"use strict"; function _arrayBufferToBase64(arrayBuffer) { let base64 = ''; const encodings = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/'; const bytes = new Uint8Array(arrayBuffer); const byteLength = bytes.byteLength; const byteRemainder = byteLength % 3; const mainLength = byteLength - byteRemainder; let a, b, c, d; let chunk; // Main loop deals with bytes in chunks of 3 for (var i = 0; i < mainLength; i = i + 3) { // Combine the three bytes into a single integer chunk = (bytes[i] << 16) | (bytes[i + 1] << 8) | bytes[i + 2]; // Use bitmasks to extract 6-bit segments from the triplet a = (chunk & 16515072) >> 18; // 16515072 = (2^6 - 1) << 18 b = (chunk & 258048) >> 12; // 258048 = (2^6 - 1) << 12 c = (chunk & 4032) >> 6; // 4032 = (2^6 - 1) << 6 d = chunk & 63; // 63 = 2^6 - 1 // Convert the raw binary segments to the appropriate ASCII encoding base64 += encodings[a] + encodings[b] + encodings[c] + encodings[d]; } // Deal with the remaining bytes and padding if (byteRemainder == 1) { chunk = bytes[mainLength]; a = (chunk & 252) >> 2; // 252 = (2^6 - 1) << 2 // Set the 4 least significant bits to zero b = (chunk & 3) << 4; // 3 = 2^2 - 1 base64 += encodings[a] + encodings[b] + '=='; } else if (byteRemainder == 2) { chunk = (bytes[mainLength] << 8) | bytes[mainLength + 1]; a = (chunk & 64512) >> 10; // 64512 = (2^6 - 1) << 10 b = (chunk & 1008) >> 4; // 1008 = (2^6 - 1) << 4 // Set the 2 least significant bits to zero c = (chunk & 15) << 2; // 15 = 2^4 - 1 base64 += encodings[a] + encodings[b] + encodings[c] + '='; } return base64; } function _base64ToArrayBuffer(v) { const binary_string = window.atob(v); const len = binary_string.length; const bytes = new Uint8Array(len); for (let i = 0; i < len; i++) { bytes[i] = binary_string.charCodeAt(i); } return bytes.buffer; } function _wrappedValue(v) { switch (typeof v) { case "number": return { type: "number", value: v }; case "string": return { type: "string", value: v }; case "boolean": return { type: "boolean", value: v }; case "object": if (v instanceof ArrayBuffer) { return { type: "arrayBuffer", value: _arrayBufferToBase64(v) }; } else if (v instanceof Array) { return { type: "array", value: JSON.stringify(v) }; } else { return { type: "object", value: JSON.stringify(v) }; } default: return { type: "null", value: undefined }; } } function _rawValue(v) { switch (v.type) { case "number": return v.value; case "string": return v.value; case "boolean": return v.value; case "object": case "array": if (typeof v.value === 'string') { return JSON.parse(v.value); } return v.value; case "arrayBuffer": const data = NativeClient.fetchArrayBuffer(v.value); return _base64ToArrayBuffer(data); ; default: return undefined; } } function __injectGlobalObject(name, args) { Reflect.set(window, name, JSON.parse(args)); } function __injectGlobalFunction(name) { Reflect.set(window, name, function () { const args = []; for (let i = 0; i < arguments.length; i++) { args.push(_wrappedValue(arguments[i])); } const ret = NativeClient.callNative(name, JSON.stringify(args)); return _rawValue(JSON.parse(ret)); }); } function __invokeMethod(objectName, functionName, stringifiedArgs) { // NativeClient.log(`invoke:${objectName}.${functionName}(${stringifiedArgs})`) try { const thisObject = Reflect.get(window, objectName); const thisFunction = Reflect.get(thisObject, functionName); const args = JSON.parse(stringifiedArgs); const rawArgs = args.map(e => _rawValue(e)); const ret = Reflect.apply(thisFunction, thisObject, rawArgs); const returnVal = ret ? JSON.stringify(_wrappedValue(ret)) : ""; // NativeClient.log(`return:${returnVal}`) NativeClient.returnNative(returnVal); } catch (e) { NativeClient.log(`error:${e},${e.stack}`); NativeClient.returnNative(""); } } function _prepared() { window.setTimeout = Reflect.get(window, "doricSetTimeout"); window.setInterval = Reflect.get(window, "doricSetInterval"); window.clearTimeout = Reflect.get(window, "doricClearTimeout"); window.clearInterval = Reflect.get(window, "doricClearInterval"); }