"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.readCodePoint = readCodePoint; exports.readInt = readInt; exports.readStringContents = readStringContents; var _isDigit = function isDigit(code) { return code >= 48 && code <= 57; }; const forbiddenNumericSeparatorSiblings = { decBinOct: new Set([46, 66, 69, 79, 95, 98, 101, 111]), hex: new Set([46, 88, 95, 120]) }; const isAllowedNumericSeparatorSibling = { bin: ch => ch === 48 || ch === 49, oct: ch => ch >= 48 && ch <= 55, dec: ch => ch >= 48 && ch <= 57, hex: ch => ch >= 48 && ch <= 57 || ch >= 65 && ch <= 70 || ch >= 97 && ch <= 102 }; function readStringContents(type, input, pos, lineStart, curLine, errors) { const initialPos = pos; const initialLineStart = lineStart; const initialCurLine = curLine; let out = ""; let firstInvalidLoc = null; let chunkStart = pos; const { length } = input; for (;;) { if (pos >= length) { errors.unterminated(initialPos, initialLineStart, initialCurLine); out += input.slice(chunkStart, pos); break; } const ch = input.charCodeAt(pos); if (isStringEnd(type, ch, input, pos)) { out += input.slice(chunkStart, pos); break; } if (ch === 92) { out += input.slice(chunkStart, pos); const res = readEscapedChar(input, pos, lineStart, curLine, type === "template", errors); if (res.ch === null && !firstInvalidLoc) { firstInvalidLoc = { pos, lineStart, curLine }; } else { out += res.ch; } ({ pos, lineStart, curLine } = res); chunkStart = pos; } else if (ch === 8232 || ch === 8233) { ++pos; ++curLine; lineStart = pos; } else if (ch === 10 || ch === 13) { if (type === "template") { out += input.slice(chunkStart, pos) + "\n"; ++pos; if (ch === 13 && input.charCodeAt(pos) === 10) { ++pos; } ++curLine; chunkStart = lineStart = pos; } else { errors.unterminated(initialPos, initialLineStart, initialCurLine); } } else { ++pos; } } return { pos, str: out, firstInvalidLoc, lineStart, curLine, containsInvalid: !!firstInvalidLoc }; } function isStringEnd(type, ch, input, pos) { if (type === "template") { return ch === 96 || ch === 36 && input.charCodeAt(pos + 1) === 123; } return ch === (type === "double" ? 34 : 39); } function readEscapedChar(input, pos, lineStart, curLine, inTemplate, errors) { const throwOnInvalid = !inTemplate; pos++; const res = ch => ({ pos, ch, lineStart, curLine }); const ch = input.charCodeAt(pos++); switch (ch) { case 110: return res("\n"); case 114: return res("\r"); case 120: { let code; ({ code, pos } = readHexChar(input, pos, lineStart, curLine, 2, false, throwOnInvalid, errors)); return res(code === null ? null : String.fromCharCode(code)); } case 117: { let code; ({ code, pos } = readCodePoint(input, pos, lineStart, curLine, throwOnInvalid, errors)); return res(code === null ? null : String.fromCodePoint(code)); } case 116: return res("\t"); case 98: return res("\b"); case 118: return res("\u000b"); case 102: return res("\f"); case 13: if (input.charCodeAt(pos) === 10) { ++pos; } case 10: lineStart = pos; ++curLine; case 8232: case 8233: return res(""); case 56: case 57: if (inTemplate) { return res(null); } else { errors.strictNumericEscape(pos - 1, lineStart, curLine); } default: if (ch >= 48 && ch <= 55) { const startPos = pos - 1; const match = /^[0-7]+/.exec(input.slice(startPos, pos + 2)); let octalStr = match[0]; let octal = parseInt(octalStr, 8); if (octal > 255) { octalStr = octalStr.slice(0, -1); octal = parseInt(octalStr, 8); } pos += octalStr.length - 1; const next = input.charCodeAt(pos); if (octalStr !== "0" || next === 56 || next === 57) { if (inTemplate) { return res(null); } else { errors.strictNumericEscape(startPos, lineStart, curLine); } } return res(String.fromCharCode(octal)); } return res(String.fromCharCode(ch)); } } function readHexChar(input, pos, lineStart, curLine, len, forceLen, throwOnInvalid, errors) { const initialPos = pos; let n; ({ n, pos } = readInt(input, pos, lineStart, curLine, 16, len, forceLen, false, errors, !throwOnInvalid)); if (n === null) { if (throwOnInvalid) { errors.invalidEscapeSequence(initialPos, lineStart, curLine); } else { pos = initialPos - 1; } } return { code: n, pos }; } function readInt(input, pos, lineStart, curLine, radix, len, forceLen, allowNumSeparator, errors, bailOnError) { const start = pos; const forbiddenSiblings = radix === 16 ? forbiddenNumericSeparatorSiblings.hex : forbiddenNumericSeparatorSiblings.decBinOct; const isAllowedSibling = radix === 16 ? isAllowedNumericSeparatorSibling.hex : radix === 10 ? isAllowedNumericSeparatorSibling.dec : radix === 8 ? isAllowedNumericSeparatorSibling.oct : isAllowedNumericSeparatorSibling.bin; let invalid = false; let total = 0; for (let i = 0, e = len == null ? Infinity : len; i < e; ++i) { const code = input.charCodeAt(pos); let val; if (code === 95 && allowNumSeparator !== "bail") { const prev = input.charCodeAt(pos - 1); const next = input.charCodeAt(pos + 1); if (!allowNumSeparator) { if (bailOnError) return { n: null, pos }; errors.numericSeparatorInEscapeSequence(pos, lineStart, curLine); } else if (Number.isNaN(next) || !isAllowedSibling(next) || forbiddenSiblings.has(prev) || forbiddenSiblings.has(next)) { if (bailOnError) return { n: null, pos }; errors.unexpectedNumericSeparator(pos, lineStart, curLine); } ++pos; continue; } if (code >= 97) { val = code - 97 + 10; } else if (code >= 65) { val = code - 65 + 10; } else if (_isDigit(code)) { val = code - 48; } else { val = Infinity; } if (val >= radix) { if (val <= 9 && bailOnError) { return { n: null, pos }; } else if (val <= 9 && errors.invalidDigit(pos, lineStart, curLine, radix)) { val = 0; } else if (forceLen) { val = 0; invalid = true; } else { break; } } ++pos; total = total * radix + val; } if (pos === start || len != null && pos - start !== len || invalid) { return { n: null, pos }; } return { n: total, pos }; } function readCodePoint(input, pos, lineStart, curLine, throwOnInvalid, errors) { const ch = input.charCodeAt(pos); let code; if (ch === 123) { ++pos; ({ code, pos } = readHexChar(input, pos, lineStart, curLine, input.indexOf("}", pos) - pos, true, throwOnInvalid, errors)); ++pos; if (code !== null && code > 0x10ffff) { if (throwOnInvalid) { errors.invalidCodePoint(pos, lineStart, curLine); } else { return { code: null, pos }; } } } else { ({ code, pos } = readHexChar(input, pos, lineStart, curLine, 4, false, throwOnInvalid, errors)); } return { code, pos }; } //# sourceMappingURL=index.js.map