/** * @license * Copyright 2016 Google Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ goog.provide('shaka.util.StringUtils'); goog.require('goog.asserts'); goog.require('shaka.log'); goog.require('shaka.util.BufferUtils'); goog.require('shaka.util.Error'); goog.require('shaka.util.Iterables'); /** * @namespace shaka.util.StringUtils * @summary A set of string utility functions. * @exportDoc */ shaka.util.StringUtils = class { /** * Creates a string from the given buffer as UTF-8 encoding. * * @param {?BufferSource} data * @return {string} * @throws {shaka.util.Error} * @export */ static fromUTF8(data) { if (!data) { return ''; } let uint8 = new Uint8Array(data); // If present, strip off the UTF-8 BOM. if (uint8[0] == 0xef && uint8[1] == 0xbb && uint8[2] == 0xbf) { uint8 = uint8.subarray(3); } // http://stackoverflow.com/a/13691499 const utf8 = shaka.util.StringUtils.fromCharCode(uint8); // This converts each character in the string to an escape sequence. If the // character is in the ASCII range, it is not converted; otherwise it is // converted to a URI escape sequence. // Example: '\x67\x35\xe3\x82\xac' -> 'g#%E3%82%AC' const escaped = escape(utf8); // Decode the escaped sequence. This will interpret UTF-8 sequences into // the correct character. // Example: 'g#%E3%82%AC' -> 'g#€' try { return decodeURIComponent(escaped); } catch (e) { throw new shaka.util.Error( shaka.util.Error.Severity.CRITICAL, shaka.util.Error.Category.TEXT, shaka.util.Error.Code.BAD_ENCODING); } } /** * Creates a string from the given buffer as UTF-16 encoding. * * @param {?BufferSource} data * @param {boolean} littleEndian true to read little endian, false to read big. * @param {boolean=} noThrow true to avoid throwing in cases where we may * expect invalid input. If noThrow is true and the data has an odd * length,it will be truncated. * @return {string} * @throws {shaka.util.Error} * @export */ static fromUTF16(data, littleEndian, noThrow) { if (!data) { return ''; } if (!noThrow && data.byteLength % 2 != 0) { shaka.log.error('Data has an incorrect length, must be even.'); throw new shaka.util.Error( shaka.util.Error.Severity.CRITICAL, shaka.util.Error.Category.TEXT, shaka.util.Error.Code.BAD_ENCODING); } // Use a DataView to ensure correct endianness. const length = Math.floor(data.byteLength / 2); const arr = new Uint16Array(length); const dataView = shaka.util.BufferUtils.toDataView(data); for (const i of shaka.util.Iterables.range(length)) { arr[i] = dataView.getUint16(i * 2, littleEndian); } return shaka.util.StringUtils.fromCharCode(arr); } /** * Creates a string from the given buffer, auto-detecting the encoding that is * being used. If it cannot detect the encoding, it will throw an exception. * * @param {?BufferSource} data * @return {string} * @throws {shaka.util.Error} * @export */ static fromBytesAutoDetect(data) { const StringUtils = shaka.util.StringUtils; const uint8 = new Uint8Array(data); if (uint8[0] == 0xef && uint8[1] == 0xbb && uint8[2] == 0xbf) { return StringUtils.fromUTF8(uint8); } else if (uint8[0] == 0xfe && uint8[1] == 0xff) { return StringUtils.fromUTF16(uint8.subarray(2), false /* littleEndian */); } else if (uint8[0] == 0xff && uint8[1] == 0xfe) { return StringUtils.fromUTF16(uint8.subarray(2), true /* littleEndian */); } const isAscii = (i) => { // arr[i] >= ' ' && arr[i] <= '~'; return uint8.byteLength <= i || (uint8[i] >= 0x20 && uint8[i] <= 0x7e); }; shaka.log.debug( 'Unable to find byte-order-mark, making an educated guess.'); if (uint8[0] == 0 && uint8[2] == 0) { return StringUtils.fromUTF16(data, false /* littleEndian */); } else if (uint8[1] == 0 && uint8[3] == 0) { return StringUtils.fromUTF16(data, true /* littleEndian */); } else if (isAscii(0) && isAscii(1) && isAscii(2) && isAscii(3)) { return StringUtils.fromUTF8(data); } throw new shaka.util.Error( shaka.util.Error.Severity.CRITICAL, shaka.util.Error.Category.TEXT, shaka.util.Error.Code.UNABLE_TO_DETECT_ENCODING); } /** * Creates a ArrayBuffer from the given string, converting to UTF-8 encoding. * * @param {string} str * @return {!ArrayBuffer} * @export */ static toUTF8(str) { // http://stackoverflow.com/a/13691499 // Converts the given string to a URI encoded string. If a character falls // in the ASCII range, it is not converted; otherwise it will be converted // to a series of URI escape sequences according to UTF-8. // Example: 'g#€' -> 'g#%E3%82%AC' const encoded = encodeURIComponent(str); // Convert each escape sequence individually into a character. Each escape // sequence is interpreted as a code-point, so if an escape sequence happens // to be part of a multi-byte sequence, each byte will be converted to a // single character. // Example: 'g#%E3%82%AC' -> '\x67\x35\xe3\x82\xac' const utf8 = unescape(encoded); const result = new Uint8Array(utf8.length); const enumerate = (it) => shaka.util.Iterables.enumerate(it); for (const {i, item} of enumerate(utf8)) { result[i] = item.charCodeAt(0); } return shaka.util.BufferUtils.toArrayBuffer(result); } /** * Creates a ArrayBuffer from the given string, converting to UTF-16 encoding. * * @param {string} str * @param {boolean} littleEndian * @return {!ArrayBuffer} * @export */ static toUTF16(str, littleEndian) { const result = new ArrayBuffer(str.length * 2); const view = new DataView(result); const enumerate = (it) => shaka.util.Iterables.enumerate(it); for (const {i, item} of enumerate(str)) { const value = item.charCodeAt(0); view.setUint16(/* position= */ i * 2, value, littleEndian); } return result; } /** * Creates a new string from the given array of char codes. * * Using String.fromCharCode.apply is risky because you can trigger stack * errors on very large arrays. This breaks up the array into several pieces * to avoid this. * * @param {!TypedArray} array * @return {string} */ static fromCharCode(array) { // Check the browser for what chunk sizes it supports. Cache the result // in an impl method to avoid checking several times. if (!shaka.util.StringUtils.fromCharCodeImpl_) { const supportsChunkSize = (size) => { try { const buffer = new Uint8Array(size); // The compiler will complain about suspicious value if this isn't // stored in a variable and used. const foo = String.fromCharCode(...buffer); goog.asserts.assert(foo, 'Should get value'); return true; } catch (error) { return false; } }; // Different browsers support different chunk sizes; find out the largest // this browser supports so we can use larger chunks on supported browsers // but still support lower-end devices that require small chunks. // 64k is supported on all major desktop browsers. for (let size = 64 * 1024; size > 0; size /= 2) { if (supportsChunkSize(size)) { shaka.util.StringUtils.fromCharCodeImpl_ = (buffer) => { let ret = ''; for (let i = 0; i < buffer.length; i += size) { const subArray = buffer.subarray(i, i + size); ret += String.fromCharCode(...subArray); } return ret; }; break; } } } goog.asserts.assert( shaka.util.StringUtils.fromCharCodeImpl_, 'Unable to create a fromCharCode method'); return shaka.util.StringUtils.fromCharCodeImpl_(array); } }; /** @private {?function(!TypedArray):string} */ shaka.util.StringUtils.fromCharCodeImpl_ = null;