Dive into secure and efficient coding practices with our curated list of the top 10 examples showcasing 'mocha-typescript' in functional components in JavaScript. Our advanced machine learning engine meticulously scans each line of code, cross-referencing millions of open source libraries to ensure your implementation is not just functional, but also robust and secure. Elevate your React applications to new heights by mastering the art of handling side effects, API calls, and asynchronous operations with confidence and precision.
suite('ioc/Decorators', () => {
suite('Autowire', () => {
test('Autowire gets called', () => {
// const val = new Test1();
Reflect.hasMetadata('inceptum', Test1.prototype).must.be.true();
const metadata = Reflect.getMetadata('inceptum', Test1.prototype);
metadata.autowire.get('prop1').must.equal('the value');
});
});
suite('Lazy', () => {
test('Lazy gets called', () => {
// const val = new Test1();
Reflect.hasMetadata('inceptum', Test1.prototype).must.be.true();
const metadata = Reflect.getMetadata('inceptum', Test1.prototype);
metadata.lazy.must.be.false();
});
});
suite('Groups', () => {
test('Groups are Autowired', async () => {
const context = new Context('test1');
context.addObjectDefinitionInspector(new ObjectDefinitionDecoratorInspector());
context.registerDefinition(new BaseSingletonDefinition(Wired1));
context.registerDefinition(new BaseSingletonDefinition(Wired2));
context.registerDefinition(new BaseSingletonDefinition(Wired3));
context.registerDefinition(new BaseSingletonDefinition(WireInto));
await context.lcStart();
});
test('If trace contains me, there\'s a Circular Dependency', () => {
const def = new BaseSingletonDefinition<a>(A);
try {
def.checkConstructorCircularDependency(['hsd', 'A']);
false.must.be.true();
} catch (e) {
e.must.be.an.error(/Circular dependency detected/);
}
});
test('If trace doesn\'t contains me, there\'s no Circular Dependency', () => {
const def = new BaseSingletonDefinition</a><a>(A);
def.checkConstructorCircularDependency(['hsd', 'B']);
});
});
suite('getInstance', () => {
test('get simple instance', () => {
const contextMock = MockUtil.mock(Context);
// const contextMock = new Object();
const defA = new BaseSingletonDefinition</a><a>(A);
defA.setContext(contextMock);
const promise = defA.getInstance()
.then((instance) => {
instance.must.not.be.falsy();
});
return promise;
});
test('get instance with constructor dep', () => {
const contextMock = MockUtil.mock(Context);
// const contextMock = new Object();
const defA = new BaseSingletonDefinition</a><a>(A);</a>
suite('HealthCheckGroup', () => {
suite('Grouping', () => {
test('adding simple test adds it directly', () => {
const group = new HealthCheckGroup('test1');
const mockHealthCheck = mock(HealthCheck);
when(mockHealthCheck.getCheckName()).thenReturn('simpleId');
group.addCheck(instance(mockHealthCheck));
group.healthChecks.size.must.equal(1);
Array.from(group.healthChecks.keys()).must.eql(['simpleId']);
});
test('adding 2nd level test adds it to a group', () => {
const group = new HealthCheckGroup('test1');
const mockHealthCheck = mock(HealthCheck);
when(mockHealthCheck.getCheckName()).thenReturn('simpleId.subtest');
group.addCheck(instance(mockHealthCheck));
group.healthChecks.size.must.equal(1);
Array.from(group.healthChecks.keys()).must.eql(['simpleId']);
const simpleIdGroup = group.healthChecks.get('simpleId');
group.healthChecks.size.must.equal(1);
Array.from(group.healthChecks.keys()).must.eql(['simpleId']);
const simpleIdGroup = group.healthChecks.get('simpleId');
simpleIdGroup.must.be.instanceOf(HealthCheckGroup);
const asGroup = simpleIdGroup as HealthCheckGroup;
asGroup.healthChecks.size.must.equal(1);
Array.from(asGroup.healthChecks.keys()).must.eql(['subtest']);
const simpleIdGroup2 = asGroup.healthChecks.get('subtest');
simpleIdGroup2.must.be.instanceOf(HealthCheckGroup);
const asGroup2 = simpleIdGroup2 as HealthCheckGroup;
asGroup2.healthChecks.size.must.equal(1);
Array.from(asGroup2.healthChecks.keys()).must.eql(['subsubtest']);
});
});
suite('Lifecycle', () => {
test('starting the group starts the checks', () => {
const group = new HealthCheckGroup('test1');
const mockHealthCheck = mock(HealthCheck);
when(mockHealthCheck.getCheckName()).thenReturn('simpleId');
group.addCheck(instance(mockHealthCheck));
group.start();
verify(mockHealthCheck.start()).once();
group.stop();
});
test('stopping the group stops the checks', () => {
const group = new HealthCheckGroup('test1');
const mockHealthCheck = mock(HealthCheck);
when(mockHealthCheck.getCheckName()).thenReturn('simpleId');
group.addCheck(instance(mockHealthCheck));
group.start();
verify(mockHealthCheck.start()).once();
import { suite, test, slow, timeout } from "mocha-typescript";
import {mount} from "avoriaz";
import SelectList from "./../src/select-list.ts";
import expect from 'expect';
import {StandardSlot} from "./resources.ts";
import sinon from 'sinon';
suite("SelectList", () => {
test("it can set the name", () => {
let wrapper: any = mount(SelectList, {
propsData: {
name: 'title'
}
});
expect(wrapper.first('select').hasAttribute('name')).toBe(true);
expect(wrapper.first('select').getAttribute('name')).toBe('title');
});
test("the label gets output", () => {
let wrapper: any = mount(SelectList, {
propsData: {
name: 'title',
label: 'My Input'
suite('ioc/Context', () => {
suite('inheritance', () => {
test('starting the child context starts the parent context', () => {
const parentContext = new Context('parent context');
const childContext = new Context('child context', parentContext);
return childContext.lcStart()
.then(() => {
childContext.getStatus().must.be.equal(LifecycleState.STARTED);
parentContext.getStatus().must.be.equal(LifecycleState.STARTED);
})
.then(() => childContext.lcStop());
});
test('stopping the child context stops the parent context', () => {
const parentContext = new Context('parent context');
const childContext = new Context('child context', parentContext);
return childContext.lcStart()
.then(() => childContext.lcStop())
.then(() => {
const myContext = new Context('test1');
myContext.registerSingletons(new BaseSingletonDefinition(A).constructorParamByRef('B'));
myContext.registerSingletons(new BaseSingletonDefinition(B).constructorParamByRef('A'));
return myContext.lcStart()
.then(() => myContext.getObjectByName('A'))
.then(() => {
throw new Error('Shouldn\'t be here');
})
.catch((err) => {
err.must.be.an.error(/Circular dependency detected/);
})
.then(() => myContext.lcStop());
});
});
suite('cloning', () => {
test('throws an exception when in any state other than NOT_STARTED', () => {
const myContext = new Context('test1');
return myContext.lcStart()
.then(() => myContext.clone('copy'))
.catch((err) => err.must.be.an.error(/Operation requires state to be/))
.then(() => myContext.lcStop());
});
test('clones all object definitions', () => {
const myContext = new Context('test1');
myContext.registerSingletons(new BaseSingletonDefinition(A).constructorParamByValue('the value'));
const clonedContext = myContext.clone('test2');
return myContext.lcStart()
.then(() => clonedContext.lcStart())
.then(() => PromiseUtil.mapSeries([myContext, clonedContext], (c) => c.getObjectByName('A')))
const myContext = new Context('test1');
myContext.registerSingletons(new BaseSingletonDefinition(A));
myContext.registerSingletons(new BaseSingletonDefinition(B).setPropertyByDefinitionGroup('a', 'myGroup'));
myContext.addObjectNameToGroup('myGroup', 'A');
await myContext.lcStart();
const b: B = await myContext.getObjectByName('B');
(b === undefined).must.be.false();
(b.a === undefined).must.be.false();
b.a.must.be.an.array();
b.a.length.must.equal(1);
(b.a[0] instanceof BaseSingletonDefinition).must.be.true();
(b.a[0] as any as BaseSingletonDefinition).getName().must.equal('A');
await myContext.lcStop();
});
});
suite('wiring', () => {
test('can manage circular dependencies', () => {
const myContext = new Context('test1');
myContext.registerSingletons(new BaseSingletonDefinition<a>(A).constructorParamByRef('B'));
myContext.registerSingletons(new BaseSingletonDefinition<b>(B).setPropertyByRef('a', 'A'));
return myContext.lcStart()
.then(() => PromiseUtil.map(['A', 'B'], (n) => myContext.getObjectByName(n)))
.then(([a, b]) => {
(a === undefined).must.be.false();
(b === undefined).must.be.false();
(a.val === undefined).must.be.false();
a.val.must.be.equal(b);
return [a, b];
})
.then((v) => PromiseUtil.sleepPromise(20, v))
.then(([a, b]) => {
b.a.must.be.equal(a);</b></a>
import {
assert,
} from 'chai'
import {
suite,
test,
skip,
} from 'mocha-typescript'
import { ORDERBOOK_VERSION } from '../src/api'
import { Order, OrderSide, OrderJSON } from '../src/types'
import { orderToJSON } from '../src'
import { mainApi, rinkebyApi, apiToTest, ALEX_ADDRESS, CK_RINKEBY_TOKEN_ID, CK_RINKEBY_ADDRESS, CK_RINKEBY_SELLER_FEE } from './constants'
suite('api', () => {
test('API has correct base url', () => {
assert.equal(mainApi.apiBaseUrl, 'https://api.opensea.io')
assert.equal(rinkebyApi.apiBaseUrl, 'https://rinkeby-api.opensea.io')
})
test('API fetches bundles and prefetches sell orders', async () => {
const { bundles } = await apiToTest.getBundles({asset_contract_address: CK_RINKEBY_ADDRESS, on_sale: true})
assert.isArray(bundles)
const bundle = bundles[0]
assert.isNotNull(bundle)
if (!bundle) {
return
}
assert.include(bundle.assets.map(a => a.assetContract.name), "CryptoKittiesRinkeby")
import { JsonTslint } from '@scaffold/generators'
import { expect } from 'chai'
import { skip, slow, suite, test, timeout } from 'mocha-typescript'
import { join } from 'path'
@suite('Unit::Scaffold::JsonTslint')
class Test {
@test
'can be initialized'() {
const gen = JsonTslint()
expect(gen).to.be.an('object')
}
}