UNPKG

html-dom-parser

Version:

HTML to DOM parser.

github.com/remarkablemark/html-dom-parser

remarkablemark/html-dom-parser

396 lines (389 loc) • 194 kB

JavaScript

(function (global, factory) { typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) : typeof define === 'function' && define.amd ? define(['exports'], factory) : (global = typeof globalThis !== 'undefined' ? globalThis : global || self, factory(global.htmlparser2 = {})); })(this, (function (exports) { 'use strict'; // Adapted from https://github.com/mathiasbynens/he/blob/36afe179392226cf1b6ccdb16ebbb7a5a844d93a/src/he.js#L106-L134 const decodeMap = new Map([ [0, 65_533], // C1 Unicode control character reference replacements [128, 8364], [130, 8218], [131, 402], [132, 8222], [133, 8230], [134, 8224], [135, 8225], [136, 710], [137, 8240], [138, 352], [139, 8249], [140, 338], [142, 381], [145, 8216], [146, 8217], [147, 8220], [148, 8221], [149, 8226], [150, 8211], [151, 8212], [152, 732], [153, 8482], [154, 353], [155, 8250], [156, 339], [158, 382], [159, 376], ]); /** * Replace the given code point with a replacement character if it is a * surrogate or is outside the valid range. Otherwise return the code * point unchanged. * @param codePoint Unicode code point to convert. */ function replaceCodePoint(codePoint) { if ((codePoint >= 0xd8_00 && codePoint <= 0xdf_ff) || codePoint > 0x10_ff_ff) { return 0xff_fd; } return decodeMap.get(codePoint) ?? codePoint; } /** * Shared base64 decode helper for generated decode data. * Assumes global atob is available. * @param input Input string to encode or decode. */ function decodeBase64(input) { const binary = atob(input); const evenLength = binary.length & -2; // Round down to even length const out = new Uint16Array(evenLength / 2); for (let index = 0, outIndex = 0; index < evenLength; index += 2) { const lo = binary.charCodeAt(index); const hi = binary.charCodeAt(index + 1); out[outIndex++] = lo | (hi << 8); } return out; } // Generated using scripts/write-decode-map.ts /** Packed HTML decode trie data. */ const htmlDecodeTree = /* #__PURE__ */ decodeBase64("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"); // Generated using scripts/write-decode-map.ts /** Packed XML decode trie data. */ const xmlDecodeTree = /* #__PURE__ */ decodeBase64("AAJhZ2xxBwARABMAFQBtAg0AAAAAAA8AcAAmYG8AcwAnYHQAPmB0ADxg9SFvdCJg"); /** * Bit flags & masks for the binary trie encoding used for entity decoding. * * Bit layout (16 bits total): * 15..14 VALUE_LENGTH (+1 encoding; 0 => no value) * 13 FLAG13. If valueLength>0: semicolon required flag (implicit ';'). * If valueLength==0: compact run flag. * 12..7 BRANCH_LENGTH Branch length (0 => single branch in 6..0 if jumpOffset==char) OR run length (when compact run) * 6..0 JUMP_TABLE Jump offset (jump table) OR single-branch char code OR first run char */ var BinTrieFlags; (function (BinTrieFlags) { BinTrieFlags[BinTrieFlags["VALUE_LENGTH"] = 49152] = "VALUE_LENGTH"; BinTrieFlags[BinTrieFlags["FLAG13"] = 8192] = "FLAG13"; BinTrieFlags[BinTrieFlags["BRANCH_LENGTH"] = 8064] = "BRANCH_LENGTH"; BinTrieFlags[BinTrieFlags["JUMP_TABLE"] = 127] = "JUMP_TABLE"; })(BinTrieFlags || (BinTrieFlags = {})); var CharCodes$1; (function (CharCodes) { CharCodes[CharCodes["NUM"] = 35] = "NUM"; CharCodes[CharCodes["SEMI"] = 59] = "SEMI"; CharCodes[CharCodes["EQUALS"] = 61] = "EQUALS"; CharCodes[CharCodes["ZERO"] = 48] = "ZERO"; CharCodes[CharCodes["NINE"] = 57] = "NINE"; CharCodes[CharCodes["LOWER_A"] = 97] = "LOWER_A"; CharCodes[CharCodes["LOWER_F"] = 102] = "LOWER_F"; CharCodes[CharCodes["LOWER_X"] = 120] = "LOWER_X"; CharCodes[CharCodes["LOWER_Z"] = 122] = "LOWER_Z"; CharCodes[CharCodes["UPPER_A"] = 65] = "UPPER_A"; CharCodes[CharCodes["UPPER_F"] = 70] = "UPPER_F"; CharCodes[CharCodes["UPPER_Z"] = 90] = "UPPER_Z"; })(CharCodes$1 || (CharCodes$1 = {})); /** Bit that needs to be set to convert an upper case ASCII character to lower case */ const TO_LOWER_BIT = 0b10_0000; function isNumber(code) { return code >= CharCodes$1.ZERO && code <= CharCodes$1.NINE; } function isHexadecimalCharacter(code) { return ((code >= CharCodes$1.UPPER_A && code <= CharCodes$1.UPPER_F) || (code >= CharCodes$1.LOWER_A && code <= CharCodes$1.LOWER_F)); } function isAsciiAlphaNumeric(code) { return ((code >= CharCodes$1.UPPER_A && code <= CharCodes$1.UPPER_Z) || (code >= CharCodes$1.LOWER_A && code <= CharCodes$1.LOWER_Z) || isNumber(code)); } /** * Checks if the given character is a valid end character for an entity in an attribute. * * Attribute values that aren't terminated properly aren't parsed, and shouldn't lead to a parser error. * See the example in https://html.spec.whatwg.org/multipage/parsing.html#named-character-reference-state * @param code Code point to decode. */ function isEntityInAttributeInvalidEnd(code) { return code === CharCodes$1.EQUALS || isAsciiAlphaNumeric(code); } var EntityDecoderState; (function (EntityDecoderState) { EntityDecoderState[EntityDecoderState["EntityStart"] = 0] = "EntityStart"; EntityDecoderState[EntityDecoderState["NumericStart"] = 1] = "NumericStart"; EntityDecoderState[EntityDecoderState["NumericDecimal"] = 2] = "NumericDecimal"; EntityDecoderState[EntityDecoderState["NumericHex"] = 3] = "NumericHex"; EntityDecoderState[EntityDecoderState["NamedEntity"] = 4] = "NamedEntity"; })(EntityDecoderState || (EntityDecoderState = {})); /** * Decoding mode for named entities. */ var DecodingMode; (function (DecodingMode) { /** Entities in text nodes that can end with any character. */ DecodingMode[DecodingMode["Legacy"] = 0] = "Legacy"; /** Only allow entities terminated with a semicolon. */ DecodingMode[DecodingMode["Strict"] = 1] = "Strict"; /** Entities in attributes have limitations on ending characters. */ DecodingMode[DecodingMode["Attribute"] = 2] = "Attribute"; })(DecodingMode || (DecodingMode = {})); /** * Token decoder with support of writing partial entities. */ class EntityDecoder { decodeTree; emitCodePoint; errors; constructor( /** The tree used to decode entities. */ // biome-ignore lint/correctness/noUnusedPrivateClassMembers: False positive decodeTree, /** * The function that is called when a codepoint is decoded. * * For multi-byte named entities, this will be called multiple times, * with the second codepoint, and the same `consumed` value. * @param codepoint The decoded codepoint. * @param consumed The number of bytes consumed by the decoder. */ emitCodePoint, /** An object that is used to produce errors. */ errors) { this.decodeTree = decodeTree; this.emitCodePoint = emitCodePoint; this.errors = errors; } /** The current state of the decoder. */ state = EntityDecoderState.EntityStart; /** Characters that were consumed while parsing an entity. */ consumed = 1; /** * The result of the entity. * * Either the result index of a numeric entity, or the codepoint of a * numeric entity. */ result = 0; /** The current index in the decode tree. */ treeIndex = 0; /** The number of characters that were consumed in excess. */ excess = 1; /** The mode in which the decoder is operating. */ decodeMode = DecodingMode.Strict; /** The number of characters that have been consumed in the current run. */ runConsumed = 0; /** * Resets the instance to make it reusable. * @param decodeMode Entity decoding mode to use. */ startEntity(decodeMode) { this.decodeMode = decodeMode; this.state = EntityDecoderState.EntityStart; this.result = 0; this.treeIndex = 0; this.excess = 1; this.consumed = 1; this.runConsumed = 0; } /** * Write an entity to the decoder. This can be called multiple times with partial entities. * If the entity is incomplete, the decoder will return -1. * * Mirrors the implementation of `getDecoder`, but with the ability to stop decoding if the * entity is incomplete, and resume when the next string is written. * @param input The string containing the entity (or a continuation of the entity). * @param offset The offset at which the entity begins. Should be 0 if this is not the first call. * @returns The number of characters that were consumed, or -1 if the entity is incomplete. */ write(input, offset) { switch (this.state) { case EntityDecoderState.EntityStart: { if (input.charCodeAt(offset) === CharCodes$1.NUM) { this.state = EntityDecoderState.NumericStart; this.consumed += 1; return this.stateNumericStart(input, offset + 1); } this.state = EntityDecoderState.NamedEntity; return this.stateNamedEntity(input, offset); } case EntityDecoderState.NumericStart: { return this.stateNumericStart(input, offset); } case EntityDecoderState.NumericDecimal: { return this.stateNumericDecimal(input, offset); } case EntityDecoderState.NumericHex: { return this.stateNumericHex(input, offset); } case EntityDecoderState.NamedEntity: { return this.stateNamedEntity(input, offset); } } } /** * Switches between the numeric decimal and hexadecimal states. * * Equivalent to the `Numeric character reference state` in the HTML spec. * @param input The string containing the entity (or a continuation of the entity). * @param offset The current offset. * @returns The number of characters that were consumed, or -1 if the entity is incomplete. */ stateNumericStart(input, offset) { if (offset >= input.length) { return -1; } if ((input.charCodeAt(offset) | TO_LOWER_BIT) === CharCodes$1.LOWER_X) { this.state = EntityDecoderState.NumericHex; this.consumed += 1; return this.stateNumericHex(input, offset + 1); } this.state = EntityDecoderState.NumericDecimal; return this.stateNumericDecimal(input, offset); } /** * Parses a hexadecimal numeric entity. * * Equivalent to the `Hexademical character reference state` in the HTML spec. * @param input The string containing the entity (or a continuation of the entity). * @param offset The current offset. * @returns The number of characters that were consumed, or -1 if the entity is incomplete. */ stateNumericHex(input, offset) { while (offset < input.length) { const char = input.charCodeAt(offset); if (isNumber(char) || isHexadecimalCharacter(char)) { // Convert hex digit to value (0-15); 'a'/'A' -> 10. const digit = char <= CharCodes$1.NINE ? char - CharCodes$1.ZERO : (char | TO_LOWER_BIT) - CharCodes$1.LOWER_A + 10; this.result = this.result * 16 + digit; this.consumed++; offset++; } else { return this.emitNumericEntity(char, 3); } } return -1; // Incomplete entity } /** * Parses a decimal numeric entity. * * Equivalent to the `Decimal character reference state` in the HTML spec. * @param input The string containing the entity (or a continuation of the entity). * @param offset The current offset. * @returns The number of characters that were consumed, or -1 if the entity is incomplete. */ stateNumericDecimal(input, offset) { while (offset < input.length) { const char = input.charCodeAt(offset); if (isNumber(char)) { this.result = this.result * 10 + (char - CharCodes$1.ZERO); this.consumed++; offset++; } else { return this.emitNumericEntity(char, 2); } } return -1; // Incomplete entity } /** * Validate and emit a numeric entity. * * Implements the logic from the `Hexademical character reference start * state` and `Numeric character reference end state` in the HTML spec. * @param lastCp The last code point of the entity. Used to see if the * entity was terminated with a semicolon. * @param expectedLength The minimum number of characters that should be * consumed. Used to validate that at least one digit * was consumed. * @returns The number of characters that were consumed. */ emitNumericEntity(lastCp, expectedLength) { // Ensure we consumed at least one digit. if (this.consumed <= expectedLength) { this.errors?.absenceOfDigitsInNumericCharacterReference(this.consumed); return 0; } // Figure out if this is a legit end of the entity if (lastCp === CharCodes$1.SEMI) { this.consumed += 1; } else if (this.decodeMode === DecodingMode.Strict) { return 0; } this.emitCodePoint(replaceCodePoint(this.result), this.consumed); if (this.errors) { if (lastCp !== CharCodes$1.SEMI) { this.errors.missingSemicolonAfterCharacterReference(); } this.errors.validateNumericCharacterReference(this.result); } return this.consumed; } /** * Parses a named entity. * * Equivalent to the `Named character reference state` in the HTML spec. * @param input The string containing the entity (or a continuation of the entity). * @param offset The current offset. * @returns The number of characters that were consumed, or -1 if the entity is incomplete. */ stateNamedEntity(input, offset) { const { decodeTree } = this; let current = decodeTree[this.treeIndex]; // The length is the number of bytes of the value, including the current byte. let valueLength = (current & BinTrieFlags.VALUE_LENGTH) >> 14; while (offset < input.length) { // Handle compact runs (possibly inline): valueLength == 0 and SEMI_REQUIRED bit set. if (valueLength === 0 && (current & BinTrieFlags.FLAG13) !== 0) { const runLength = (current & BinTrieFlags.BRANCH_LENGTH) >> 7; /* 2..63 */ // If we are starting a run, check the first char. if (this.runConsumed === 0) { const firstChar = current & BinTrieFlags.JUMP_TABLE; if (input.charCodeAt(offset) !== firstChar) { return this.result === 0 ? 0 : this.emitNotTerminatedNamedEntity(); } offset++; this.excess++; this.runConsumed++; } // Check remaining characters in the run. while (this.runConsumed < runLength) { if (offset >= input.length) { return -1; } const charIndexInPacked = this.runConsumed - 1; const packedWord = decodeTree[this.treeIndex + 1 + (charIndexInPacked >> 1)]; const expectedChar = charIndexInPacked % 2 === 0 ? packedWord & 0xff : (packedWord >> 8) & 0xff; if (input.charCodeAt(offset) !== expectedChar) { this.runConsumed = 0; return this.result === 0 ? 0 : this.emitNotTerminatedNamedEntity(); } offset++;