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CRISPRTool / igv_component /node_modules /@discoveryjs /json-ext /dist /json-ext.js

supercat666's picture

fixed igv

1df763a 10 months ago

26.4 kB

	(function (global, factory) {
	typeof exports === 'object' && typeof module !== 'undefined' ? module.exports = factory() :
	typeof define === 'function' && define.amd ? define(factory) :
	(global = typeof globalThis !== 'undefined' ? globalThis : global \|\| self, global.jsonExt = factory());
	})(this, (function () { 'use strict';

	var version = "0.5.7";

	const PrimitiveType = 1;
	const ObjectType = 2;
	const ArrayType = 3;
	const PromiseType = 4;
	const ReadableStringType = 5;
	const ReadableObjectType = 6;
	// https://tc39.es/ecma262/#table-json-single-character-escapes
	const escapableCharCodeSubstitution$1 = { // JSON Single Character Escape Sequences
	0x08: '\\b',
	0x09: '\\t',
	0x0a: '\\n',
	0x0c: '\\f',
	0x0d: '\\r',
	0x22: '\\\"',
	0x5c: '\\\\'
	};

	function isLeadingSurrogate$1(code) {
	return code >= 0xD800 && code <= 0xDBFF;
	}

	function isTrailingSurrogate$1(code) {
	return code >= 0xDC00 && code <= 0xDFFF;
	}

	function isReadableStream$1(value) {
	return (
	typeof value.pipe === 'function' &&
	typeof value._read === 'function' &&
	typeof value._readableState === 'object' && value._readableState !== null
	);
	}

	function replaceValue$1(holder, key, value, replacer) {
	if (value && typeof value.toJSON === 'function') {
	value = value.toJSON();
	}

	if (replacer !== null) {
	value = replacer.call(holder, String(key), value);
	}

	switch (typeof value) {
	case 'function':
	case 'symbol':
	value = undefined;
	break;

	case 'object':
	if (value !== null) {
	const cls = value.constructor;
	if (cls === String \|\| cls === Number \|\| cls === Boolean) {
	value = value.valueOf();
	}
	}
	break;
	}

	return value;
	}

	function getTypeNative$1(value) {
	if (value === null \|\| typeof value !== 'object') {
	return PrimitiveType;
	}

	if (Array.isArray(value)) {
	return ArrayType;
	}

	return ObjectType;
	}

	function getTypeAsync$1(value) {
	if (value === null \|\| typeof value !== 'object') {
	return PrimitiveType;
	}

	if (typeof value.then === 'function') {
	return PromiseType;
	}

	if (isReadableStream$1(value)) {
	return value._readableState.objectMode ? ReadableObjectType : ReadableStringType;
	}

	if (Array.isArray(value)) {
	return ArrayType;
	}

	return ObjectType;
	}

	function normalizeReplacer$1(replacer) {
	if (typeof replacer === 'function') {
	return replacer;
	}

	if (Array.isArray(replacer)) {
	const allowlist = new Set(replacer
	.map(item => {
	const cls = item && item.constructor;
	return cls === String \|\| cls === Number ? String(item) : null;
	})
	.filter(item => typeof item === 'string')
	);

	return [...allowlist];
	}

	return null;
	}

	function normalizeSpace$1(space) {
	if (typeof space === 'number') {
	if (!Number.isFinite(space) \|\| space < 1) {
	return false;
	}

	return ' '.repeat(Math.min(space, 10));
	}

	if (typeof space === 'string') {
	return space.slice(0, 10) \|\| false;
	}

	return false;
	}

	var utils = {
	escapableCharCodeSubstitution: escapableCharCodeSubstitution$1,
	isLeadingSurrogate: isLeadingSurrogate$1,
	isTrailingSurrogate: isTrailingSurrogate$1,
	type: {
	PRIMITIVE: PrimitiveType,
	PROMISE: PromiseType,
	ARRAY: ArrayType,
	OBJECT: ObjectType,
	STRING_STREAM: ReadableStringType,
	OBJECT_STREAM: ReadableObjectType
	},

	isReadableStream: isReadableStream$1,
	replaceValue: replaceValue$1,
	getTypeNative: getTypeNative$1,
	getTypeAsync: getTypeAsync$1,
	normalizeReplacer: normalizeReplacer$1,
	normalizeSpace: normalizeSpace$1
	};

	const {
	normalizeReplacer,
	normalizeSpace,
	replaceValue,
	getTypeNative,
	getTypeAsync,
	isLeadingSurrogate,
	isTrailingSurrogate,
	escapableCharCodeSubstitution,
	type: {
	PRIMITIVE,
	OBJECT,
	ARRAY,
	PROMISE,
	STRING_STREAM,
	OBJECT_STREAM
	}
	} = utils;
	const charLength2048 = Array.from({ length: 2048 }).map((_, code) => {
	if (escapableCharCodeSubstitution.hasOwnProperty(code)) {
	return 2; // \X
	}

	if (code < 0x20) {
	return 6; // \uXXXX
	}

	return code < 128 ? 1 : 2; // UTF8 bytes
	});

	function stringLength(str) {
	let len = 0;
	let prevLeadingSurrogate = false;

	for (let i = 0; i < str.length; i++) {
	const code = str.charCodeAt(i);

	if (code < 2048) {
	len += charLength2048[code];
	} else if (isLeadingSurrogate(code)) {
	len += 6; // \uXXXX since no pair with trailing surrogate yet
	prevLeadingSurrogate = true;
	continue;
	} else if (isTrailingSurrogate(code)) {
	len = prevLeadingSurrogate
	? len - 2 // surrogate pair (4 bytes), since we calculate prev leading surrogate as 6 bytes, substruct 2 bytes
	: len + 6; // \uXXXX
	} else {
	len += 3; // code >= 2048 is 3 bytes length for UTF8
	}

	prevLeadingSurrogate = false;
	}

	return len + 2; // +2 for quotes
	}

	function primitiveLength(value) {
	switch (typeof value) {
	case 'string':
	return stringLength(value);

	case 'number':
	return Number.isFinite(value) ? String(value).length : 4 /* null */;

	case 'boolean':
	return value ? 4 /* true / : 5 / false */;

	case 'undefined':
	case 'object':
	return 4; /* null */

	default:
	return 0;
	}
	}

	function spaceLength(space) {
	space = normalizeSpace(space);
	return typeof space === 'string' ? space.length : 0;
	}

	var stringifyInfo = function jsonStringifyInfo(value, replacer, space, options) {
	function walk(holder, key, value) {
	if (stop) {
	return;
	}

	value = replaceValue(holder, key, value, replacer);

	let type = getType(value);

	// check for circular structure
	if (type !== PRIMITIVE && stack.has(value)) {
	circular.add(value);
	length += 4; // treat as null

	if (!options.continueOnCircular) {
	stop = true;
	}

	return;
	}

	switch (type) {
	case PRIMITIVE:
	if (value !== undefined \|\| Array.isArray(holder)) {
	length += primitiveLength(value);
	} else if (holder === root) {
	length += 9; // FIXME: that's the length of undefined, should we normalize behaviour to convert it to null?
	}
	break;

	case OBJECT: {
	if (visited.has(value)) {
	duplicate.add(value);
	length += visited.get(value);
	break;
	}

	const valueLength = length;
	let entries = 0;

	length += 2; // {}

	stack.add(value);

	for (const key in value) {
	if (hasOwnProperty.call(value, key) && (allowlist === null \|\| allowlist.has(key))) {
	const prevLength = length;
	walk(value, key, value[key]);

	if (prevLength !== length) {
	// value is printed
	length += stringLength(key) + 1; // "key":
	entries++;
	}
	}
	}

	if (entries > 1) {
	length += entries - 1; // commas
	}

	stack.delete(value);

	if (space > 0 && entries > 0) {
	length += (1 + (stack.size + 1) * space + 1) * entries; // for each key-value: \n{space}
	length += 1 + stack.size * space; // for }
	}

	visited.set(value, length - valueLength);

	break;
	}

	case ARRAY: {
	if (visited.has(value)) {
	duplicate.add(value);
	length += visited.get(value);
	break;
	}

	const valueLength = length;

	length += 2; // []

	stack.add(value);

	for (let i = 0; i < value.length; i++) {
	walk(value, i, value[i]);
	}

	if (value.length > 1) {
	length += value.length - 1; // commas
	}

	stack.delete(value);

	if (space > 0 && value.length > 0) {
	length += (1 + (stack.size + 1) * space) * value.length; // for each element: \n{space}
	length += 1 + stack.size * space; // for ]
	}

	visited.set(value, length - valueLength);

	break;
	}

	case PROMISE:
	case STRING_STREAM:
	async.add(value);
	break;

	case OBJECT_STREAM:
	length += 2; // []
	async.add(value);
	break;
	}
	}

	let allowlist = null;
	replacer = normalizeReplacer(replacer);

	if (Array.isArray(replacer)) {
	allowlist = new Set(replacer);
	replacer = null;
	}

	space = spaceLength(space);
	options = options \|\| {};

	const visited = new Map();
	const stack = new Set();
	const duplicate = new Set();
	const circular = new Set();
	const async = new Set();
	const getType = options.async ? getTypeAsync : getTypeNative;
	const root = { '': value };
	let stop = false;
	let length = 0;

	walk(root, '', value);

	return {
	minLength: isNaN(length) ? Infinity : length,
	circular: [...circular],
	duplicate: [...duplicate],
	async: [...async]
	};
	};

	var stringifyStreamBrowser = () => {
	throw new Error('Method is not supported');
	};

	var textDecoderBrowser = TextDecoder;

	const { isReadableStream } = utils;


	const STACK_OBJECT = 1;
	const STACK_ARRAY = 2;
	const decoder = new textDecoderBrowser();

	function isObject(value) {
	return value !== null && typeof value === 'object';
	}

	function adjustPosition(error, parser) {
	if (error.name === 'SyntaxError' && parser.jsonParseOffset) {
	error.message = error.message.replace(/at position (\d+)/, (_, pos) =>
	'at position ' + (Number(pos) + parser.jsonParseOffset)
	);
	}

	return error;
	}

	function append(array, elements) {
	// Note: Avoid to use array.push(...elements) since it may lead to
	// "RangeError: Maximum call stack size exceeded" for a long arrays
	const initialLength = array.length;
	array.length += elements.length;

	for (let i = 0; i < elements.length; i++) {
	array[initialLength + i] = elements[i];
	}
	}

	var parseChunked = function(chunkEmitter) {
	let parser = new ChunkParser();

	if (isObject(chunkEmitter) && isReadableStream(chunkEmitter)) {
	return new Promise((resolve, reject) => {
	chunkEmitter
	.on('data', chunk => {
	try {
	parser.push(chunk);
	} catch (e) {
	reject(adjustPosition(e, parser));
	parser = null;
	}
	})
	.on('error', (e) => {
	parser = null;
	reject(e);
	})
	.on('end', () => {
	try {
	resolve(parser.finish());
	} catch (e) {
	reject(adjustPosition(e, parser));
	} finally {
	parser = null;
	}
	});
	});
	}

	if (typeof chunkEmitter === 'function') {
	const iterator = chunkEmitter();

	if (isObject(iterator) && (Symbol.iterator in iterator \|\| Symbol.asyncIterator in iterator)) {
	return new Promise(async (resolve, reject) => {
	try {
	for await (const chunk of iterator) {
	parser.push(chunk);
	}

	resolve(parser.finish());
	} catch (e) {
	reject(adjustPosition(e, parser));
	} finally {
	parser = null;
	}
	});
	}
	}

	throw new Error(
	'Chunk emitter should be readable stream, generator, ' +
	'async generator or function returning an iterable object'
	);
	};

	class ChunkParser {
	constructor() {
	this.value = undefined;
	this.valueStack = null;

	this.stack = new Array(100);
	this.lastFlushDepth = 0;
	this.flushDepth = 0;
	this.stateString = false;
	this.stateStringEscape = false;
	this.pendingByteSeq = null;
	this.pendingChunk = null;
	this.chunkOffset = 0;
	this.jsonParseOffset = 0;
	}

	parseAndAppend(fragment, wrap) {
	// Append new entries or elements
	if (this.stack[this.lastFlushDepth - 1] === STACK_OBJECT) {
	if (wrap) {
	this.jsonParseOffset--;
	fragment = '{' + fragment + '}';
	}

	Object.assign(this.valueStack.value, JSON.parse(fragment));
	} else {
	if (wrap) {
	this.jsonParseOffset--;
	fragment = '[' + fragment + ']';
	}

	append(this.valueStack.value, JSON.parse(fragment));
	}
	}

	prepareAddition(fragment) {
	const { value } = this.valueStack;
	const expectComma = Array.isArray(value)
	? value.length !== 0
	: Object.keys(value).length !== 0;

	if (expectComma) {
	// Skip a comma at the beginning of fragment, otherwise it would
	// fail to parse
	if (fragment[0] === ',') {
	this.jsonParseOffset++;
	return fragment.slice(1);
	}

	// When value (an object or array) is not empty and a fragment
	// doesn't start with a comma, a single valid fragment starting
	// is a closing bracket. If it's not, a prefix is adding to fail
	// parsing. Otherwise, the sequence of chunks can be successfully
	// parsed, although it should not, e.g. ["[{}", "{}]"]
	if (fragment[0] !== '}' && fragment[0] !== ']') {
	this.jsonParseOffset -= 3;
	return '[[]' + fragment;
	}
	}

	return fragment;
	}

	flush(chunk, start, end) {
	let fragment = chunk.slice(start, end);

	// Save position correction an error in JSON.parse() if any
	this.jsonParseOffset = this.chunkOffset + start;

	// Prepend pending chunk if any
	if (this.pendingChunk !== null) {
	fragment = this.pendingChunk + fragment;
	this.jsonParseOffset -= this.pendingChunk.length;
	this.pendingChunk = null;
	}

	if (this.flushDepth === this.lastFlushDepth) {
	// Depth didn't changed, so it's a root value or entry/element set
	if (this.flushDepth > 0) {
	this.parseAndAppend(this.prepareAddition(fragment), true);
	} else {
	// That's an entire value on a top level
	this.value = JSON.parse(fragment);
	this.valueStack = {
	value: this.value,
	prev: null
	};
	}
	} else if (this.flushDepth > this.lastFlushDepth) {
	// Add missed closing brackets/parentheses
	for (let i = this.flushDepth - 1; i >= this.lastFlushDepth; i--) {
	fragment += this.stack[i] === STACK_OBJECT ? '}' : ']';
	}

	if (this.lastFlushDepth === 0) {
	// That's a root value
	this.value = JSON.parse(fragment);
	this.valueStack = {
	value: this.value,
	prev: null
	};
	} else {
	this.parseAndAppend(this.prepareAddition(fragment), true);
	}

	// Move down to the depths to the last object/array, which is current now
	for (let i = this.lastFlushDepth \|\| 1; i < this.flushDepth; i++) {
	let value = this.valueStack.value;

	if (this.stack[i - 1] === STACK_OBJECT) {
	// find last entry
	let key;
	// eslint-disable-next-line curly
	for (key in value);
	value = value[key];
	} else {
	// last element
	value = value[value.length - 1];
	}

	this.valueStack = {
	value,
	prev: this.valueStack
	};
	}
	} else /* this.flushDepth < this.lastFlushDepth */ {
	fragment = this.prepareAddition(fragment);

	// Add missed opening brackets/parentheses
	for (let i = this.lastFlushDepth - 1; i >= this.flushDepth; i--) {
	this.jsonParseOffset--;
	fragment = (this.stack[i] === STACK_OBJECT ? '{' : '[') + fragment;
	}

	this.parseAndAppend(fragment, false);

	for (let i = this.lastFlushDepth - 1; i >= this.flushDepth; i--) {
	this.valueStack = this.valueStack.prev;
	}
	}

	this.lastFlushDepth = this.flushDepth;
	}

	push(chunk) {
	if (typeof chunk !== 'string') {
	// Suppose chunk is Buffer or Uint8Array

	// Prepend uncompleted byte sequence if any
	if (this.pendingByteSeq !== null) {
	const origRawChunk = chunk;
	chunk = new Uint8Array(this.pendingByteSeq.length + origRawChunk.length);
	chunk.set(this.pendingByteSeq);
	chunk.set(origRawChunk, this.pendingByteSeq.length);
	this.pendingByteSeq = null;
	}

	// In case Buffer/Uint8Array, an input is encoded in UTF8
	// Seek for parts of uncompleted UTF8 symbol on the ending
	// This makes sense only if we expect more chunks and last char is not multi-bytes
	if (chunk[chunk.length - 1] > 127) {
	for (let seqLength = 0; seqLength < chunk.length; seqLength++) {
	const byte = chunk[chunk.length - 1 - seqLength];

	// 10xxxxxx - 2nd, 3rd or 4th byte
	// 110xxxxx – first byte of 2-byte sequence
	// 1110xxxx - first byte of 3-byte sequence
	// 11110xxx - first byte of 4-byte sequence
	if (byte >> 6 === 3) {
	seqLength++;

	// If the sequence is really incomplete, then preserve it
	// for the future chunk and cut off it from the current chunk
	if ((seqLength !== 4 && byte >> 3 === 0b11110) \|\|
	(seqLength !== 3 && byte >> 4 === 0b1110) \|\|
	(seqLength !== 2 && byte >> 5 === 0b110)) {
	this.pendingByteSeq = chunk.slice(chunk.length - seqLength);
	chunk = chunk.slice(0, -seqLength);
	}

	break;
	}
	}
	}

	// Convert chunk to a string, since single decode per chunk
	// is much effective than decode multiple small substrings
	chunk = decoder.decode(chunk);
	}

	const chunkLength = chunk.length;
	let lastFlushPoint = 0;
	let flushPoint = 0;

	// Main scan loop
	scan: for (let i = 0; i < chunkLength; i++) {
	if (this.stateString) {
	for (; i < chunkLength; i++) {
	if (this.stateStringEscape) {
	this.stateStringEscape = false;
	} else {
	switch (chunk.charCodeAt(i)) {
	case 0x22: /* " */
	this.stateString = false;
	continue scan;

	case 0x5C: /* \ */
	this.stateStringEscape = true;
	}
	}
	}

	break;
	}

	switch (chunk.charCodeAt(i)) {
	case 0x22: /* " */
	this.stateString = true;
	this.stateStringEscape = false;
	break;

	case 0x2C: /* , */
	flushPoint = i;
	break;

	case 0x7B: /* { */
	// Open an object
	flushPoint = i + 1;
	this.stack[this.flushDepth++] = STACK_OBJECT;
	break;

	case 0x5B: /* [ */
	// Open an array
	flushPoint = i + 1;
	this.stack[this.flushDepth++] = STACK_ARRAY;
	break;

	case 0x5D: /* ] */
	case 0x7D: /* } */
	// Close an object or array
	flushPoint = i + 1;
	this.flushDepth--;

	if (this.flushDepth < this.lastFlushDepth) {
	this.flush(chunk, lastFlushPoint, flushPoint);
	lastFlushPoint = flushPoint;
	}

	break;

	case 0x09: /* \t */
	case 0x0A: /* \n */
	case 0x0D: /* \r */
	case 0x20: /* space */
	// Move points forward when they points on current position and it's a whitespace
	if (lastFlushPoint === i) {
	lastFlushPoint++;
	}

	if (flushPoint === i) {
	flushPoint++;
	}

	break;
	}
	}

	if (flushPoint > lastFlushPoint) {
	this.flush(chunk, lastFlushPoint, flushPoint);
	}

	// Produce pendingChunk if something left
	if (flushPoint < chunkLength) {
	if (this.pendingChunk !== null) {
	// When there is already a pending chunk then no flush happened,
	// appending entire chunk to pending one
	this.pendingChunk += chunk;
	} else {
	// Create a pending chunk, it will start with non-whitespace since
	// flushPoint was moved forward away from whitespaces on scan
	this.pendingChunk = chunk.slice(flushPoint, chunkLength);
	}
	}

	this.chunkOffset += chunkLength;
	}

	finish() {
	if (this.pendingChunk !== null) {
	this.flush('', 0, 0);
	this.pendingChunk = null;
	}

	return this.value;
	}
	}

	var src = {
	version: version,
	stringifyInfo: stringifyInfo,
	stringifyStream: stringifyStreamBrowser,
	parseChunked: parseChunked
	};

	return src;

	}));