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NativeScript/tests/app/TKUnit.ts
Panayot Cankov c1aeeb51a7 Inital by-type split 
Split type.class from CssTypeSelector to CssCompositeSelector, probably support type#id.class selectors

Apply review comments, refactor css-selectors internally

Applied refactoring, all tests pass, button does not notify changes

Add tests for the css selectors parser.

Added tests for css-selectors

Added basic implementation of mayMatch and changeMap for css match state

Implemented TKUnit.assertDeepEqual to check key and key/values in Map and Set

Watch for property and pseudoClass changes

Add one child group test

Add typings for animations

Added mechanism to enable/disable listeners for pseudo classes

Count listeners instead of checking handlers, reverse subscription and unsubscription
2016-07-18 17:24:09 +03:00

469 lines
15 KiB
TypeScript
Raw Blame History

/* tslint:disable */
/* Notes:
1. all test function names should begin with 'test'
2. (if exists) at the beginning of module test setUpModule() module function is called
3. (if exists) at the beginning of each test setUp() module function is called
4. tests should use TKUnit.assert(condition, message) to mark error. If no assert fails test is successful
5. (if exists) at the end of each test tearDown() module function is called
6. (if exists) at the end of module test tearDownModule() module function is called
*/
import Application = require("application");
import timer = require("timer");
import trace = require("trace");
import types = require("utils/types");
import platform = require("platform");
var sdkVersion = parseInt(platform.device.sdkVersion);
trace.enable();
export interface TestInfoEntry {
testFunc: () => void;
instance: Object;
isTest: boolean;
testName: string;
isPassed: boolean;
errorMessage: string;
testTimeout: number;
duration: number;
}
export function time(): number {
if (global.android) {
return java.lang.System.nanoTime() / 1000000; // 1 ms = 1000000 ns
}
else {
return CACurrentMediaTime() * 1000;
}
}
export var write = function write(message: string, type?: number) {
//console.log(message);
trace.write(message, trace.categories.Test, type);
}
var runTest = function (testInfo: TestInfoEntry) {
let start = time();
let duration;
try {
if (testInfo.instance) {
testInfo.testFunc.apply(testInfo.instance);
}
else {
testInfo.testFunc();
}
if (testInfo.isTest) {
duration = time() - start;
testInfo.duration = duration;
write(`--- [${testInfo.testName}] OK, duration: ${duration}`, trace.messageType.info);
testInfo.isPassed = true;
}
}
catch (e) {
if (testInfo.isTest) {
duration = time() - start;
testInfo.duration = duration;
write(`--- [${testInfo.testName}] FAILED: ${e.message}, Stack: ${e.stack}, duration: ${duration}`, trace.messageType.error);
testInfo.isPassed = false;
testInfo.errorMessage = e.message;
}
}
};
export interface TestFailure {
moduleName: string;
testName: string;
errorMessage: string;
}
export interface TestModuleRunResult {
name: string;
count: number;
succeeded: number;
failed: Array<TestFailure>;
}
var testsQueue: Array<TestInfoEntry>;
var defaultTimeout = 5000;
// testInfo : {testFunc: func, testName: string, isTest: boolean, isPassed: boolean, errorMessage: string}
function runAsync(testInfo: TestInfoEntry, recursiveIndex: number, testTimeout?: number) {
var error;
var isDone = false;
var handle;
var testStartTime = time();
//write("--- [" + testInfo.testName + "] Started at: " + testStartTime, trace.messageType.info);
var doneCallback = function (e: Error) {
if (e) {
error = e;
}
else {
isDone = true;
}
}
var testTimeout = testInfo.testTimeout;
if (!testTimeout) {
testTimeout = defaultTimeout;
}
let duration;
var checkFinished = function () {
duration = time() - testStartTime;
testInfo.duration = duration;
if (isDone) {
write("--- [" + testInfo.testName + "] OK, duration: " + duration, trace.messageType.info);
//write("--- [" + testInfo.testName + "] took: " + (new Date().getTime() - testStartTime), trace.messageType.info);
testInfo.isPassed = true;
runTests(testsQueue, recursiveIndex + 1);
}
else if (error) {
write("--- [" + testInfo.testName + "] FAILED: " + error.message + ", duration: " + duration, trace.messageType.error);
//write("--- [" + testInfo.testName + "] took: " + (new Date().getTime() - testStartTime), trace.messageType.info);
testInfo.errorMessage = error.message;
runTests(testsQueue, recursiveIndex + 1);
}
else {
var testEndTime = time();
if (testEndTime - testStartTime > testTimeout) {
write("--- [" + testInfo.testName + "] TIMEOUT, duration: " + duration, trace.messageType.error);
//write("--- [" + testInfo.testName + "] took: " + (testEndTime - testStartTime), trace.messageType.info);
testInfo.errorMessage = "Test timeout.";
runTests(testsQueue, recursiveIndex + 1);
}
else {
setTimeout(checkFinished, 10);
}
}
}
try {
if (testInfo.instance) {
testInfo.testFunc.apply(testInfo.instance, [doneCallback]);
} else {
var func: any = testInfo.testFunc;
func(doneCallback);
}
} catch (e) {
doneCallback(e);
}
setTimeout(checkFinished, 0);
}
// tests : Array<{testFunc: func, testName: string, isTest: boolean, isPassed: boolean, errorMessage: string}>
export var runTests = function (tests: Array<TestInfoEntry>, recursiveIndex) {
testsQueue = tests;
var i;
for (i = recursiveIndex; i < testsQueue.length; i++) {
var testEntry = testsQueue[i];
if (testEntry.testFunc.length > 0) {
return runAsync(testEntry, i);
}
else {
runTest(testEntry);
}
}
}
export function assert(test: any, message?: string) {
if (!test) {
throw new Error(message);
}
};
export function assertTrue(test: boolean, message?: string) {
if (test !== true) {
throw new Error(message);
}
};
export function assertFalse(test: boolean, message?: string) {
if (test !== false) {
throw new Error(message);
}
};
export function assertNotEqual(actual: any, expected: any, message?: string) {
var equals = false;
if (types.isUndefined(actual) && types.isUndefined(expected)) {
equals = true;
}
else if (!types.isNullOrUndefined(actual) && !types.isNullOrUndefined(expected)) {
if (types.isFunction(actual.equals)) {
// Use the equals method
if (actual.equals(expected)) {
equals = true;
}
}
else {
equals = actual === expected;
}
}
if (equals) {
throw new Error(message + " Actual: " + actual + " Expected: " + expected);
}
}
export function assertEqual(actual: any, expected: any, message?: string) {
if (!types.isNullOrUndefined(actual)
&& !types.isNullOrUndefined(expected)
&& types.getClass(actual) === types.getClass(expected)
&& types.isFunction(actual.equals)) {
// Use the equals method
if (!actual.equals(expected)) {
throw new Error(`${message} Actual: <${actual}>(${typeof(actual)}). Expected: <${expected}>(${typeof(expected)})`);
}
}
else if (actual !== expected) {
throw new Error(`${message} Actual: <${actual}>(${typeof(actual)}). Expected: <${expected}>(${typeof(expected)})`);
}
};
/**
* Assert two json like objects are deep equal.
*/
export function assertDeepEqual(actual, expected, path: any[] = []): void {
let typeofActual = typeof actual;
let typeofExpected = typeof expected;
if (typeofActual !== typeofExpected) {
throw new Error("At /" + path.join("/") + " types of actual " + typeofActual + " and expected " + typeofExpected + " differ.");
} else if (typeofActual === "object" || typeofActual === "array") {
if (expected instanceof Map) {
if (actual instanceof Map) {
expected.forEach((value, key) => {
if (actual.has(key)) {
assertDeepEqual(actual.get(key), value, path.concat([key]));
} else {
throw new Error("At /" + path.join("/") + " expected Map has key '" + key + "' but actual does not.");
}
});
actual.forEach((value, key) => {
if (!expected.has(key)) {
throw new Error("At /" + path.join("/") + " actual Map has key '" + key + "' but expected does not.");
}
});
} else {
throw new Error("At /" + path.join("/") + " expected is Map but actual is not.");
}
}
if (expected instanceof Set) {
if (actual instanceof Set) {
expected.forEach(i => {
if (!actual.has(i)) {
throw new Error("At /" + path.join("/") + " expected Set has item '" + i + "' but actual does not.");
}
});
actual.forEach(i => {
if (!expected.has(i)) {
throw new Error("At /" + path.join("/") + " actual Set has item '" + i + "' but expected does not.");
}
})
} else {
throw new Error("At /" + path.join("/") + " expected is Set but actual is not.");
}
}
for (let key in actual) {
if (!(key in expected)) {
throw new Error("At /" + path.join("/") + " found unexpected key " + key + ".");
}
assertDeepEqual(actual[key], expected[key], path.concat([key]));
}
for (let key in expected) {
if (!(key in actual)) {
throw new Error("At /" + path.join("/") + " expected a key " + key + ".");
}
}
} else if (actual !== expected) {
throw new Error("At /" + path.join("/") + " actual: '" + actual + "' and expected: '" + expected + "' differ.");
}
}
export function assertDeepSuperset(actual, expected, path: any[] = []): void {
let typeofActual = typeof actual;
let typeofExpected = typeof expected;
if (typeofActual !== typeofExpected) {
throw new Error("At /" + path.join("/") + " types of actual " + typeofActual + " and expected " + typeofExpected + " differ.");
} else if (typeofActual === "object" || typeofActual === "array") {
for (let key in expected) {
if (!(key in actual)) {
throw new Error("At /" + path.join("/") + " expected a key " + key + ".");
}
assertDeepSuperset(actual[key], expected[key], path.concat([key]));
}
} else if (actual !== expected) {
throw new Error("At /" + path.join("/") + " actual: '" + actual + "' and expected: '" + expected + "' differ.");
}
}
export function assertNull(actual: any, message?: string) {
if (actual !== null && actual !== undefined) {
throw new Error(message + " Actual: " + actual + " is not null/undefined");
}
};
export function assertNotNull(actual: any, message?: string) {
if (actual === null || actual === undefined) {
throw new Error(message + " Actual: " + actual + " is null/undefined");
}
};
export function areClose(actual: number, expected: number, delta: number): boolean {
if (isNaN(actual) || Math.abs(actual - expected) > delta) {
return false;
}
return true;
}
export function assertAreClose(actual: number, expected: number, delta: number, message?: string) {
if (!areClose(actual, expected, delta)) {
throw new Error(message + " Numbers are not close enough. Actual: " + actual + " Expected: " + expected + " Delta: " + delta);
}
};
export function arrayAssert(actual: Array<any>, expected: Array<any>, message?: string) {
if (actual.length !== expected.length) {
throw new Error(message + " Actual array length: " + actual.length + " Expected array length: " + expected.length);
}
var i;
for (i = 0; i < actual.length; i++) {
if (actual[i] !== expected[i]) {
throw new Error(message + " Actual element at " + i + " is: " + actual[i] + " Expected element is: " + expected[i]);
}
}
}
export function assertThrows(testFunc: () => void, assertMessage?: string, expectedMessage?: string) {
var actualError: Error;
try {
testFunc();
} catch (e) {
actualError = e;
}
if (!actualError) {
throw new Error("Missing expected exception. " + assertMessage);
}
if (expectedMessage && actualError.message !== expectedMessage) {
throw new Error("Got unwanted exception. Actual error: " + actualError.message + " Expected error: " + expectedMessage);
}
}
export var wait = function (seconds: number) {
waitUntilReady(function () {
return false;
}, seconds);
};
export var waitUntilReady = function (isReady: () => boolean, timeoutSec?: number) {
if (!isReady) {
return;
}
if (!timeoutSec) {
// TODO: How much should be the default timeout in seconds?
timeoutSec = 20;
}
if (Application.ios) {
var waitTime = 20 / 1000;
var totalWaitTime = 0;
while (true) {
NSRunLoop.currentRunLoop().runUntilDate(NSDate.dateWithTimeIntervalSinceNow(waitTime));
if (isReady()) {
break;
}
totalWaitTime += waitTime;
if (timeoutSec && totalWaitTime >= timeoutSec) {
break;
}
}
} else if (Application.android) {
doModalAndroid(isReady, timeoutSec);
}
};
// Setup for the Android modal loop implementation
// TODO: If these platform-specific implementations continue to grow, think of per-platform separation (TKUnit.android)
var nextMethod;
var targetField;
var prepared;
var prepareModal = function () {
if (prepared) {
return;
}
var clsMsgQueue = java.lang.Class.forName("android.os.MessageQueue");
var clsMsg = java.lang.Class.forName("android.os.Message");
nextMethod;
var methods = clsMsgQueue.getDeclaredMethods();
var i;
for (i = 0; i < methods.length; i++) {
if (methods[i].getName() === "next") {
nextMethod = methods[i];
nextMethod.setAccessible(true);
break;
}
}
targetField;
var fields = clsMsg.getDeclaredFields();
for (i = 0; i < fields.length; i++) {
if (fields[i].getName() === "target") {
targetField = fields[i];
targetField.setAccessible(true);
break;
}
}
prepared = true;
}
var doModalAndroid = function (quitLoop: () => boolean, timeoutSec: number) {
if (!quitLoop) {
return;
}
prepareModal();
var queue = android.os.Looper.myQueue();
var quit = false;
timer.setTimeout(function () {
quit = true;
}, timeoutSec * 1000);
var msg;
while (!quit) {
msg = nextMethod.invoke(queue, null);
if (msg) {
var target = targetField.get(msg);
if (!target) {
quit = true;
} else {
target.dispatchMessage(msg);
}
if (sdkVersion < 21) {//https://code.google.com/p/android-test-kit/issues/detail?id=84
msg.recycle();
}
}
if (!quit && quitLoop()) {
quit = true;
}
}
};
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