tag()`, the internal methods should be called here * instead. * * It's important to note that in this specific place there will be no change * because the processor was already at a tag when this was called and it's * rewinding only to the beginning of this very tag before reprocessing it * and its attributes. * * <p>Previous HTML<em>More HTML</em></p> * ↑ │ back up by the length of the tag name plus the opening < * └←─┘ back up by strlen("em") + 1 ==> 3 */ $this->bytes_already_parsed = $before_current_tag; $this->base_class_next_token(); return $this->html; } /** * Parses tag query input into internal search criteria. * * @since 6.2.0 * * @param array|string|null $query { * Optional. Which tag name to find, having which class, etc. Default is to find any tag. * * @type string|null $tag_name Which tag to find, or `null` for "any tag." * @type int|null $match_offset Find the Nth tag matching all search criteria. * 1 for "first" tag, 3 for "third," etc. * Defaults to first tag. * @type string|null $class_name Tag must contain this class name to match. * @type string $tag_closers "visit" or "skip": whether to stop on tag closers, e.g. </div>. * } */ private function parse_query( $query ) { if ( null !== $query && $query === $this->last_query ) { return; } $this->last_query = $query; $this->sought_tag_name = null; $this->sought_class_name = null; $this->sought_match_offset = 1; $this->stop_on_tag_closers = false; // A single string value means "find the tag of this name". if ( is_string( $query ) ) { $this->sought_tag_name = $query; return; } // An empty query parameter applies no restrictions on the search. if ( null === $query ) { return; } // If not using the string interface, an associative array is required. if ( ! is_array( $query ) ) { _doing_it_wrong( __METHOD__, __( 'The query argument must be an array or a tag name.' ), '6.2.0' ); return; } if ( isset( $query['tag_name'] ) && is_string( $query['tag_name'] ) ) { $this->sought_tag_name = $query['tag_name']; } if ( isset( $query['class_name'] ) && is_string( $query['class_name'] ) ) { $this->sought_class_name = $query['class_name']; } if ( isset( $query['match_offset'] ) && is_int( $query['match_offset'] ) && 0 < $query['match_offset'] ) { $this->sought_match_offset = $query['match_offset']; } if ( isset( $query['tag_closers'] ) ) { $this->stop_on_tag_closers = 'visit' === $query['tag_closers']; } } /** * Checks whether a given tag and its attributes match the search criteria. * * @since 6.2.0 * * @return bool Whether the given tag and its attribute match the search criteria. */ private function matches() { if ( $this->is_closing_tag && ! $this->stop_on_tag_closers ) { return false; } // Does the tag name match the requested tag name in a case-insensitive manner? if ( null !== $this->sought_tag_name ) { /* * String (byte) length lookup is fast. If they aren't the * same length then they can't be the same string values. */ if ( strlen( $this->sought_tag_name ) !== $this->tag_name_length ) { return false; } /* * Check each character to determine if they are the same. * Defer calls to `strtoupper()` to avoid them when possible. * Calling `strcasecmp()` here tested slowed than comparing each * character, so unless benchmarks show otherwise, it should * not be used. * * It's expected that most of the time that this runs, a * lower-case tag name will be supplied and the input will * contain lower-case tag names, thus normally bypassing * the case comparison code. */ for ( $i = 0; $i < $this->tag_name_length; $i++ ) { $html_char = $this->html[ $this->tag_name_starts_at + $i ]; $tag_char = $this->sought_tag_name[ $i ]; if ( $html_char !== $tag_char && strtoupper( $html_char ) !== $tag_char ) { return false; } } } if ( null !== $this->sought_class_name && ! $this->has_class( $this->sought_class_name ) ) { return false; } return true; } /** * Parser Ready State. * * Indicates that the parser is ready to run and waiting for a state transition. * It may not have started yet, or it may have just finished parsing a token and * is ready to find the next one. * * @since 6.5.0 * * @access private */ const STATE_READY = 'STATE_READY'; /** * Parser Complete State. * * Indicates that the parser has reached the end of the document and there is * nothing left to scan. It finished parsing the last token completely. * * @since 6.5.0 * * @access private */ const STATE_COMPLETE = 'STATE_COMPLETE'; /** * Parser Incomplete Input State. * * Indicates that the parser has reached the end of the document before finishing * a token. It started parsing a token but there is a possibility that the input * HTML document was truncated in the middle of a token. * * The parser is reset at the start of the incomplete token and has paused. There * is nothing more than can be scanned unless provided a more complete document. * * @since 6.5.0 * * @access private */ const STATE_INCOMPLETE_INPUT = 'STATE_INCOMPLETE_INPUT'; /** * Parser Matched Tag State. * * Indicates that the parser has found an HTML tag and it's possible to get * the tag name and read or modify its attributes (if it's not a closing tag). * * @since 6.5.0 * * @access private */ const STATE_MATCHED_TAG = 'STATE_MATCHED_TAG'; /** * Parser Text Node State. * * Indicates that the parser has found a text node and it's possible * to read and modify that text. * * @since 6.5.0 * * @access private */ const STATE_TEXT_NODE = 'STATE_TEXT_NODE'; /** * Parser CDATA Node State. * * Indicates that the parser has found a CDATA node and it's possible * to read and modify its modifiable text. Note that in HTML there are * no CDATA nodes outside of foreign content (SVG and MathML). Outside * of foreign content, they are treated as HTML comments. * * @since 6.5.0 * * @access private */ const STATE_CDATA_NODE = 'STATE_CDATA_NODE'; /** * Indicates that the parser has found an HTML comment and it's * possible to read and modify its modifiable text. * * @since 6.5.0 * * @access private */ const STATE_COMMENT = 'STATE_COMMENT'; /** * Indicates that the parser has found a DOCTYPE node and it's * possible to read and modify its modifiable text. * * @since 6.5.0 * * @access private */ const STATE_DOCTYPE = 'STATE_DOCTYPE'; /** * Indicates that the parser has found an empty tag closer `</>`. * * Note that in HTML there are no empty tag closers, and they * are ignored. Nonetheless, the Tag Processor still * recognizes them as they appear in the HTML stream. * * These were historically discussed as a "presumptuous tag * closer," which would close the nearest open tag, but were * dismissed in favor of explicitly-closing tags. * * @since 6.5.0 * * @access private */ const STATE_PRESUMPTUOUS_TAG = 'STATE_PRESUMPTUOUS_TAG'; /** * Indicates that the parser has found a "funky comment" * and it's possible to read and modify its modifiable text. * * Example: * * </%url> * </{"wp-bit":"query/post-author"}> * </2> * * Funky comments are tag closers with invalid tag names. Note * that in HTML these are turn into bogus comments. Nonetheless, * the Tag Processor recognizes them in a stream of HTML and * exposes them for inspection and modification. * * @since 6.5.0 * * @access private */ const STATE_FUNKY_COMMENT = 'STATE_WP_FUNKY'; /** * Indicates that a comment was created when encountering abruptly-closed HTML comment. * * Example: * * <!--> * <!---> * * @since 6.5.0 */ const COMMENT_AS_ABRUPTLY_CLOSED_COMMENT = 'COMMENT_AS_ABRUPTLY_CLOSED_COMMENT'; /** * Indicates that a comment would be parsed as a CDATA node, * were HTML to allow CDATA nodes outside of foreign content. * * Example: * * <![CDATA[This is a CDATA node.]]> * * This is an HTML comment, but it looks like a CDATA node. * * @since 6.5.0 */ const COMMENT_AS_CDATA_LOOKALIKE = 'COMMENT_AS_CDATA_LOOKALIKE'; /** * Indicates that a comment was created when encountering * normative HTML comment syntax. * * Example: * * <!-- this is a comment --> * * @since 6.5.0 */ const COMMENT_AS_HTML_COMMENT = 'COMMENT_AS_HTML_COMMENT'; /** * Indicates that a comment would be parsed as a Processing * Instruction node, were they to exist within HTML. * * Example: * * <?wp __( 'Like' ) ?> * * This is an HTML comment, but it looks like a CDATA node. * * @since 6.5.0 */ const COMMENT_AS_PI_NODE_LOOKALIKE = 'COMMENT_AS_PI_NODE_LOOKALIKE'; /** * Indicates that a comment was created when encountering invalid * HTML input, a so-called "bogus comment." * * Example: * * <?nothing special> * <!{nothing special}> * * @since 6.5.0 */ const COMMENT_AS_INVALID_HTML = 'COMMENT_AS_INVALID_HTML'; }