diff --git a/assignments/arrays.js b/assignments/arrays.js index 1dbf8bd35..92002f602 100644 --- a/assignments/arrays.js +++ b/assignments/arrays.js @@ -1,59 +1,58 @@ + // To help us use arrays with real world problems we are going to simulate a used car dealer that has 50 cars in their inventory. // The car dealer has all of their inventory housed in the array seen below. Scroll down past the data to find out how you can help the car dealer. -let inventory = [ - { id: 1, car_make: "Lincoln", car_model: "Navigator", car_year: 2009 }, - { id: 2, car_make: "Mazda", car_model: "Miata MX-5", car_year: 2001 }, - { id: 3, car_make: "Land Rover", car_model: "Defender Ice Edition", car_year: 2010 }, - { id: 4, car_make: "Honda", car_model: "Accord", car_year: 1983 }, - { id: 5, car_make: "Mitsubishi", car_model: "Galant", car_year: 1990 }, - { id: 6, car_make: "Honda", car_model: "Accord", car_year: 1995 }, - { id: 7, car_make: "Smart", car_model: "Fortwo", car_year: 2009 }, - { id: 8, car_make: "Audi", car_model: "4000CS Quattro", car_year: 1987 }, - { id: 9, car_make: "Ford", car_model: "Windstar", car_year: 1996 }, - { id: 10, car_make: "Mercedes-Benz", car_model: "E-Class", car_year: 2000 }, - { id: 11, car_make: "Infiniti", car_model: "G35", car_year: 2004 }, - { id: 12, car_make: "Lotus", car_model: "Esprit", car_year: 2004 }, - { id: 13, car_make: "Chevrolet", car_model: "Cavalier", car_year: 1997 }, - { id: 14, car_make: "Dodge", car_model: "Ram Van 1500", car_year: 1999 }, - { id: 15, car_make: "Dodge", car_model: "Intrepid", car_year: 2000 }, - { id: 16, car_make: "Mitsubishi", car_model: "Montero Sport", car_year: 2001 }, - { id: 17, car_make: "Buick", car_model: "Skylark", car_year: 1987 }, - { id: 18, car_make: "Geo", car_model: "Prizm", car_year: 1995 }, - { id: 19, car_make: "Oldsmobile", car_model: "Bravada", car_year: 1994 }, - { id: 20, car_make: "Mazda", car_model: "Familia", car_year: 1985 }, - { id: 21, car_make: "Chevrolet", car_model: "Express 1500", car_year: 2003 }, - { id: 22, car_make: "Jeep", car_model: "Wrangler", car_year: 1997 }, - { id: 23, car_make: "Eagle", car_model: "Talon", car_year: 1992 }, - { id: 24, car_make: "Toyota", car_model: "MR2", car_year: 2003 }, - { id: 25, car_make: "BMW", car_model: "525", car_year: 2005 }, - { id: 26, car_make: "Cadillac", car_model: "Escalade", car_year: 2005 }, - { id: 27, car_make: "Infiniti", car_model: "Q", car_year: 2000 }, - { id: 28, car_make: "Suzuki", car_model: "Aerio", car_year: 2005 }, - { id: 29, car_make: "Mercury", car_model: "Topaz", car_year: 1993 }, - { id: 30, car_make: "BMW", car_model: "6 Series", car_year: 2010 }, - { id: 31, car_make: "Pontiac", car_model: "GTO", car_year: 1964 }, - { id: 32, car_make: "Dodge", car_model: "Ram Van 3500", car_year: 1999 }, - { id: 33, car_make: "Jeep", car_model: "Wrangler", car_year: 2011 }, - { id: 34, car_make: "Ford", car_model: "Escort", car_year: 1991 }, - { id: 35, car_make: "Chrysler", car_model: "300M", car_year: 2000 }, - { id: 36, car_make: "Volvo", car_model: "XC70", car_year: 2003 }, - { id: 37, car_make: "Oldsmobile", car_model: "LSS", car_year: 1997 }, - { id: 38, car_make: "Toyota", car_model: "Camry", car_year: 1992 }, - { id: 39, car_make: "Ford", car_model: "Econoline E250", car_year: 1998 }, - { id: 40, car_make: "Lotus", car_model: "Evora", car_year: 2012 }, - { id: 41, car_make: "Ford", car_model: "Mustang", car_year: 1965 }, - { id: 42, car_make: "GMC", car_model: "Yukon", car_year: 1996 }, - { id: 43, car_make: "Mercedes-Benz", car_model: "R-Class", car_year: 2009 }, - { id: 44, car_make: "Audi", car_model: "Q7", car_year: 2012 }, - { id: 45, car_make: "Audi", car_model: "TT", car_year: 2008 }, - { id: 46, car_make: "Oldsmobile", car_model: "Ciera", car_year: 1995 }, - { id: 47, car_make: "Volkswagen", car_model: "Jetta", car_year: 2007 }, - { id: 48, car_make: "Dodge", car_model: "Magnum", car_year: 2008 }, - { id: 49, car_make: "Chrysler", car_model: "Sebring", car_year: 1996 }, - { id: 50, car_make: "Lincoln", car_model: "Town Car", car_year: 1999 } -]; +let inventory = [{"id":1,"car_make":"Lincoln","car_model":"Navigator","car_year":2009}, +{"id":2,"car_make":"Mazda","car_model":"Miata MX-5","car_year":2001}, +{"id":3,"car_make":"Land Rover","car_model":"Defender Ice Edition","car_year":2010}, +{"id":4,"car_make":"Honda","car_model":"Accord","car_year":1983}, +{"id":5,"car_make":"Mitsubishi","car_model":"Galant","car_year":1990}, +{"id":6,"car_make":"Audi","car_model":"riolet","car_year":1995}, +{"id":7,"car_make":"Smart","car_model":"Fortwo","car_year":2009}, +{"id":8,"car_make":"Audi","car_model":"4000CS Quattro","car_year":1987}, +{"id":9,"car_make":"Ford","car_model":"Windstar","car_year":1996}, +{"id":10,"car_make":"Mercedes-Benz","car_model":"E-Class","car_year":2000}, +{"id":11,"car_make":"Infiniti","car_model":"G35","car_year":2004}, +{"id":12,"car_make":"Lotus","car_model":"Esprit","car_year":2004}, +{"id":13,"car_make":"Chevrolet","car_model":"Cavalier","car_year":1997}, +{"id":14,"car_make":"Dodge","car_model":"Ram Van 1500","car_year":1999}, +{"id":15,"car_make":"Dodge","car_model":"Intrepid","car_year":2000}, +{"id":16,"car_make":"Mitsubishi","car_model":"Montero Sport","car_year":2001}, +{"id":17,"car_make":"Buick","car_model":"Skylark","car_year":1987}, +{"id":18,"car_make":"Geo","car_model":"Prizm","car_year":1995}, +{"id":19,"car_make":"Oldsmobile","car_model":"Bravada","car_year":1994}, +{"id":20,"car_make":"Mazda","car_model":"Familia","car_year":1985}, +{"id":21,"car_make":"Chevrolet","car_model":"Express 1500","car_year":2003}, +{"id":22,"car_make":"Jeep","car_model":"Wrangler","car_year":1997}, +{"id":23,"car_make":"Eagle","car_model":"Talon","car_year":1992}, +{"id":24,"car_make":"Toyota","car_model":"MR2","car_year":2003}, +{"id":25,"car_make":"BMW","car_model":"525","car_year":2005}, +{"id":26,"car_make":"Cadillac","car_model":"Escalade","car_year":2005}, +{"id":27,"car_make":"Infiniti","car_model":"Q","car_year":2000}, +{"id":28,"car_make":"Suzuki","car_model":"Aerio","car_year":2005}, +{"id":29,"car_make":"Mercury","car_model":"Topaz","car_year":1993}, +{"id":30,"car_make":"BMW","car_model":"6 Series","car_year":2010}, +{"id":31,"car_make":"Pontiac","car_model":"GTO","car_year":1964}, +{"id":32,"car_make":"Dodge","car_model":"Ram Van 3500","car_year":1999}, +{"id":33,"car_make":"Jeep","car_model":"Wrangler","car_year":2011}, +{"id":34,"car_make":"Ford","car_model":"Escort","car_year":1991}, +{"id":35,"car_make":"Chrysler","car_model":"300M","car_year":2000}, +{"id":36,"car_make":"Volvo","car_model":"XC70","car_year":2003}, +{"id":37,"car_make":"Oldsmobile","car_model":"LSS","car_year":1997}, +{"id":38,"car_make":"Toyota","car_model":"Camry","car_year":1992}, +{"id":39,"car_make":"Ford","car_model":"Econoline E250","car_year":1998}, +{"id":40,"car_make":"Lotus","car_model":"Evora","car_year":2012}, +{"id":41,"car_make":"Ford","car_model":"Mustang","car_year":1965}, +{"id":42,"car_make":"GMC","car_model":"Yukon","car_year":1996}, +{"id":43,"car_make":"Mercedes-Benz","car_model":"R-Class","car_year":2009}, +{"id":44,"car_make":"Audi","car_model":"Q7","car_year":2012}, +{"id":45,"car_make":"Audi","car_model":"TT","car_year":2008}, +{"id":46,"car_make":"Oldsmobile","car_model":"Ciera","car_year":1995}, +{"id":47,"car_make":"Volkswagen","car_model":"Jetta","car_year":2007}, +{"id":48,"car_make":"Dodge","car_model":"Magnum","car_year":2008}, +{"id":49,"car_make":"Chrysler","car_model":"Sebring","car_year":1996}, +{"id":50,"car_make":"Lincoln","car_model":"Town Car","car_year":1999}]; // Example 1 for loop: @@ -73,32 +72,63 @@ let inventory = [ // console.log(evens); // [12, 14] + // ==== Challenge 1 ==== // The dealer can't recall the information for a car with an id of 33 on his lot. Help the dealer find out which car has an id of 33 by logging the car's year, make, and model in the console log provided to you below: -console.log(`Car 33 is a *car year goes here* *car make goes here* *car model goes here*`); + + +console.log('Car 33 is a',(inventory[32]["car_year"]),(inventory[32]["car_make"]),(inventory[32]["car_model"])); + + // ==== Challenge 2 ==== // The dealer needs the information on the last car in their inventory. What is the make and model of the last car in the inventory? Log the make and model into the console. -let lastCar = 0; -console.log(); + +let lastCar = inventory[inventory.length - 1]; +console.log(lastCar.car_make, lastCar.car_model); // ==== Challenge 3 ==== // The marketing team wants the car models listed alphabetically on the website. Sort all the car model names into alphabetical order and log the results in the console + let carModels = []; -let carModelsSorted = []; -console.log(); + +for (let i = 0; i < inventory.length; i++) { + carModels.push(inventory[i]["car_model"]); +} + +console.log(carModels.sort()); // ==== Challenge 4 ==== // The accounting team needs all the years from every car on the lot. Create a new array from the dealer data containing only the car years and log the result in the console. let carYears = []; -console.log(); + +for (let i = 0; i < inventory.length; i++) { + carYears.push(inventory[i]["car_year"]); +} + +console.log(carYears); // ==== Challenge 5 ==== // The car lot manager needs to find out how many cars are older than the year 2000. Using the carYears array you just created, find out how many cars were made before the year 2000 by populating the array oldCars and logging it's length. + let oldCars = []; -console.log(); + +for (let i = 0; i < carYears.length; i++) { + if (carYears[i] < 2000) { + oldCars.push(carYears[i]); + } +} + +console.log(oldCars.length); // ==== Challenge 6 ==== -// A buyer is interested in seeing only BMW and Audi cars within the inventory. Return an array that only contains BMW and Audi cars. Once you have populated the BMWAndAudi array, use JSON.stringify() to show the results of the array in the console. +// A buyer is interested in seeing only BMW and Audi cars within the inventory. Return an array that only contains BMW and Audi cars. Once you have populated the BMWAndAudi array, use JSON.stringify() to show the results of the array in the console. + let BMWAndAudi = []; -console.log(); + +for (let i = 0; i < inventory.length; i++) { + if (inventory[i]["car_make"] === "BMW" || inventory[i]["car_make"] === "Audi") + BMWAndAudi.push(inventory[i]); +} +console.log(JSON.stringify(BMWAndAudi)); + diff --git a/assignments/function-conversion.js b/assignments/function-conversion.js index 55f57ef62..7861ccc3c 100644 --- a/assignments/function-conversion.js +++ b/assignments/function-conversion.js @@ -5,21 +5,35 @@ // }; // myFunction(); +let myFunction = () => {}; + // let anotherFunction = function (param) { // return param; // }; // anotherFunction("Example"); +let anotherFunction = param => { + return param; + }; + // let add = function (param1, param2) { // return param1 + param2; // }; // add(1,2); +let add = (param1, param2) => { + return param1 + param2; + }; + // let subtract = function (param1, param2) { // return param1 - param2; // }; // subtract(1,2); +let subtract = (param1, param2) => { + return param1 - param2; + }; + subtract(1, 2); // Stretch diff --git a/assignments/objects.js b/assignments/objects.js index 798d5e0cf..0a1487683 100644 --- a/assignments/objects.js +++ b/assignments/objects.js @@ -1,46 +1,94 @@ + // Let's get some practice writing a few objects for a new group of interns at a small business. // ==== Challenge 1: Writing Objects ==== // HR needs some information on the new interns put into a database. Given an id, email, first name, and gender. Create an object for each person in the company list: -// 1, mmelloy0@psu.edu, Mitzi, F -// 2, kdiben1@tinypic.com, Kennan, M -// 3, kmummery2@wikimedia.org, Keven, M -// 4, gmartinson3@illinois.edu, Gannie, M -// 5, adaine5@samsung.com, Antonietta, F +// 1,mmelloy0@psu.edu,Mitzi,F +// 2,kdiben1@tinypic.com,Kennan,M +// 3,kmummery2@wikimedia.org,Keven,M +// 4,gmartinson3@illinois.edu,Gannie,M +// 5,adaine5@samsung.com,Antonietta,F -// Example format of an intern object: 1, examples@you.edu, Example, F +// Example format of an intern object: 1,examples@you.edu,Example,F const example = { - id: 0, - name: "Example", - email: "examples@you.edu", - gender: "F", + "id": 0, + "name": "Example", + "email": "examples@you.edu", + "gender": "F" } // Write your intern objects here: +const mitzi = { + "id": 1, + "name": "Mitzi", + "email": "mmelloy0@psu.edu", + "gender": "F" +} + +const kennan = { + "id": 2, + "name": "Kenna", + "email": "kdiben1@tinypic.com", + "gender": "M" +} + +const keven = { + "id": 3, + "name": "Keven", + "email": "kmummery2@wikimedia.org", + "gender": "M" +} +const gannie = { + "id": 4, + "name": "Gannie", + "email": "gmartinson3@illinois.edu", + "gender": "M" +} + +const antonietta = { + "id": 5, + "name": "Antonietta", + "email": "adaine5@samsung.com,", + "gender": "F" +} // ==== Challenge 2: Reading Object Data ==== // Once your objects are created, log out the following requests from HR into the console: // Mitzi's name - +console.log(mitzi["name"]); // Kennan's ID - +console.log(kennan["id"]); // Keven's email - +console.log(keven["email"]); // Gannie's name - +console.log(gannie["name"]); // Antonietta's Gender +console.log(antonietta["gender"]); + // ==== Challenge 3: Object Methods ==== // Give Kennan the ability to say "Hello, my name is Kennan!" Use the console.log provided as a hint. -// console.log(kennan.speak()); +//console.log(kennan.speak()); +kennan.speak = function(){ + return "Hello, my name is Kennan!"; +} +console.log(kennan.speak()); // Antonietta loves math, give her the ability to multiply two numbers together and return the product. Use the console.log provided as a hint. //console.log(antonietta.multiplyNums(3,4)); +antonietta.multiplyNums = function(a, b){ + return a * b; +} +console.log(antonietta.multiplyNums(3,4)); +// === Great work! === Head over to the the arrays.js file or take a look at the stretch challenge + + + + -// === Great work! === Head over to the the arrays.js. You may come back and attempt the Stretch Challenge once you have completed the challenges in arrays.js and function-conversion.js. // ==== Stretch Challenge: Nested Objects and the this keyword ==== @@ -61,4 +109,4 @@ const parent = {} // Have the child speak -// Have the grandchild speak +// Have the grandchild speak \ No newline at end of file