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Timer Class in Java Example | Java Timer Class Tutorial
In programming, there are many tasks that must be scheduled either to run once or for a repeated number of times. In Java, this can be achieved with the help of the Timer class. The Timer class calls a method that is responsible for scheduling any task. Various threads can use this method, and thus the Timer class is said to be thread-safe.
Timer Class in Java
Timer class is thread-safe. Timer class uses a binary heap data structure to store its task. The Timer class uses a binary heap data structure for storing the tasks. The binary heap is a complete binary tree that satisfies the property of heap order. Each node of this binary tree represents a task in the Timer class.
The Timer class, like all the other classes, inherits from the Object class. Therefore, the declaration of the Timer class is as follows:
public class Timer extends Object
But, by default, as every class inherits from the Object class, there is no need to mention the Object class in is a declaration. Therefore, It is okay to write the above code as follows.
public class Timer
Now, whenever we create an object of the Timer class, its constructor will be called. The Timer class contains overloaded constructors in its body. Let us have a look at the types of constructors of the Timer class.
#java #programming
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1677668905
TS-mockito: Mocking Library for TypeScript
TS-mockito
Mocking library for TypeScript inspired by http://mockito.org/
1.x to 2.x migration guide
Main features
- Strongly typed
- IDE autocomplete
- Mock creation (
mock) (also abstract classes) #example - Spying on real objects (
spy) #example - Changing mock behavior (
when) via: - Checking if methods were called with given arguments (
verify) - Resetting mock (
reset,resetCalls) #example, #example - Capturing arguments passed to method (
capture) #example - Recording multiple behaviors #example
- Readable error messages (ex.
'Expected "convertNumberToString(strictEqual(3))" to be called 2 time(s). But has been called 1 time(s).')
Installation
npm install ts-mockito --save-dev
Usage
Basics
// Creating mock
let mockedFoo:Foo = mock(Foo);
// Getting instance from mock
let foo:Foo = instance(mockedFoo);
// Using instance in source code
foo.getBar(3);
foo.getBar(5);
// Explicit, readable verification
verify(mockedFoo.getBar(3)).called();
verify(mockedFoo.getBar(anything())).called();
Stubbing method calls
// Creating mock
let mockedFoo:Foo = mock(Foo);
// stub method before execution
when(mockedFoo.getBar(3)).thenReturn('three');
// Getting instance
let foo:Foo = instance(mockedFoo);
// prints three
console.log(foo.getBar(3));
// prints null, because "getBar(999)" was not stubbed
console.log(foo.getBar(999));
Stubbing getter value
// Creating mock
let mockedFoo:Foo = mock(Foo);
// stub getter before execution
when(mockedFoo.sampleGetter).thenReturn('three');
// Getting instance
let foo:Foo = instance(mockedFoo);
// prints three
console.log(foo.sampleGetter);
Stubbing property values that have no getters
Syntax is the same as with getter values.
Please note, that stubbing properties that don't have getters only works if Proxy object is available (ES6).
Call count verification
// Creating mock
let mockedFoo:Foo = mock(Foo);
// Getting instance
let foo:Foo = instance(mockedFoo);
// Some calls
foo.getBar(1);
foo.getBar(2);
foo.getBar(2);
foo.getBar(3);
// Call count verification
verify(mockedFoo.getBar(1)).once(); // was called with arg === 1 only once
verify(mockedFoo.getBar(2)).twice(); // was called with arg === 2 exactly two times
verify(mockedFoo.getBar(between(2, 3))).thrice(); // was called with arg between 2-3 exactly three times
verify(mockedFoo.getBar(anyNumber()).times(4); // was called with any number arg exactly four times
verify(mockedFoo.getBar(2)).atLeast(2); // was called with arg === 2 min two times
verify(mockedFoo.getBar(anything())).atMost(4); // was called with any argument max four times
verify(mockedFoo.getBar(4)).never(); // was never called with arg === 4
Call order verification
// Creating mock
let mockedFoo:Foo = mock(Foo);
let mockedBar:Bar = mock(Bar);
// Getting instance
let foo:Foo = instance(mockedFoo);
let bar:Bar = instance(mockedBar);
// Some calls
foo.getBar(1);
bar.getFoo(2);
// Call order verification
verify(mockedFoo.getBar(1)).calledBefore(mockedBar.getFoo(2)); // foo.getBar(1) has been called before bar.getFoo(2)
verify(mockedBar.getFoo(2)).calledAfter(mockedFoo.getBar(1)); // bar.getFoo(2) has been called before foo.getBar(1)
verify(mockedFoo.getBar(1)).calledBefore(mockedBar.getFoo(999999)); // throws error (mockedBar.getFoo(999999) has never been called)
Throwing errors
let mockedFoo:Foo = mock(Foo);
when(mockedFoo.getBar(10)).thenThrow(new Error('fatal error'));
let foo:Foo = instance(mockedFoo);
try {
foo.getBar(10);
} catch (error:Error) {
console.log(error.message); // 'fatal error'
}
Custom function
You can also stub method with your own implementation
let mockedFoo:Foo = mock(Foo);
let foo:Foo = instance(mockedFoo);
when(mockedFoo.sumTwoNumbers(anyNumber(), anyNumber())).thenCall((arg1:number, arg2:number) => {
return arg1 * arg2;
});
// prints '50' because we've changed sum method implementation to multiply!
console.log(foo.sumTwoNumbers(5, 10));
Resolving / rejecting promises
You can also stub method to resolve / reject promise
let mockedFoo:Foo = mock(Foo);
when(mockedFoo.fetchData("a")).thenResolve({id: "a", value: "Hello world"});
when(mockedFoo.fetchData("b")).thenReject(new Error("b does not exist"));
Resetting mock calls
You can reset just mock call counter
// Creating mock
let mockedFoo:Foo = mock(Foo);
// Getting instance
let foo:Foo = instance(mockedFoo);
// Some calls
foo.getBar(1);
foo.getBar(1);
verify(mockedFoo.getBar(1)).twice(); // getBar with arg "1" has been called twice
// Reset mock
resetCalls(mockedFoo);
// Call count verification
verify(mockedFoo.getBar(1)).never(); // has never been called after reset
You can also reset calls of multiple mocks at once resetCalls(firstMock, secondMock, thirdMock)
Resetting mock
Or reset mock call counter with all stubs
// Creating mock
let mockedFoo:Foo = mock(Foo);
when(mockedFoo.getBar(1)).thenReturn("one").
// Getting instance
let foo:Foo = instance(mockedFoo);
// Some calls
console.log(foo.getBar(1)); // "one" - as defined in stub
console.log(foo.getBar(1)); // "one" - as defined in stub
verify(mockedFoo.getBar(1)).twice(); // getBar with arg "1" has been called twice
// Reset mock
reset(mockedFoo);
// Call count verification
verify(mockedFoo.getBar(1)).never(); // has never been called after reset
console.log(foo.getBar(1)); // null - previously added stub has been removed
You can also reset multiple mocks at once reset(firstMock, secondMock, thirdMock)
Capturing method arguments
let mockedFoo:Foo = mock(Foo);
let foo:Foo = instance(mockedFoo);
// Call method
foo.sumTwoNumbers(1, 2);
// Check first arg captor values
const [firstArg, secondArg] = capture(mockedFoo.sumTwoNumbers).last();
console.log(firstArg); // prints 1
console.log(secondArg); // prints 2
You can also get other calls using first(), second(), byCallIndex(3) and more...
Recording multiple behaviors
You can set multiple returning values for same matching values
const mockedFoo:Foo = mock(Foo);
when(mockedFoo.getBar(anyNumber())).thenReturn('one').thenReturn('two').thenReturn('three');
const foo:Foo = instance(mockedFoo);
console.log(foo.getBar(1)); // one
console.log(foo.getBar(1)); // two
console.log(foo.getBar(1)); // three
console.log(foo.getBar(1)); // three - last defined behavior will be repeated infinitely
Another example with specific values
let mockedFoo:Foo = mock(Foo);
when(mockedFoo.getBar(1)).thenReturn('one').thenReturn('another one');
when(mockedFoo.getBar(2)).thenReturn('two');
let foo:Foo = instance(mockedFoo);
console.log(foo.getBar(1)); // one
console.log(foo.getBar(2)); // two
console.log(foo.getBar(1)); // another one
console.log(foo.getBar(1)); // another one - this is last defined behavior for arg '1' so it will be repeated
console.log(foo.getBar(2)); // two
console.log(foo.getBar(2)); // two - this is last defined behavior for arg '2' so it will be repeated
Short notation:
const mockedFoo:Foo = mock(Foo);
// You can specify return values as multiple thenReturn args
when(mockedFoo.getBar(anyNumber())).thenReturn('one', 'two', 'three');
const foo:Foo = instance(mockedFoo);
console.log(foo.getBar(1)); // one
console.log(foo.getBar(1)); // two
console.log(foo.getBar(1)); // three
console.log(foo.getBar(1)); // three - last defined behavior will be repeated infinity
Possible errors:
const mockedFoo:Foo = mock(Foo);
// When multiple matchers, matches same result:
when(mockedFoo.getBar(anyNumber())).thenReturn('one');
when(mockedFoo.getBar(3)).thenReturn('one');
const foo:Foo = instance(mockedFoo);
foo.getBar(3); // MultipleMatchersMatchSameStubError will be thrown, two matchers match same method call
Mocking interfaces
You can mock interfaces too, just instead of passing type to mock function, set mock function generic type Mocking interfaces requires Proxy implementation
let mockedFoo:Foo = mock<FooInterface>(); // instead of mock(FooInterface)
const foo: SampleGeneric<FooInterface> = instance(mockedFoo);
Mocking types
You can mock abstract classes
const mockedFoo: SampleAbstractClass = mock(SampleAbstractClass);
const foo: SampleAbstractClass = instance(mockedFoo);
You can also mock generic classes, but note that generic type is just needed by mock type definition
const mockedFoo: SampleGeneric<SampleInterface> = mock(SampleGeneric);
const foo: SampleGeneric<SampleInterface> = instance(mockedFoo);
Spying on real objects
You can partially mock an existing instance:
const foo: Foo = new Foo();
const spiedFoo = spy(foo);
when(spiedFoo.getBar(3)).thenReturn('one');
console.log(foo.getBar(3)); // 'one'
console.log(foo.getBaz()); // call to a real method
You can spy on plain objects too:
const foo = { bar: () => 42 };
const spiedFoo = spy(foo);
foo.bar();
console.log(capture(spiedFoo.bar).last()); // [42]
Thanks
- Szczepan Faber (https://www.linkedin.com/in/szczepiq)
- Sebastian Konkol (https://www.linkedin.com/in/sebastiankonkol)
- Clickmeeting (http://clickmeeting.com)
- Michał Stocki (https://github.com/michalstocki)
- Łukasz Bendykowski (https://github.com/viman)
- Andrey Ermakov (https://github.com/dreef3)
- Markus Ende (https://github.com/Markus-Ende)
- Thomas Hilzendegen (https://github.com/thomashilzendegen)
- Johan Blumenberg (https://github.com/johanblumenberg)
Download Details:
Author: NagRock
Source Code: https://github.com/NagRock/ts-mockito
License: MIT license
1600135200
How to Install OpenJDK 11 on CentOS 8
What is OpenJDK?
OpenJDk or Open Java Development Kit is a free, open-source framework of the Java Platform, Standard Edition (or Java SE). It contains the virtual machine, the Java Class Library, and the Java compiler. The difference between the Oracle OpenJDK and Oracle JDK is that OpenJDK is a source code reference point for the open-source model. Simultaneously, the Oracle JDK is a continuation or advanced model of the OpenJDK, which is not open source and requires a license to use.
In this article, we will be installing OpenJDK on Centos 8.
#tutorials #alternatives #centos #centos 8 #configuration #dnf #frameworks #java #java development kit #java ee #java environment variables #java framework #java jdk #java jre #java platform #java sdk #java se #jdk #jre #open java development kit #open source #openjdk #openjdk 11 #openjdk 8 #openjdk runtime environment
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Superdom: Better and Simpler ES6 DOM Manipulation
Superdom
You have dom. It has all the DOM virtually within it. Use that power:
// Fetch all the page links
let links = dom.a.href;
// Links open in a new tab
dom.a.target = '_blank';
Only for modern browsers
Getting started
Simply use the CDN via unpkg.com:
<script src="https://unpkg.com/superdom@1"></script>
Or use npm or bower:
npm|bower install superdom --save
Select
It always returns an array with the matched elements. Get all the elements that match the selector:
// Simple element selector into an array
let allLinks = dom.a;
// Loop straight on the selection
dom.a.forEach(link => { ... });
// Combined selector
let importantLinks = dom['a.important'];
There are also some predetermined elements, such as id, class and attr:
// Select HTML Elements by id:
let main = dom.id.main;
// by class:
let buttons = dom.class.button;
// or by attribute:
let targeted = dom.attr.target;
let targeted = dom.attr['target="_blank"'];
Generate
Use it as a function or a tagged template literal to generate DOM fragments:
// Not a typo; tagged template literals
let link = dom`<a href="https://google.com/">Google</a>`;
// It is the same as
let link = dom('<a href="https://google.com/">Google</a>');
Delete elements
Delete a piece of the DOM
// Delete all of the elements with the class .google
delete dom.class.google; // Is this an ad-block rule?
Attributes
You can easily manipulate attributes right from the dom node. There are some aliases that share the syntax of the attributes such as html and text (aliases for innerHTML and textContent). There are others that travel through the dom such as parent (alias for parentNode) and children. Finally, class behaves differently as explained below.
Get attributes
The fetching will always return an array with the element for each of the matched nodes (or undefined if not there):
// Retrieve all the urls from the page
let urls = dom.a.href; // #attr-list
// ['https://google.com', 'https://facebook.com/', ...]
// Get an array of the h2 contents (alias of innerHTML)
let h2s = dom.h2.html; // #attr-alias
// ['Level 2 header', 'Another level 2 header', ...]
// Get whether any of the attributes has the value "_blank"
let hasBlank = dom.class.cta.target._blank; // #attr-value
// true/false
You also use these:
- html (alias of
innerHTML): retrieve a list of the htmls - text (alias of
textContent): retrieve a list of the htmls - parent (alias of
parentNode): travel up one level - children: travel down one level
Set attributes
// Set target="_blank" to all links
dom.a.target = '_blank'; // #attr-set
dom.class.tableofcontents.html = `
<ul class="tableofcontents">
${dom.h2.map(h2 => `
<li>
<a href="#${h2.id}">
${h2.innerHTML}
</a>
</li>
`).join('')}
</ul>
`;
Remove an attribute
To delete an attribute use the delete keyword:
// Remove all urls from the page
delete dom.a.href;
// Remove all ids
delete dom.a.id;
Classes
It provides an easy way to manipulate the classes.
Get classes
To retrieve whether a particular class is present or not:
// Get an array with true/false for a single class
let isTest = dom.a.class.test; // #class-one
For a general method to retrieve all classes you can do:
// Get a list of the classes of each matched element
let arrays = dom.a.class; // #class-arrays
// [['important'], ['button', 'cta'], ...]
// If you want a plain list with all of the classes:
let flatten = dom.a.class._flat; // #class-flat
// ['important', 'button', 'cta', ...]
// And if you just want an string with space-separated classes:
let text = dom.a.class._text; // #class-text
// 'important button cta ...'
Add a class
// Add the class 'test' (different ways)
dom.a.class.test = true; // #class-make-true
dom.a.class = 'test'; // #class-push
Remove a class
// Remove the class 'test'
dom.a.class.test = false; // #class-make-false
Manipulate
Did we say it returns a simple array?
dom.a.forEach(link => link.innerHTML = 'I am a link');
But what an interesting array it is; indeed we are also proxy'ing it so you can manipulate its sub-elements straight from the selector:
// Replace all of the link's html with 'I am a link'
dom.a.html = 'I am a link';
Of course we might want to manipulate them dynamically depending on the current value. Just pass it a function:
// Append ' ^_^' to all of the links in the page
dom.a.html = html => html + ' ^_^';
// Same as this:
dom.a.forEach(link => link.innerHTML = link.innerHTML + ' ^_^');
Note: this won't work
dom.a.html += ' ^_^';for more than 1 match (for reasons)
Or get into genetics to manipulate the attributes:
dom.a.attr.target = '_blank';
// Only to external sites:
let isOwnPage = el => /^https?\:\/\/mypage\.com/.test(el.getAttribute('href'));
dom.a.attr.target = (prev, i, element) => isOwnPage(element) ? '' : '_blank';
Events
You can also handle and trigger events:
// Handle click events for all <a>
dom.a.on.click = e => ...;
// Trigger click event for all <a>
dom.a.trigger.click;
Testing
We are using Jest as a Grunt task for testing. Install Jest and run in the terminal:
grunt watchDownload Details:
Author: franciscop
Source Code: https://github.com/franciscop/superdom
License: MIT license
1600669449
Top 10 Java Classes from Utility Package
Java.util package contains the collection’s framework, legacy collection classes, event model, date and time facilities, internationalization, and miscellaneous utility classes (a string tokenizer, a random-number generator, and a bit array). Here is the list of most commonly used top ten Java utility classes:
1. Java Arrays Class
Java.util package provides an Arrays class that contains a static factory that allows arrays to be viewed as lists. The class contains various methods for manipulating arrays like sorting and searching. The methods in this class throw a NullPointerException, if the specified array reference is null.
#java-class #java-tutorial #java #java-utility-class
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Going Beyond Java 8: Local Variable Type Inference (var) - DZone Java
According to some surveys, such as JetBrains’s great survey, Java 8 is currently the most used version of Java, despite being a 2014 release.
What you are reading is one in a series of articles titled ‘Going beyond Java 8,’ inspired by the contents of my book, Java for Aliens. These articles will guide you step-by-step through the most important features introduced to the language, starting from version 9. The aim is to make you aware of how important it is to move forward from Java 8, explaining the enormous advantages that the latest versions of the language offer.
In this article, we will talk about the most important new feature introduced with Java 10. Officially called local variable type inference, this feature is better known as the **introduction of the word **var. Despite the complicated name, it is actually quite a simple feature to use. However, some observations need to be made before we can see the impact that the introduction of the word var has on other pre-existing characteristics.
#java #java 11 #java 10 #java 12 #var #java 14 #java 13 #java 15 #verbosity