lib/ts/test/test.ts - packaging/sources/thrift - Gitiles

 import { ThriftTest } from "./gen-js/ThriftTest_types";
 import "./gen-js/ThriftTest";

 var Int64 = require("node-int64");
 var JSONInt64 = require("json-int64");
 var QUnit = require("./qunit");

 const transport: Thrift.Transport = new Thrift.Transport("/service");
 const protocol: Thrift.Protocol = new Thrift.Protocol(transport);
 const client: ThriftTest.ThriftTestClient = new ThriftTest.ThriftTestClient(
   protocol,
 );

 const int64_2_pow_60: typeof Int64 = new Int64("1000000000000000");
 const int64_minus_2_pow_60: typeof Int64 = new Int64("f000000000000000");

 // Work around for old API used by QUnitAdapter of jsTestDriver
 if (typeof QUnit.log == "function") {
   // When using real QUnit (fron PhantomJS) log failures to console
   QUnit.log(function (details) {
     if (!details.result) {
       console.log("======== FAIL ========");
       console.log("TestName: " + details.name);
       if (details.message) console.log(details.message);
       console.log("Expected: " + JSONInt64.stringify(details.expected));
       console.log("Actual  : " + JSONInt64.stringify(details.actual));
       console.log("======================");
     }
   });
 }

 // all Languages in UTF-8
 const stringTest: string =
   "Afrikaans, Alemannisch, Aragonés, العربية, مصرى, Asturianu, Aymar aru, Azərbaycan, Башҡорт, Boarisch, Žemaitėška, Беларуская, Беларуская (тарашкевіца), Български, Bamanankan, বাংলা, Brezhoneg, Bosanski, Català, Mìng-dĕ̤ng-ngṳ̄, Нохчийн, Cebuano, ᏣᎳᎩ, Česky, Словѣ́ньскъ / ⰔⰎⰑⰂⰡⰐⰠⰔⰍⰟ, Чӑвашла, Cymraeg, Dansk, Zazaki, ދިވެހިބަސް, Ελληνικά, Emiliàn e rumagnòl, English, Esperanto, Español, Eesti, Euskara, فارسی, Suomi, Võro, Føroyskt, Français, Arpetan, Furlan, Frysk, Gaeilge, 贛語, Gàidhlig, Galego, Avañe'ẽ, ગુજરાતી, Gaelg, עברית, हिन्दी, Fiji Hindi, Hrvatski, Kreyòl ayisyen, Magyar, Հայերեն, Interlingua, Bahasa Indonesia, Ilokano, Ido, Íslenska, Italiano, 日本語, Lojban, Basa Jawa, ქართული, Kongo, Kalaallisut, ಕನ್ನಡ, 한국어, Къарачай-Малкъар, Ripoarisch, Kurdî, Коми, Kernewek, Кыргызча, Latina, Ladino, Lëtzebuergesch, Limburgs, Lingála, ລາວ, Lietuvių, Latviešu, Basa Banyumasan, Malagasy, Македонски, മലയാളം, मराठी, Bahasa Melayu, مازِرونی, Nnapulitano, Nedersaksisch, नेपाल भाषा, Nederlands, ‪Norsk (nynorsk)‬, ‪Norsk (bokmål)‬, Nouormand, Diné bizaad, Occitan, Иронау, Papiamentu, Deitsch, Norfuk / Pitkern, Polski, پنجابی, پښتو, Português, Runa Simi, Rumantsch, Romani, Română, Русский, Саха тыла, Sardu, Sicilianu, Scots, Sámegiella, Simple English, Slovenčina, Slovenščina, Српски / Srpski, Seeltersk, Svenska, Kiswahili, தமிழ், తెలుగు, Тоҷикӣ, ไทย, Türkmençe, Tagalog, Türkçe, Татарча/Tatarça, Українська, اردو, Tiếng Việt, Volapük, Walon, Winaray, 吴语, isiXhosa, ייִדיש, Yorùbá, Zeêuws, 中文, Bân-lâm-gú, 粵語";

 function checkRecursively(assert, map1: Object, map2: Object): void {
   if (typeof map1 !== "function" && typeof map2 !== "function") {
     if (!map1 || typeof map1 !== "object") {
       assert.equal(map1, map2);
     } else {
       for (let key in map1) {
         checkRecursively(assert, map1[key], map2[key]);
       }
     }
   }
 }

 QUnit.module("Base Types");

 QUnit.test("Void", function (assert) {
   assert.equal(client.testVoid(), undefined);
 });
 QUnit.test("Binary (String)", function (assert) {
   let binary: string = "";
   for (let v = 255; v >= 0; --v) {
     binary += String.fromCharCode(v);
   }
   assert.equal(client.testBinary(binary), binary);
 });
 QUnit.test("Binary (Uint8Array)", function (assert) {
   let binary: string = "";
   for (let v = 255; v >= 0; --v) {
     binary += String.fromCharCode(v);
   }
   const arr: Uint8Array = new Uint8Array(binary.length);
   for (let i = 0; i < binary.length; ++i) {
     arr[i] = binary[i].charCodeAt(0);
   }
   const hexEncodedString = Array.from(arr, function (byte) {
     return String.fromCharCode(byte);
   }).join("");
   assert.equal(client.testBinary(hexEncodedString), binary);
 });
 QUnit.test("String", function (assert) {
   assert.equal(client.testString(""), "");
   assert.equal(client.testString(stringTest), stringTest);

   const specialCharacters: string =
     'quote: \" backslash:' +
     " forwardslash-escaped: \/ " +
     " backspace: \b formfeed: \f newline: \n return: \r tab: " +
     ' now-all-of-them-together: "\\\/\b\n\r\t' +
     " now-a-bunch-of-junk: !@#$%&()(&%$#{}{}<><><";
   assert.equal(client.testString(specialCharacters), specialCharacters);
 });
 QUnit.test("Double", function (assert) {
   assert.equal(client.testDouble(0), 0);
   assert.equal(client.testDouble(-1), -1);
   assert.equal(client.testDouble(3.14), 3.14);
   assert.equal(client.testDouble(Math.pow(2, 60)), Math.pow(2, 60));
 });
 QUnit.test("Byte", function (assert) {
   assert.equal(client.testByte(0), 0);
   assert.equal(client.testByte(0x01), 0x01);
 });
 QUnit.test("I32", function (assert) {
   assert.equal(client.testI32(0), 0);
   assert.equal(client.testI32(Math.pow(2, 30)), Math.pow(2, 30));
   assert.equal(client.testI32(-Math.pow(2, 30)), -Math.pow(2, 30));
 });
 QUnit.test("I64", function (assert) {
   assert.equal(client.testI64(new Int64(0)), 0);

   let int64_2_pow_60_result: typeof Int64 = client.testI64(int64_2_pow_60);
   assert.ok(int64_2_pow_60.equals(int64_2_pow_60_result));

   let int64_minus_2_pow_60_result: typeof Int64 =
     client.testI64(int64_minus_2_pow_60);
   assert.ok(int64_minus_2_pow_60.equals(int64_minus_2_pow_60_result));
 });

 QUnit.module("Structured Types");

 QUnit.test("Struct", function (assert) {
   const structTestInput: ThriftTest.Xtruct = new ThriftTest.Xtruct();
   structTestInput.string_thing = "worked";
   structTestInput.byte_thing = 0x01;
   structTestInput.i32_thing = Math.pow(2, 30);
   structTestInput.i64_thing = int64_2_pow_60;

   const structTestOutput: ThriftTest.Xtruct =
     client.testStruct(structTestInput);

   assert.equal(structTestOutput.string_thing, structTestInput.string_thing);
   assert.equal(structTestOutput.byte_thing, structTestInput.byte_thing);
   assert.equal(structTestOutput.i32_thing, structTestInput.i32_thing);
   assert.ok(structTestOutput.i64_thing.equals(structTestInput.i64_thing));
   assert.ok(structTestInput.i64_thing.equals(structTestOutput.i64_thing));

   assert.equal(
     JSONInt64.stringify(structTestOutput),
     JSONInt64.stringify(structTestInput),
   );
 });

 QUnit.test("Nest", function (assert) {
   const xtrTestInput: ThriftTest.Xtruct = new ThriftTest.Xtruct();
   xtrTestInput.string_thing = "worked";
   xtrTestInput.byte_thing = 0x01;
   xtrTestInput.i32_thing = Math.pow(2, 30);
   xtrTestInput.i64_thing = int64_2_pow_60;

   const nestTestInput: ThriftTest.Xtruct2 = new ThriftTest.Xtruct2();
   nestTestInput.byte_thing = 0x02;
   nestTestInput.struct_thing = xtrTestInput;
   nestTestInput.i32_thing = Math.pow(2, 15);

   const nestTestOutput: ThriftTest.Xtruct2 = client.testNest(nestTestInput);

   assert.equal(nestTestOutput.byte_thing, nestTestInput.byte_thing);
   assert.equal(
     nestTestOutput.struct_thing.string_thing,
     nestTestInput.struct_thing.string_thing,
   );
   assert.equal(
     nestTestOutput.struct_thing.byte_thing,
     nestTestInput.struct_thing.byte_thing,
   );
   assert.equal(
     nestTestOutput.struct_thing.i32_thing,
     nestTestInput.struct_thing.i32_thing,
   );
   assert.ok(
     nestTestOutput.struct_thing.i64_thing.equals(
       nestTestInput.struct_thing.i64_thing,
     ),
   );
   assert.equal(nestTestOutput.i32_thing, nestTestInput.i32_thing);

   assert.equal(
     JSONInt64.stringify(nestTestOutput),
     JSONInt64.stringify(nestTestInput),
   );
 });

 QUnit.test("Map", function (assert) {
   const mapTestInput: { [k: number]: number } = { 7: 77, 8: 88, 9: 99 };

   const mapTestOutput: { [k: number]: number } = client.testMap(mapTestInput);

   for (let key in mapTestOutput) {
     assert.equal(mapTestOutput[key], mapTestInput[key]);
   }
 });

 QUnit.test("StringMap", function (assert) {
   const mapTestInput: { [k: string]: string } = {
     a: "123",
     "a b": "with spaces ",
     same: "same",
     "0": "numeric key",
     longValue: stringTest,
     stringTest: "long key",
   };

   const mapTestOutput: { [k: string]: string } =
     client.testStringMap(mapTestInput);

   for (let key in mapTestOutput) {
     assert.equal(mapTestOutput[key], mapTestInput[key]);
   }
 });

 QUnit.test("Set", function (assert) {
   const setTestInput: number[] = [1, 2, 3];
   assert.ok(client.testSet(setTestInput), setTestInput);
 });

 QUnit.test("List", function (assert) {
   const listTestInput: number[] = [1, 2, 3];
   assert.ok(client.testList(listTestInput), listTestInput);
 });

 QUnit.test("Enum", function (assert) {
   assert.equal(client.testEnum(ThriftTest.Numberz.ONE), ThriftTest.Numberz.ONE);
 });

 QUnit.test("TypeDef", function (assert) {
   assert.equal(client.testTypedef(new Int64(69)), 69);
 });

 QUnit.module("deeper!");

 QUnit.test("MapMap", function (assert) {
   const mapMapTestExpectedResult: { [K: number]: { [k: number]: number } } = {
     "4": { "1": 1, "2": 2, "3": 3, "4": 4 },
     "-4": { "-4": -4, "-3": -3, "-2": -2, "-1": -1 },
   };

   const mapMapTestOutput = client.testMapMap(1);

   for (let key in mapMapTestOutput) {
     for (let key2 in mapMapTestOutput[key]) {
       assert.equal(
         mapMapTestOutput[key][key2],
         mapMapTestExpectedResult[key][key2],
       );
     }
   }

   checkRecursively(assert, mapMapTestOutput, mapMapTestExpectedResult);
 });

 QUnit.module("Exception");

 QUnit.test("Xception", function (assert) {
   assert.expect(2);
   const done = assert.async();
   try {
     client.testException("Xception");
     assert.ok(false);
   } catch (e) {
     assert.equal(e.errorCode, 1001);
     assert.equal(e.message, "Xception");
     done();
   }
 });

 QUnit.test("no Exception", function (assert) {
   assert.expect(1);
   try {
     client.testException("no Exception");
     assert.ok(true);
   } catch (e) {
     assert.ok(false);
   }
 });

 QUnit.test("TException", function (assert) {
   //ThriftTest does not list TException as a legal exception so it will
   // generate an exception on the server that does not propagate back to
   // the client. This test has been modified to equate to "no exception"
   assert.expect(1);
   try {
     client.testException("TException");
   } catch (e) {
     //assert.ok(false);
   }
   assert.ok(true);
 });

 QUnit.module("Insanity");

 const crazy: ThriftTest.Insanity = {
   userMap: { "5": new Int64(5), "8": new Int64(8) },
   xtructs: [
     {
       string_thing: "Goodbye4",
       byte_thing: 4,
       i32_thing: 4,
       i64_thing: new Int64(4),
     },
     {
       string_thing: "Hello2",
       byte_thing: 2,
       i32_thing: 2,
       i64_thing: new Int64(2),
     },
   ],
 };
 QUnit.test("testInsanity", function (assert) {
   const insanity: {
     [k: number]: ThriftTest.Insanity | { [k: number]: ThriftTest.Insanity };
   } = {
     "1": {
       "2": crazy,
       "3": crazy,
     },
     "2": { "6": new ThriftTest.Insanity() },
   };
   const res = client.testInsanity(new ThriftTest.Insanity(crazy));
   assert.ok(res, JSONInt64.stringify(res));
   assert.ok(insanity, JSONInt64.stringify(insanity));

   checkRecursively(assert, res, insanity);
 });

 //////////////////////////////////
 //Run same tests asynchronously

 QUnit.module("Async");

 QUnit.test("Double", function (assert) {
   assert.expect(1);

   const done = assert.async();
   client.testDouble(3.14159265, function (result) {
     assert.equal(result, 3.14159265);
     done();
   });
 });

 QUnit.test("Byte", function (assert) {
   assert.expect(1);

   const done = assert.async();
   client.testByte(0x01, function (result) {
     assert.equal(result, 0x01);
     done();
   });
 });

 QUnit.test("I32", function (assert) {
   assert.expect(2);

   const done = assert.async(2);
   client.testI32(Math.pow(2, 30), function (result) {
     assert.equal(result, Math.pow(2, 30));
     done();
   });

   client.testI32(Math.pow(-2, 31), function (result) {
     assert.equal(result, Math.pow(-2, 31));
     done();
   });
 });

 QUnit.test("I64", function (assert) {
   assert.expect(2);

   const done = assert.async(2);
   client.testI64(int64_2_pow_60, function (result) {
     assert.ok(int64_2_pow_60.equals(result));
     done();
   });

   client.testI64(int64_minus_2_pow_60, function (result) {
     assert.ok(int64_minus_2_pow_60.equals(result));
     done();
   });
 });
	import { ThriftTest } from "./gen-js/ThriftTest_types";
	import "./gen-js/ThriftTest";

	var Int64 = require("node-int64");
	var JSONInt64 = require("json-int64");
	var QUnit = require("./qunit");

	const transport: Thrift.Transport = new Thrift.Transport("/service");
	const protocol: Thrift.Protocol = new Thrift.Protocol(transport);
	const client: ThriftTest.ThriftTestClient = new ThriftTest.ThriftTestClient(
	protocol,
	);

	const int64_2_pow_60: typeof Int64 = new Int64("1000000000000000");
	const int64_minus_2_pow_60: typeof Int64 = new Int64("f000000000000000");

	// Work around for old API used by QUnitAdapter of jsTestDriver
	if (typeof QUnit.log == "function") {
	// When using real QUnit (fron PhantomJS) log failures to console
	QUnit.log(function (details) {
	if (!details.result) {
	console.log("======== FAIL ========");
	console.log("TestName: " + details.name);
	if (details.message) console.log(details.message);
	console.log("Expected: " + JSONInt64.stringify(details.expected));
	console.log("Actual : " + JSONInt64.stringify(details.actual));
	console.log("======================");
	}
	});
	}

	// all Languages in UTF-8
	const stringTest: string =
	"Afrikaans, Alemannisch, Aragonés, العربية, مصرى, Asturianu, Aymar aru, Azərbaycan, Башҡорт, Boarisch, Žemaitėška, Беларуская, Беларуская (тарашкевіца), Български, Bamanankan, বাংলা, Brezhoneg, Bosanski, Català, Mìng-dĕ̤ng-ngṳ̄, Нохчийн, Cebuano, ᏣᎳᎩ, Česky, Словѣ́ньскъ / ⰔⰎⰑⰂⰡⰐⰠⰔⰍⰟ, Чӑвашла, Cymraeg, Dansk, Zazaki, ދިވެހިބަސް, Ελληνικά, Emiliàn e rumagnòl, English, Esperanto, Español, Eesti, Euskara, فارسی, Suomi, Võro, Føroyskt, Français, Arpetan, Furlan, Frysk, Gaeilge, 贛語, Gàidhlig, Galego, Avañe'ẽ, ગુજરાતી, Gaelg, עברית, हिन्दी, Fiji Hindi, Hrvatski, Kreyòl ayisyen, Magyar, Հայերեն, Interlingua, Bahasa Indonesia, Ilokano, Ido, Íslenska, Italiano, 日本語, Lojban, Basa Jawa, ქართული, Kongo, Kalaallisut, ಕನ್ನಡ, 한국어, Къарачай-Малкъар, Ripoarisch, Kurdî, Коми, Kernewek, Кыргызча, Latina, Ladino, Lëtzebuergesch, Limburgs, Lingála, ລາວ, Lietuvių, Latviešu, Basa Banyumasan, Malagasy, Македонски, മലയാളം, मराठी, Bahasa Melayu, مازِرونی, Nnapulitano, Nedersaksisch, नेपाल भाषा, Nederlands, ‪Norsk (nynorsk)‬, ‪Norsk (bokmål)‬, Nouormand, Diné bizaad, Occitan, Иронау, Papiamentu, Deitsch, Norfuk / Pitkern, Polski, پنجابی, پښتو, Português, Runa Simi, Rumantsch, Romani, Română, Русский, Саха тыла, Sardu, Sicilianu, Scots, Sámegiella, Simple English, Slovenčina, Slovenščina, Српски / Srpski, Seeltersk, Svenska, Kiswahili, தமிழ், తెలుగు, Тоҷикӣ, ไทย, Türkmençe, Tagalog, Türkçe, Татарча/Tatarça, Українська, اردو, Tiếng Việt, Volapük, Walon, Winaray, 吴语, isiXhosa, ייִדיש, Yorùbá, Zeêuws, 中文, Bân-lâm-gú, 粵語";

	function checkRecursively(assert, map1: Object, map2: Object): void {
	if (typeof map1 !== "function" && typeof map2 !== "function") {
	if (!map1 \|\| typeof map1 !== "object") {
	assert.equal(map1, map2);
	} else {
	for (let key in map1) {
	checkRecursively(assert, map1[key], map2[key]);
	}
	}
	}
	}

	QUnit.module("Base Types");

	QUnit.test("Void", function (assert) {
	assert.equal(client.testVoid(), undefined);
	});
	QUnit.test("Binary (String)", function (assert) {
	let binary: string = "";
	for (let v = 255; v >= 0; --v) {
	binary += String.fromCharCode(v);
	}
	assert.equal(client.testBinary(binary), binary);
	});
	QUnit.test("Binary (Uint8Array)", function (assert) {
	let binary: string = "";
	for (let v = 255; v >= 0; --v) {
	binary += String.fromCharCode(v);
	}
	const arr: Uint8Array = new Uint8Array(binary.length);
	for (let i = 0; i < binary.length; ++i) {
	arr[i] = binary[i].charCodeAt(0);
	}
	const hexEncodedString = Array.from(arr, function (byte) {
	return String.fromCharCode(byte);
	}).join("");
	assert.equal(client.testBinary(hexEncodedString), binary);
	});
	QUnit.test("String", function (assert) {
	assert.equal(client.testString(""), "");
	assert.equal(client.testString(stringTest), stringTest);

	const specialCharacters: string =
	'quote: \" backslash:' +
	" forwardslash-escaped: \/ " +
	" backspace: \b formfeed: \f newline: \n return: \r tab: " +
	' now-all-of-them-together: "\\\/\b\n\r\t' +
	" now-a-bunch-of-junk: !@#$%&()(&%$#{}{}<><><";
	assert.equal(client.testString(specialCharacters), specialCharacters);
	});
	QUnit.test("Double", function (assert) {
	assert.equal(client.testDouble(0), 0);
	assert.equal(client.testDouble(-1), -1);
	assert.equal(client.testDouble(3.14), 3.14);
	assert.equal(client.testDouble(Math.pow(2, 60)), Math.pow(2, 60));
	});
	QUnit.test("Byte", function (assert) {
	assert.equal(client.testByte(0), 0);
	assert.equal(client.testByte(0x01), 0x01);
	});
	QUnit.test("I32", function (assert) {
	assert.equal(client.testI32(0), 0);
	assert.equal(client.testI32(Math.pow(2, 30)), Math.pow(2, 30));
	assert.equal(client.testI32(-Math.pow(2, 30)), -Math.pow(2, 30));
	});
	QUnit.test("I64", function (assert) {
	assert.equal(client.testI64(new Int64(0)), 0);

	let int64_2_pow_60_result: typeof Int64 = client.testI64(int64_2_pow_60);
	assert.ok(int64_2_pow_60.equals(int64_2_pow_60_result));

	let int64_minus_2_pow_60_result: typeof Int64 =
	client.testI64(int64_minus_2_pow_60);
	assert.ok(int64_minus_2_pow_60.equals(int64_minus_2_pow_60_result));
	});

	QUnit.module("Structured Types");

	QUnit.test("Struct", function (assert) {
	const structTestInput: ThriftTest.Xtruct = new ThriftTest.Xtruct();
	structTestInput.string_thing = "worked";
	structTestInput.byte_thing = 0x01;
	structTestInput.i32_thing = Math.pow(2, 30);
	structTestInput.i64_thing = int64_2_pow_60;

	const structTestOutput: ThriftTest.Xtruct =
	client.testStruct(structTestInput);

	assert.equal(structTestOutput.string_thing, structTestInput.string_thing);
	assert.equal(structTestOutput.byte_thing, structTestInput.byte_thing);
	assert.equal(structTestOutput.i32_thing, structTestInput.i32_thing);
	assert.ok(structTestOutput.i64_thing.equals(structTestInput.i64_thing));
	assert.ok(structTestInput.i64_thing.equals(structTestOutput.i64_thing));

	assert.equal(
	JSONInt64.stringify(structTestOutput),
	JSONInt64.stringify(structTestInput),
	);
	});

	QUnit.test("Nest", function (assert) {
	const xtrTestInput: ThriftTest.Xtruct = new ThriftTest.Xtruct();
	xtrTestInput.string_thing = "worked";
	xtrTestInput.byte_thing = 0x01;
	xtrTestInput.i32_thing = Math.pow(2, 30);
	xtrTestInput.i64_thing = int64_2_pow_60;

	const nestTestInput: ThriftTest.Xtruct2 = new ThriftTest.Xtruct2();
	nestTestInput.byte_thing = 0x02;
	nestTestInput.struct_thing = xtrTestInput;
	nestTestInput.i32_thing = Math.pow(2, 15);

	const nestTestOutput: ThriftTest.Xtruct2 = client.testNest(nestTestInput);

	assert.equal(nestTestOutput.byte_thing, nestTestInput.byte_thing);
	assert.equal(
	nestTestOutput.struct_thing.string_thing,
	nestTestInput.struct_thing.string_thing,
	);
	assert.equal(
	nestTestOutput.struct_thing.byte_thing,
	nestTestInput.struct_thing.byte_thing,
	);
	assert.equal(
	nestTestOutput.struct_thing.i32_thing,
	nestTestInput.struct_thing.i32_thing,
	);
	assert.ok(
	nestTestOutput.struct_thing.i64_thing.equals(
	nestTestInput.struct_thing.i64_thing,
	),
	);
	assert.equal(nestTestOutput.i32_thing, nestTestInput.i32_thing);

	assert.equal(
	JSONInt64.stringify(nestTestOutput),
	JSONInt64.stringify(nestTestInput),
	);
	});

	QUnit.test("Map", function (assert) {
	const mapTestInput: { [k: number]: number } = { 7: 77, 8: 88, 9: 99 };

	const mapTestOutput: { [k: number]: number } = client.testMap(mapTestInput);

	for (let key in mapTestOutput) {
	assert.equal(mapTestOutput[key], mapTestInput[key]);
	}
	});

	QUnit.test("StringMap", function (assert) {
	const mapTestInput: { [k: string]: string } = {
	a: "123",
	"a b": "with spaces ",
	same: "same",
	"0": "numeric key",
	longValue: stringTest,
	stringTest: "long key",
	};

	const mapTestOutput: { [k: string]: string } =
	client.testStringMap(mapTestInput);

	for (let key in mapTestOutput) {
	assert.equal(mapTestOutput[key], mapTestInput[key]);
	}
	});

	QUnit.test("Set", function (assert) {
	const setTestInput: number[] = [1, 2, 3];
	assert.ok(client.testSet(setTestInput), setTestInput);
	});

	QUnit.test("List", function (assert) {
	const listTestInput: number[] = [1, 2, 3];
	assert.ok(client.testList(listTestInput), listTestInput);
	});

	QUnit.test("Enum", function (assert) {
	assert.equal(client.testEnum(ThriftTest.Numberz.ONE), ThriftTest.Numberz.ONE);
	});

	QUnit.test("TypeDef", function (assert) {
	assert.equal(client.testTypedef(new Int64(69)), 69);
	});

	QUnit.module("deeper!");

	QUnit.test("MapMap", function (assert) {
	const mapMapTestExpectedResult: { [K: number]: { [k: number]: number } } = {
	"4": { "1": 1, "2": 2, "3": 3, "4": 4 },
	"-4": { "-4": -4, "-3": -3, "-2": -2, "-1": -1 },
	};

	const mapMapTestOutput = client.testMapMap(1);

	for (let key in mapMapTestOutput) {
	for (let key2 in mapMapTestOutput[key]) {
	assert.equal(
	mapMapTestOutput[key][key2],
	mapMapTestExpectedResult[key][key2],
	);
	}
	}

	checkRecursively(assert, mapMapTestOutput, mapMapTestExpectedResult);
	});

	QUnit.module("Exception");

	QUnit.test("Xception", function (assert) {
	assert.expect(2);
	const done = assert.async();
	try {
	client.testException("Xception");
	assert.ok(false);
	} catch (e) {
	assert.equal(e.errorCode, 1001);
	assert.equal(e.message, "Xception");
	done();
	}
	});

	QUnit.test("no Exception", function (assert) {
	assert.expect(1);
	try {
	client.testException("no Exception");
	assert.ok(true);
	} catch (e) {
	assert.ok(false);
	}
	});

	QUnit.test("TException", function (assert) {
	//ThriftTest does not list TException as a legal exception so it will
	// generate an exception on the server that does not propagate back to
	// the client. This test has been modified to equate to "no exception"
	assert.expect(1);
	try {
	client.testException("TException");
	} catch (e) {
	//assert.ok(false);
	}
	assert.ok(true);
	});

	QUnit.module("Insanity");

	const crazy: ThriftTest.Insanity = {
	userMap: { "5": new Int64(5), "8": new Int64(8) },
	xtructs: [
	{
	string_thing: "Goodbye4",
	byte_thing: 4,
	i32_thing: 4,
	i64_thing: new Int64(4),
	},
	{
	string_thing: "Hello2",
	byte_thing: 2,
	i32_thing: 2,
	i64_thing: new Int64(2),
	},
	],
	};
	QUnit.test("testInsanity", function (assert) {
	const insanity: {
	[k: number]: ThriftTest.Insanity \| { [k: number]: ThriftTest.Insanity };
	} = {
	"1": {
	"2": crazy,
	"3": crazy,
	},
	"2": { "6": new ThriftTest.Insanity() },
	};
	const res = client.testInsanity(new ThriftTest.Insanity(crazy));
	assert.ok(res, JSONInt64.stringify(res));
	assert.ok(insanity, JSONInt64.stringify(insanity));

	checkRecursively(assert, res, insanity);
	});

	//////////////////////////////////
	//Run same tests asynchronously

	QUnit.module("Async");

	QUnit.test("Double", function (assert) {
	assert.expect(1);

	const done = assert.async();
	client.testDouble(3.14159265, function (result) {
	assert.equal(result, 3.14159265);
	done();
	});
	});

	QUnit.test("Byte", function (assert) {
	assert.expect(1);

	const done = assert.async();
	client.testByte(0x01, function (result) {
	assert.equal(result, 0x01);
	done();
	});
	});

	QUnit.test("I32", function (assert) {
	assert.expect(2);

	const done = assert.async(2);
	client.testI32(Math.pow(2, 30), function (result) {
	assert.equal(result, Math.pow(2, 30));
	done();
	});

	client.testI32(Math.pow(-2, 31), function (result) {
	assert.equal(result, Math.pow(-2, 31));
	done();
	});
	});

	QUnit.test("I64", function (assert) {
	assert.expect(2);

	const done = assert.async(2);
	client.testI64(int64_2_pow_60, function (result) {
	assert.ok(int64_2_pow_60.equals(result));
	done();
	});

	client.testI64(int64_minus_2_pow_60, function (result) {
	assert.ok(int64_minus_2_pow_60.equals(result));
	done();
	});
	});