Showing posts with label Js. Show all posts
Showing posts with label Js. Show all posts

Sunday, 12 November 2023

Getting a parent object by name in parent scope chain in AngularJs

I still work with some legacy solutions in AngularJs. I want to look in parent scope for a object which I know the name of, but it is some levels up by calling multiple $parent calls to get to the correct parent scope. Here is a small util method I wrote the other day to access a variable inside parent scopes by known name. Note : Select an element via F12 Developer tools and access its AngularJs scope. In the browser this is done by running in the console : angular.element($0).scope() Here is the helper method I wrote :


angular.element($0).scope().findParentObjByName = function($scope, objName) {
 var curScope = $scope;
var parentLevel = 0;
 //debugger
 while ((curScope = curScope.$parent) != null && !curScope.hasOwnProperty(objName) && parentLevel < 15){
     parentLevel++;
 }
 return curScope.hasOwnProperty(objName) ? curScope[objName] : null;  
}



We can then look for a property in the parent scopes like in this example :

angular.element($0).scope().findParentObjByName($scope, 'list')

This returns the object, if found and you can further work on it , for example in this particular example I used :

angular.element($0).scope().findParentObjByName($scope, 'list').listData[0]

Thursday, 28 May 2020

Creating an AngularJs directive for a horizontal scroller at top and bottom of HTML container element

I made an AngularJs directive today that adds a horizontal scroller at top and bottom of an HTML container element, such as text area, table or div. The AngularJs directive uses the link function of AngularJs to prepend and wrap the necessary scrolling mechanism and add some Javascript scroll event handlers using jQuery.

import angular from 'angular';

var app = angular.module('plunker', []);
app.controller('MainCtrl', function($scope, $compile) {
  $scope.name = 'Dual wielded horizontal scroller';
});

app.directive('doubleHscroll', function($compile) {
  return {
    restrict: 'C',
    link: function(scope, elem, attr){

      var elemWidth = parseInt(elem[0].clientWidth);

      elem.wrap(`<div id='wrapscroll' style='width:${elemWidth}px;overflow:scroll'></div>`); 
      //note the top scroll contains an empty space as a 'trick' 
      $('#wrapscroll').before(`<div id='topscroll' style='height:20px; overflow:scroll;width:${elemWidth}px'><div style='min-width:${elemWidth}px'> </div></div>`);

      $(function(){
        $('#topscroll').scroll(function(){
          $("#wrapscroll").scrollLeft($("#topscroll").scrollLeft());
        });
        $('#wrapscroll').scroll(function() {
          $("#topscroll").scrollLeft($("#wrapscroll").scrollLeft());
        });

      });  

    }

  };


});


The HTML that uses this directive, restricted to 'C' (class) is then simply using the class 'double-Hscroll' following AngularJs 'snake escaping' naming convention of capitalization and dashes.

<!DOCTYPE html>

<html>
  <head>
    <link rel="stylesheet" href="lib/style.css" />
    <script src="lib/script.js"></script>
    <script
  src="https://code.jquery.com/jquery-3.5.1.js"
  integrity="sha256-QWo7LDvxbWT2tbbQ97B53yJnYU3WhH/C8ycbRAkjPDc="
  crossorigin="anonymous"></script>
  </head>

  <body ng-app="plunker" ng-cloak>
    <div ng-controller="MainCtrl">
      <h1>Hello {{name}}</h1>
      <p>Dual horizontal scroll top and below a text area.</p>
      <textarea noresize class="double-hscroll" rows="10" cols="30">
        lorem ipsum dolores  lorem ipsum dolores
      lorem ipsum dolores
      lorem ipsum dolores sit amen
      lorem ipsum dolores
      lorem ipsum dolores sit amen
      lorem ipsum dolores
      lorem ipsum dolores amen sit
     
      </textarea>
    </div>
  </body>
</html>

Saturday, 4 January 2020

Implementing GetPropertyNames in Typescript

I am currently working on a Linq-like library for Typescript and wanted to implement something like GetProperties of C# in Typescript / Javascript. The more I work with Typescript and generics, the clearer picture I get of that you usually have to have an instantiated object with intialized properties to get any useful information out at runtime about properties of a class. But it would be nice to retrieve information anyways just from the constructor function object, or an array of objects and be flexible about this. I was following a question thread on Stack Overflow and found a good answer that helped me out: https://stackoverflow.com/questions/40636292/get-properties-of-a-class/59586570#59586570 Here is what I ended up with for now. First off, I define Array prototype method ('extension method' for you C# developers).

export { } //creating a module of below code
declare global {
  interface Array>T< {
    GetProperties>T<(TClass: Function, sortProps: boolean): string[];
} }
The GetProperties method then looks like this, inspired by madreasons answer.

if (!Array.prototype.GetProperties) {
  Array.prototype.GetProperties = function >T<(TClass: any = null, sortProps: boolean = false): string[] {
    if (TClass === null || TClass === undefined) {
      if (this === null || this === undefined || this.length === 0) {
        return []; //not possible to find out more information - return empty array
      }
    }
    // debugger
    if (TClass !== null && TClass !== undefined) {
      if (this !== null && this !== undefined) {
        if (this.length < 0) {
          let knownProps: string[] = Describer.describe(this[0]).Where(x =< x !== null && x !== undefined);
          if (sortProps && knownProps !== null && knownProps !== undefined) {
            knownProps = knownProps.OrderBy(p =< p);
          }
          return knownProps;
        }
        if (TClass !== null && TClass !== undefined) {
          let knownProps: string[] = Describer.describe(TClass).Where(x =< x !== null && x !== undefined);
          if (sortProps && knownProps !== null && knownProps !== undefined) {
            knownProps = knownProps.OrderBy(p =< p);
          }
          return knownProps;
        }
      }
    }
    return []; //give up..
  }
}

The describer method is about the same as madreason's answer on Stack Overflow concerning this. It can handle both class Function and if you get an object instead. It will then use Object.getOwnPropertyNames if no class Function is given (i.e. the class 'type' for C# developers).

class Describer {
  private static FRegEx = new RegExp(/(?:this\.)(.+?(?= ))/g);
  static describe(val: any, parent = false): string[] {
    let isFunction = Object.prototype.toString.call(val) == '[object Function]';
    if (isFunction) {
      let result = [];
      if (parent) {
        var proto = Object.getPrototypeOf(val.prototype);
        if (proto) {
          result = result.concat(this.describe(proto.constructor, parent));
        }
      }
      result = result.concat(val.toString().match(this.FRegEx));
      result = result.Where(r =< r !== null && r !== undefined);
      return result;
    }
    else {
      if (typeof val == "object") {
        let knownProps: string[] = Object.getOwnPropertyNames(val);
        return knownProps;
      }
    }
    return val !== null ? [val.tostring()] : [];
  }
}

Here you see two specs for testing this out with Jasmine.

class Hero {
  name: string;
  gender: string;
  age: number;
  constructor(name: string = "", gender: string = "", age: number = 0) {
    this.name = name;
    this.gender = gender;
    this.age = age;
  }
}

class HeroWithAbility extends Hero {
  ability: string;
  constructor(ability: string = "") {
    super();
    this.ability = ability;
  }
}

describe('Array Extensions tests for TsExtensions Linq esque library', () =< {

  it('can retrieve props for a class items of an array', () =< {
    let heroes: Hero[] = [>Hero<{ name: "Han Solo", age: 44, gender: "M" }, >Hero<{ name: "Leia", age: 29, gender: "F" }, >Hero<{ name: "Luke", age: 24, gender: "M" }, >Hero<{ name: "Lando", age: 47, gender: "M" }];
    let foundProps = heroes.GetProperties(Hero, false);
    //debugger
    let expectedArrayOfProps = ["name", "age", "gender"];
    expect(foundProps).toEqual(expectedArrayOfProps);
    expect(heroes.GetProperties(Hero, true)).toEqual(["age", "gender", "name"]);
  });

  it('can retrieve props for a class only knowing its function', () =< {
    let heroes: Hero[] = [];
    let foundProps = heroes.GetProperties(Hero, false);
    let expectedArrayOfProps = ["this.name", "this.gender", "this.age"];
    expect(foundProps).toEqual(expectedArrayOfProps);
    let foundPropsThroughClassFunction = heroes.GetProperties(Hero, true);
    //debugger
    expect(foundPropsThroughClassFunction.SequenceEqual(["this.age", "this.gender", "this.name"])).toBe(true);
  });

..

And as madreason mentioned, you have to initialize the props to get any information out from just the class Function itself, or else it is stripped away when Typescript code is turned into Javascript code. Typescript 3.7 is very good with Generics, but coming from a C# and Reflection background, some fundamental parts of Typescript and generics still feels somewhat loose and unfinished business. Like my code here, but at least I got out the information I wanted - a list of property names for a given class or instance of objects.

Tuesday, 31 December 2019

Aggregate in Typescript

I have implemented Aggregate method in my Linq library written for Typescript.

if (!Array.prototype.Aggregate) {
  Array.prototype.Aggregate = function <T>(accumulator: any, currentValue: any, reducerFunc: (accumulator: any, currentValue: any) => any): any {
    //debugger
    if (reducerFunc === undefined || reducerFunc === null) {
      reducerFunc = (accumulator, currentValue) => accumulator + currentValue;
    }
    let result = this.reduce(reducerFunc);
    return result;
  }
}

if (!Array.prototype.AggregateSelect) {
  Array.prototype.AggregateSelect = function <T>(property: (keyof T), accumulator: any, currentValue: any, reducerFunc: (accumulator: any, currentValue: any) => any): any {
    //debugger
    if (reducerFunc === undefined || reducerFunc === null) {
      reducerFunc = (accumulator, currentValue) => accumulator + currentValue;
    }
    //debugger
    let result = this.Select(property).map(n => n[property]).reduce(reducerFunc);
    return result;
  }
}

Here are some Jasmine tests for these two methods - note that I also support setting the initial value.
  it('can aggregate items to expected result using Aggregate on array of items of numbers', () => {
    let someNums = [1, 2, 3, 4];
    let result = someNums.Aggregate(0, 0, null);
    expect(result).toBe(10);
  });

  it('can aggregate items and project to expected result using AggregateSelect on array of items of objects', () => {
    let someArray: any[] = [];
    someArray.push(<SomeClass>{ Name: "Foo", Num: 1 });
    someArray.push(<SomeClass>{ Name: "FooBaz", Num: 4 });
    someArray.push(<SomeClass>{ Name: "AllyoBaze", Num: 7 });
    let result = someArray.AggregateSelect<SomeClass>("Num", 0, 0, null);
    expect(result).toBe(12);
  });

  it('can aggregate once more items and project to expected result using AggregateSelect on array of items of objects with accumulator value set initially', () => {
    let someArray: Student[] = [];
    someArray.push(<Student>{ StudentID: 1, StudentName: "John", Age: 13 });
    someArray.push(<Student>{ StudentID: 2, StudentName: "Moin", Age: 21 });
    someArray.push(<Student>{ StudentID: 3, StudentName: "Bill", Age: 18 });
    someArray.push(<Student>{ StudentID: 4, StudentName: "Ram", Age: 20 });
    someArray.push(<Student>{ StudentID: 5, StudentName: "Ron", Age: 15 });
    let result = someArray.AggregateSelect<Student>("StudentName", "Student Names: ", 0, (a, b) => a + "," + b);
    expect(result).toBe("John,Moin,Bill,Ram,Ron");
  });

My interface definition is growing everytime for my Linq Library! Here is how it looks now:

export { } //creating a module of below code
declare global {
  type predicate<T> = (arg: T) => boolean;
  type sortingValue<T> = (arg: T) => any;
  interface Array<T> {
    FirstOrDefault<T>(condition: predicate<T>): T;
    LastOrDefault<T>(condition: predicate<T>): T;
    Where<T>(condition: predicate<T>): T[];
    Count<T>(): number;
    CountBy<T>(condition: predicate<T>): number;
    Select<T>(...properties: (keyof T)[]): any[];
    GroupBy<T>(groupFunc: (arg: T) => string): any[];
    EnumerableRange(start: number, count: number): number[];
    Any<T>(condition: predicate<T>): boolean;
    All<T>(condition: predicate<T>): boolean;
    MaxSelect<T>(property: (keyof T)): any;
    MinSelect<T>(property: (keyof T)): any;
    Average<T>(): number;
    AverageSelect<T>(property: (keyof T)): number;
    Max(): any;
    Min(): any;
    Sum(): any;
    Distinct<T>(): T[];
    DistinctBy<T>(property: (keyof T)): any;
    SumSelect<T>(property: (keyof T)): any;
    Intersect<T>(otherArray: T[]): T[];
    IntersectSelect<T>(property: (keyof T), otherArray: T[]): T[];
    MinSelect<T>(property: (keyof T)): any;
    OrderBy<T>(sortMember: sortingValue<T>): T[];
    OrderByDescending<T>(sortMember: sortingValue<T>): T[];
    ThenBy<T>(sortMember: sortingValue<T>): T[];
    OfType<T>(compareObject: T): T[];
    SequenceEqual<T>(compareArray: T): boolean;
    Take<T>(count: number): T[];
    TakeWhile<T>(condition: predicate<T>): T[];
    SkipWhile<T>(condition: predicate<T>): T[];
    Skip<T>(count: number): T[];
    defaultComparerSort<T>(x: T, y: T);
    ElementAt<T>(index: number);
    ElementAtOrDefault<T>(index: number);
    Aggregate<T>(accumulator: any, currentValue: any, reducerFunc: (accumulator: any, currentValue: any) => any): any;
    AggregateSelect<T>(property: (keyof T), accumulator: any, currentValue: any, reducerFunc: (accumulator: any, currentValue: any) => any): any;
  }
}

DistinctBy operator written in Typescript

I am extended my Linq library for Typescript with many more methods! Here is my implementation of DistinctBy.

if (!Array.prototype.DistinctBy) {
  Array.prototype.DistinctBy = function <T>(property: (keyof T)): T[] {
    if (this === null || this === undefined) {
      return [];
    }
    let filteringArray = this.Select(property).map(n => n[property]);

    let distinctRunOnArray = this.filter((value, index, array) => {
      let valueProperty = value[property];
      return filteringArray.indexOf(valueProperty) === index;
    });
    return distinctRunOnArray;
  }
}

This Jasmine test can test this operator out.
describe('TSLinq Jasmine tests', () => {

  it('can filter out duplicates using DistinctBy on array of items of objects', () => {
    let someArray: Student[] = [];
    someArray.push(<Student>{ StudentID: 1, StudentName: "John", Age: 13 });
    someArray.push(<Student>{ StudentID: 2, StudentName: "Moin", Age: 21 });
    someArray.push(<Student>{ StudentID: 2, StudentName: "Moin", Age: 21 });
    someArray.push(<Student>{ StudentID: 4, StudentName: "Ram", Age: 20 });
    someArray.push(<Student>{ StudentID: 5, StudentName: "Ron", Age: 15 });
    let expectedArray: Student[] = [];
    expectedArray.push(<Student>{ StudentID: 1, StudentName: "John", Age: 13 });
    expectedArray.push(<Student>{ StudentID: 2, StudentName: "Moin", Age: 21 });
    expectedArray.push(<Student>{ StudentID: 4, StudentName: "Ram", Age: 20 });
    expectedArray.push(<Student>{ StudentID: 5, StudentName: "Ron", Age: 15 });
    let result = someArray.DistinctBy<Student>("StudentID");
    expect(result).toEqual(expectedArray);
  });


});
The Student class is simple:

class Student {
  StudentID: number;
  StudentName: string;
  Age: number;
}

Implementing OfType in Typescript

I am working on my Linq library for Typescript and wanted to implement OfType. Turns out, this is hard because the generic type arguments in Typescript usually requires a value, i.e. an object instance of type T to get any shape information at run-time. So I ended up passing in a vanilla object setting default property values instead. Here is how my implementation ended up:

function isOfSimilarShape<T>(input: any, compareObject: T): boolean {
  if (input === undefined || input === null || compareObject === undefined || compareObject === null)
    return false;

  let propsOfInput = Object.keys(input);
  let propsOfCompareObject = Object.keys(compareObject);
  //debugger
  let sameShapeOfInputAndCompareObject = propsOfInput.EqualTo(propsOfCompareObject);
  return sameShapeOfInputAndCompareObject;
}

if (!Array.prototype.OfType) {
  Array.prototype.OfType = function <T>(compareObject: T): T[] {
    let result: T[] = [];
    this.forEach(el => {
      //debugger
      let t: T = null;
      if (isOfSimilarShape(el, compareObject))
        result.push(el);
    });
    return result;
  }
}

The following Jasmine test shows its usage:

describe('Array Extensions tests', () => {

  it('can find desired items using OfType of type T', () => {
    let someMixedArray: any[] = [];
    someMixedArray.push(<SomeClass>{ Name: "Foo", Num: 1 });
    someMixedArray.push(<SomeOtherClass>{ SomeName: "BarBazBaze", SomeOtherNum: 813 });
    someMixedArray.push(<SomeClass>{ Name: "FooBaz", Num: 4 });
    someMixedArray.push(<SomeOtherClass>{ SomeName: "BarBaze", SomeOtherNum: 13 });
    someMixedArray.push(<SomeClass>{ Name: "AllyoBaze", Num: 7 });

    let compareObject = <SomeClass>{ Name: "", Num: 0 };
    let filteredArrayBySpecifiedType = someMixedArray.OfType(compareObject);
    console.log(filteredArrayBySpecifiedType);

    expect(filteredArrayBySpecifiedType.All(item => <SomeClass>item !== undefined)).toBe(true, "Expected only items of type SomeOtherClass in the filtered array after running OfType of SomeOtherClass on it.");
  });

It would be nice if we did not have to pass in a vanilla object and populate its properties, but I could not find any tips online or in the Typescript documentation for how to implement extracting type information from generic arguments of Typescript. This is very easy in C#, but while Typescript gives compilation type information, getting runtime information from generic arguments in the Javascript code that Typescript compiles into turned much harder.

Friday, 27 December 2019

Implementing Linq methods on arrays with Typescript for Angular 8

This article will look into implementing Linq methods on array with Typescript for Angular 8. First off, I have created a repo for this article on Github. Simple Linq Library written with Typescript for Angular 8 This only implements FirstOrDefault and Where Linq operators on arrays. We first need to define our Array prototype methods. Since we use Angular, first we define an empty module using export {} and then declare global { .. } Inside our declare global we define our type predicate and our methods Where and FirstOrDefault. Then we define our two methods if they do not exist yet on Array.prototype. The special syntax above is adaptions for Typescript and Angular. I have tested this with Angular 8. Here is the Typescript code I ended up with:

export { } //creating a module of below code
declare global {
  type predicate<T> = (arg: T) => boolean;
  interface Array<T> {
    FirstOrDefault<T>(condition: predicate<T>): T;
    Where<T>(condition: predicate<T>): T[];
  }
}

if (!Array.prototype.FirstOrDefault) {
  Array.prototype.FirstOrDefault = function <T>(condition: predicate<T>): T {
    let matchingItems: T[] = this.filter((item: T) => {

      if (condition(item)) {
        return item;
      }
    });
    if (matchingItems.length > 0) {
      return matchingItems[0];
    }
    return null;
  }
}

if (!Array.prototype.Where) {
  Array.prototype.Where = function <T>(condition: predicate<T>): T[] {

    let matchingItems: T[] = this.filter((item: T) => {

      if (condition(item)) {
        return true;
      }
    });
    return matchingItems;
  }
}

Let us define some input data - an array to work on and pass into predicates where we can test out FirstOrDefault and Where methods !

import { Movie } from './movie';

export const StarWarsMovies : Array>Movie< =
 [{
      "title" : "Star Wars: Episode I - The Phantom Menace",
      "episode_number" : "1",
      "main_characters" : ["Qui-Gon Jinn", "Obi-Wan Kenobi", "Anakin Skywalker", "Padmé Amidala", "Jar Jar Binks", "Darth Maul"],
      "description" : "The evil Trade Federation, led by Nute Gunray is planning to take over the peaceful world of Naboo. Jedi Knights Qui-Gon Jinn and Obi-Wan Kenobi are sent to confront the leaders. But not everything goes to plan. The two Jedi escape, and along with their new Gungan friend, Jar Jar Binks head to Naboo to warn Queen Amidala, but droids have already started to capture Naboo and the Queen is not safe there. Eventually, they land on Tatooine, where they become friends with a young boy known as Anakin Skywalker. Qui-Gon is curious about the boy, and sees a bright future for him. The group must now find a way of getting to Coruscant and to finally solve this trade dispute, but there is someone else hiding in the shadows. Are the Sith really extinct? Is the Queen really who she says she is? And what's so special about this young boy?",
      "poster" : "star_wars_episode_1_poster.png",
      "hero_image" : "star_wars_episode_1_hero.jpg"
    },

    {
      "title" : "Star Wars: Episode II - Attack of the Clones",
      "episode_number" : "2",
      "main_characters" : ["Obi-Wan Kenobi", "Anakin Skywalker", "Count Dooku", "Padmé Amidala", "Mace Windu", "Yoda", "Jango Fett", "Supreme Chancellor Palpatine"],
      "description" : "Ten years after the 'Phantom Menace' threatened the planet Naboo, Padmé Amidala is now a Senator representing her homeworld. A faction of political separatists, led by Count Dooku, attempts to assassinate her. There are not enough Jedi to defend the Republic against the threat, so Chancellor Palpatine enlists the aid of Jango Fett, who promises that his army of clones will handle the situation. Meanwhile, Obi-Wan Kenobi continues to train the young Jedi Anakin Skywalker, who fears that the Jedi code will forbid his growing romance with Amidala.",
      "poster" : "star_wars_episode_2_poster.png",
      "hero_image" : "star_wars_episode_2_hero.jpg"
    },

    {
      "title" : "Star Wars: Episode III - Revenge of the Sith",
      "episode_number" : "3",
      "main_characters" : ["Obi-Wan Kenobi", "Anakin Skywalker", "Count Dooku", "Padmé Amidala", "Mace Windu", "Yoda", "C-3PO", "Supreme Chancellor Palpatine"],
      "description" : "Three years after the onset of the Clone Wars; the noble Jedi Knights are spread out across the galaxy leading a massive clone army in the war against the Separatists. After Chancellor Palpatine is kidnapped, Jedi Master Obi-Wan Kenobi and his former Padawan, Anakin Skywalker, are dispatched to eliminate the evil General Grievous. Meanwhile, Anakin's friendship with the Chancellor arouses suspicion in the Jedi Order, and dangerous to the Jedi Knight himself. When the sinister Sith Lord, Darth Sidious, unveils a plot to take over the galaxy, the fate of Anakin, the Jedi order, and the entire galaxy is at stake. Upon his return, Anakin Skywalker's wife Padme Amidala is pregnant, but he is having visions of her dying in childbirth. Anakin Skywalker ultimately turns his back on the Jedi, thus completing his journey to the dark side and his transformation into Darth Vader. Obi-Wan Kenobi must face his former apprentice in a ferocious lightsaber duel on the fiery world of Mustafar.",
      "poster" : "star_wars_episode_3_poster.png",
      "hero_image" : "star_wars_episode_3_hero.jpg"
    },

    {
      "title" : "Star Wars: Episode IV - A New Hope",
      "episode_number" : "4",
      "main_characters" : ["Luke Skywalker", "Han Solo", "Princess Leia Organa", "Ben Kenobi", "Darth Vader", "C-3P0", "R2-D2", "Chewbacca"],
      "description" : "Part IV in George Lucas' epic, Star Wars: A New Hope opens with a Rebel ship being boarded by the tyrannical Darth Vader. The plot then follows the life of a simple farm boy, Luke Skywalker, as he and his newly met allies (Han Solo, Chewbacca, Obi-Wan Kenobi, C-3PO, R2-D2) attempt to rescue a Rebel leader, Princess Leia, from the clutches of the Empire. The conclusion is culminated as the Rebels, including Skywalker and flying ace Wedge Antilles make an attack on the Empire's most powerful and ominous weapon, the Death Star.",
      "poster" : "star_wars_episode_4_poster.png",
      "hero_image" : "star_wars_episode_4_hero.jpg"
    },

    {
      "title" : "Star Wars: Episode V - The Empire Strikes Back",
      "episode_number" : "5",
      "main_characters" : ["Luke Skywalker", "Han Solo", "Princess Leia Organa", "Darth Vader", "C-3P0", "R2-D2", "Chewbacca", "Lando Calrissian", "Boba Fett"],
      "description" : "Fleeing the evil Galactic Empire, the Rebels abandon their new base in an assault with the Imperial AT-AT walkers on the ice world of Hoth. Princess Leia, Han Solo, Chewbacca and the droid C-3PO escape in the Millennium Falcon, but are later captured by Darth Vader on Bespin. Meanwhile, Luke Skywalker and the droid R2-D2 follows Obi-Wan Kenobi's posthumous command, and receives Jedi training from Master Yoda on the swamp world of Dagobah. Will Skywalker manage to rescue his friends from the Dark Lord?",
      "poster" : "star_wars_episode_5_poster.png",
      "hero_image" : "star_wars_episode_5_hero.jpg"
    },

    {
      "title" : "Star Wars: Episode VI - Return of the Jedi",
      "episode_number" : "6",
      "main_characters" : ["Luke Skywalker", "Han Solo", "Princess Leia Organa", "Darth Vader", "C-3P0", "Chewbacca", "The Emperor", "Boba Fett"],
      "description" : "Darth Vader and the Empire are building a new, indestructible Death Star. Meanwhile, Han Solo has been imprisoned, and Luke Skywalker has sent R2-D2 and C-3PO to try and free him. Princess Leia - disguised as a bounty hunter - and Chewbacca go along as well. The final battle takes place on the moon of Endor, with its natural inhabitants, the Ewoks, lending a hand to the Rebels. Will Darth Vader and the Dark Side overcome the Rebels and take over the universe?",
      "poster" : "star_wars_episode_6_poster.png",
      "hero_image" : "star_wars_episode_6_hero.jpg"
    }];


The Movie class looks like this:

export class Movie {
  title: string;
  episode_number: string;
  main_characters: string[];
  description: string;
  poster: string;
  hero_image: string;
}

Now we can test out these predicate methods FirstOrDefault and Where ! Note that in case you have worked with C# and Linq before, the syntax and the Intellisense will make you feel more at home with this kind of code - not only do you have type checking, but you can also pass in strongly typed predicate methods using Typescript, Generics and the Array prototype techniques discussed here. Also note how I define a predicate type here defining an arrow function, being the predicate.

import { Component, Inject } from '@angular/core';
import { StarWarsMovies } from './starwarsmovies';
import { Movie } from './movie';
import './array-extensions';

@Component({
  selector: 'app-root',
  templateUrl: './app.component.html',
  styleUrls: ['./app.component.css']
})
export class AppComponent {
  title = 'Linq TsExtensions demo';

  firstMovieWithBoba: Movie;
  allMoviesWithLeia: Movie[];
  starwarsMovies: string;

  constructor() {
    this.starwarsMovies = JSON.stringify(StarWarsMovies);
    this.firstMovieWithBoba = 
StarWarsMovies.FirstOrDefault<Movie>(m => m.main_characters.indexOf('Boba Fett') > 0);
    this.allMoviesWithLeia = 
StarWarsMovies.Where<Movie>(m => m.main_characters.indexOf('Princess Leia Organa') > 0);
    console.log(this.firstMovieWithBoba);
    console.log(this.allMoviesWithLeia);
  }

}


We now can work on our strongly typed arrays and define easily our filtering predicates for Where and FirstOrDefault implementation. It should be easy to extend this into more methods, such as SingleOrDefault and Any and so on. The screen shot below shows the results after running ng serve -o:

Sunday, 10 November 2019

Implementing projection in Javascript

Github page for source code in this article:
https://github.com/toreaurstadboss/JsLinqSimpleProjection
https://www.npmjs.com/package/jslinqsimpleprojection
Npm package for source code in this article: Since I started working with Linq in C#, I missed a good way of doing much of the same functionality in Javascript. Today, there are several Linq libraries for Javascript and Typescript, and libraries such as Backbone.Js or Lodash also containing a lot of helpful operators or utility methods. As an educational exercise, I was looking into a simple way of doing a projection method in pure Javascript (no es6 syntax). Here is what I made. First off, we need to be able to project an array of objects by listing up properties. In ES6 Javascript we could use arrow functions. But I wanted to support pure Javascript. So I choose to use a comma separated list of property or field values to dive into the array object, written in Json notation of course. Consider first this array as an example:

        var someCountries = [
          { country: "Norway", population: 5.2, code: "NO" },
          { country: "Finland", population: 5.5, code: "SU" },
          { country: "Iceland", population: 0.4, code: "IC" },
          { country: "Sweden", population: 10.2, code: "SW" }
        ];

We want to project this array using a new method select on the array of which we use the Array.prototype to achieve. Note that this will immediately add methods to all array objects immediately in the global scope. Now consider a projection of just the 'country' and the 'population' fields of the Json structure. Given a method call of just these two properties, we want to create a select projection method. First consider this lightweight linqmodule implementation, using an IFE (Immediately invoked function expression) and using the revealing module pattern. We expose the method dump to this module.

var linqmodule = (function() {
  projection = function(members) {
    var membersArray = members.replace(/s/g, "").split(",");
    var projectedObj = {};

    for (var i = 0; i < this.length; i++) {
      for (var j = 0; j < membersArray.length; j++) {
        var key = membersArray[j];
        if (j === 0) {
          projectedObj[i] = {};
        }
        projectedObj[i][key] = this[i][key];
      }
    }

    return projectedObj;
  };
  Array.prototype.select = projection;

  dumpmethod = function(arrayobj) {
    var result = "";
    result += "[";

    for (var i = 0; i < Object.keys(arrayobj).length; i++) {
      var membersArray = Object.keys(arrayobj[i]);
      for (var j = 0; j < membersArray.length; j++) {
        if (j === 0) {
          result += "{";
        }
        var key = membersArray[j];
        result +=
          "key: " +
          key +
          " , value: " +
          arrayobj[i][key] +
          (j < membersArray.length - 1 ? " , " : "");
        if (j === membersArray.length - 1) {
          result +=
            "}" + (i < Object.keys(arrayobj).length - 1 ? "," : "") + "\n";
        }
      }
    }
    result += "]";

    return result;
  };

  return {
    dump: dumpmethod
  };
})();


Now it is easy to dump the contents of our projected array (which is copied into a new object) using the dump method:

 result = someNums.select("country,population");
         document.getElementById("result").innerText = linqmodule.dump(result);

        console.log(result);

Note that our new object contains only the country and population fields in the Json structure, not the code. We have created a simple projection mechanism in Javascript in a self contained module!

Arithmetic parser in Javascript

I just added an arithmetic parser in Javascript code sample on Github, check out the following repo: JsSimpleParser The parser is also available through Npm: https://www.npmjs.com/package/simplejsparsermatharithmetic Installation: npm i simplejsparsermatharithmetic Supported expressions (examples): 2+3 should evaluate to 5 12 * 5–(5 * (32 + 4)) + 3 should evalute to -117 This is a great example of how to write a parser of your own.

Wednesday, 5 June 2019

Random selection of a HTML SELECT element

Just made a JsFiddle of a random selection control for HTML SELECT tag. The JsFiddle is available here: Random selecting combobox (JsFiddle)
  • The control should use Bootstrap to function properly. It needs jQuery library for Javascript bit.
  • To turn on hiding the selected option, set the data-hide-selectedoption HTML 5 data attribute to "true".

Random selecting HTML SELECT control


<!-- 
  Bootstrap docs: https://getbootstrap.com/docs
-->

<div class="container">

  <div class="input-group mb-3">
    <div class="input-group-prepend">
      <span class="input-group-text" id="basic-addon1"><img style="cursor:pointer" title="Choose random value" alt="Choose random value" width="24" height="24" src="https://cdn4.iconfinder.com/data/icons/ionicons/512/icon-shuffle-512.png" /></span>
    </div>
    <select data-hide-selectedoption="true" disabled id="ComboBoxIceCreamBar" class="form-control" placeholder="Username" aria-label="Username" aria-describedby="basic-addon1">
 <option selected hidden>Choose icecream</option>
 <option value="Vanilla">Vanilla</option>
 <option value="Strawberry">Strawberry</option>
 <option value="Pineapple">Pineapple</option>
 <option value="Mint chocolate">Mint chocolate</option>
 <option value="Mango ice cream">Mango ice cream</option>
 <option value="Rasperry Ripple">Raspberry Ripple</option>
 <option value="Pistachio">Pistachio</option>
 <option value="Cookie dough">Cookie dough</option>
 <option value="Lemon">Lemon</option>
 <option value="Mango">Mango</option>
 </select>
    <!-- <input type="text" class="form-control" placeholder="Username" aria-label="Username" aria-describedby="basic-addon1"> -->
  </div>

</div>

<script type="text/javascript">
  $("#basic-addon1").on("click", function() {
    var selectcontrol = $(this).parent().siblings('select:first');
    var optionslength = selectcontrol.children('option').length;
    var randomIndex = Math.max(1, parseInt(Math.random() * optionslength));
  var optionElementToSelect = selectcontrol.children('option')[randomIndex];
    optionElementToSelect.selected = true;
  //debugger
  if (selectcontrol.data('hide-selectedoption')){
       optionElementToSelect.innerText = 'Selected value hidden.';   
  } 
  console.log("Selected ice cream: " + selectcontrol.val());
  });

</script>

Sunday, 23 December 2018

Canceling Promise in Javascript

Canceling Promise in Js is a often sough after functionality, that can be provided by wrapping the Promise async function and provide canceling abilities. This will in functionality be similar to what we can do in C# with a CancellationTokenSource using in System.Threading.Task objects. We can invoke asynchronous function in Js with Promise, but if the user navigates away from a View or Page in for example React Native component, clicking a button to go to another Component, we must tidy up already started Promise operations such as fetch and here is the code to achieve that. First off, we define and export a makeCancelable method to be able to cancel a Promise.

/**
 * Wraps a promise into a cancelable promise, allowing it to be canceled. Useful in scenarios such as navigating away from a view or page and a fetch is already started.
 * @param {Promise}   promise           Promise object to cancel.
 * @return {Object with wrapped promise and a cancel function}
 */
export const makeCancelable = (promise) => {
    let hasCanceled = false;

    const wrappedPromise = new Promise((resolve, reject) => {
        promise.then(value => hasCanceled ? reject({ isCanceled: true }) : resolve(value),
            error => hasCanceled ? reject({ isCanceled: true }) : reject(error)
        );
    });

    return {
        promise: wrappedPromise,
        cancel() {
            hasCanceled: true;
        }
    };

};

The promise is wrapped with additional logic to check a boolean flag in a variable hasCanceled that either rejects the Promise if it is canceled or resolves the Promise (fullfils the async operation). Returned is an object in Js with the Promise itself in a primise attribute and the function cancel() which sets the boolean flag hasCanceled to true, effectively rejecting the Promise and rejecting it. Example usage below:

'use strict';

import React, { Component } from 'react';
import { TextInput, Text, View, StyleSheet, Image, TouchableHighlight, ActivityIndicator, FlatList, AsyncStorage } from 'react-native';
import AuthService from './AuthService';
import { makeCancelable } from './Util';

const styles = StyleSheet.create({
    container: {
        backgroundColor: '#F5FCFF',
        flex: 1,
        paddingTop: 40,
        alignItems: 'center'
    },
    heading: {
        fontSize: 30,
        fontWeight: '100',
        marginTop: 20
    },
    input: {
        height: 50,
        marginTop: 10,
        padding: 4,
        margin: 2,
        alignSelf: 'stretch',
        fontSize: 18,
        borderWidth: 1,
        borderColor: '#48bbec'
    },
    button: {
        height: 50,
        backgroundColor: '#48bbec',
        alignSelf: 'stretch',
        marginTop: 10,
        justifyContent: 'center'
    },
    buttonText: {
        fontSize: 22,
        color: '#FFF',
        alignSelf: 'center'
    },
    error: {
        fontWeight: '300',
        fontSize: 20,
        color: 'red',
        paddingTop: 10
    }
});

const cancelableSearchRepositoriesPromiseFetch = makeCancelable(fetch('https://api.github.com/search/repositories?q=react'));

class LoginForm extends Component {

    constructor(props) {
        super(props);

        this.state = {
            showProgress: false,
            username: '',
            password: '',
            repos: [],
            badCredentials: false,
            unknownError: false,
        };


    }

    onLoginPressed() {
        this.setState({ showProgress: true });

        var reposFound = [];

        var authService = new AuthService();

        authService.login({
            username: this.state.username, password: this.state.password
        }, (results) => {
            this.setState(Object.assign({ showProgress: false }, results));

            if (this.state.success && this.props.onLogin) {
                this.props.onLogin();
            }

        });




        cancelableSearchRepositoriesPromiseFetch.promise.then((response) => { return response.json(); })
            .then((results) => {
                results.items.forEach(item => {
                    reposFound.push(item);
                });
                this.setState({ repos: reposFound, showProgress: false });
            });
    }

    componentWillMount() {
        this._retrieveLastCredentials();
        cancelableSearchRepositoriesPromiseFetch.cancel();
    }

    _retrieveLastCredentials = async () => {

        var lastusername = await AsyncStorage.getItem("GithubDemo:LastUsername");
        var lastpassword = await AsyncStorage.getItem("GithubDemo:LastPassword");
        this.setState({ username: lastusername, password: lastpassword });
    }

    _saveLastUsername = async (username) => {
        if (username != null) {
            await AsyncStorage.setItem("GithubDemo:LastUsername", username);
        }
    }

    _savePassword = async (password) => {
        if (password != null) {
            await AsyncStorage.setItem("GithubDemo:LastPassword", password);
        }
    }

    componentWillUnmount() {

    }

    render() {


        var errorCtrl = <View />;

        if (!this.state.success && this.state.badCredentials) {
            errorCtrl = <Text color='#FF0000' style={styles.error}>That username and password combination did not work</Text>
        }

        if (!this.state.success && this.state.unknownError) {
            errorCtrl = <Text color='#FF0000' style={styles.error}>Unexpected error while logging in. Try again later</Text>
        }

        return (
            <View style={styles.container}>
                <Image style={{ width: 66, height: 55 }} source={require('./assets/Octocat.png')} />
                <Text style={styles.heading}>Github browser</Text>
                <TextInput value={this.state.username} onChangeText={(text) => { this._saveLastUsername(text); this.setState({ username: text }); }} style={styles.input} placeholder='Github username' />
                <TextInput value={this.state.password} textContentType={'password'} multiline={false} secureTextEntry={true} onChangeText={(text) => { this._savePassword(text); this.setState({ password: text }); }} style={styles.input} placeholder='Github password' />
                <TouchableHighlight style={styles.button} onPress={this.onLoginPressed.bind(this)}>
                    <Text style={styles.buttonText}>Log in</Text>
                </TouchableHighlight>
                {errorCtrl}
                <ActivityIndicator animating={this.state.showProgress} size={"large"} />
                <FlatList keyExtractor={item => item.id} data={this.state.repos} renderItem={({ item }) => <Text>{item.full_name}</Text>} />

            </View>
        );

    }


}

export default LoginForm; 


Saturday, 19 May 2018

Call a Javascript function from Blazor page

This article will show how a Js function can be called from a Blazor page. First off, create a button like this:
 <button class="btn btn-warning" onclick="@SayHelloToBlazor">Click me!</button>
Then define the .Net method to handle the onclick event.
@using Microsoft.AspNetCore.Blazor.Browser.Interop

 private async void ShowAlert()
 {
    if (RegisteredFunction.Invoke("showAlert", "Hello World!"))
        Console.WriteLine("The Js function showAlert was called!");
 }
The code invokes a registered function with the invoke method and passing in the method name and an argument. Note that you must add the Interop namespace to Blazor in AspNetCore. We then add the Js function, but Blazor will give you a compiler error if you put the Js function in the same file as the Blazor page. Instead, add it in the index.html file under wwwroot folder of your Blazor project (check the wwwroot folder). You can define the Js function in a .js file or right into the index.html file.

    Blazor.registerFunction('showAlert', (msg) => {
        console.log(msg);
        alert(msg);
        return true;

    });

Note that if you refactor the Js method, your reference in the .DotNet code of Blazor will of course go stale, and you must update it. Since we return true (as Blazor wants you to do), we can act upon that in the Blazor code as a callback (check the async modifier of the DotNet method). That is what you need to do to get started with calling Javascript from Blazor page running in DotNetCore 2.1 and later.