Welcome to the fourth tutorial in LWC Tutorial Series where we're building a ToDo App Project. We're focusing on the concept of Learning By Doing in this tutorial series. In this tutorial, we're going to learn how we can fetch the data from the apex controller for our ToDo List component using wire service in LWC. We'll learn about how we can bind our return value to a property by using wire and we'll try to mutate/change that property and thereby learn about the immutability property of wire service.

Note:- We'll not be using the changes that we'll do in this tutorial as a base in further LWC tutorials for ToDo App Series. This tutorial is important because, It's Equally important to understand WHAT NOT TO DO as it is to understand WHAT TO DO. We'll be learning about immutability property of wire service in this tutorial and we'll see how we can fetch the data from apex to lwc component using wire service.


So, let's continue building the above application. This tutorial is published on SFDC Stop YouTube Channel. So, if you want to learn in detail, have a look at the tutorial video down below. Otherwise, you can scroll down to have a look at the code gist with explanation.

I highly recommend you to have a look at the video to understand in detail. However, let's have a quick look at the code below to understand in short:-

Apex Class (ToDoListController.cls)

As you can see above, I have created a simple method named as:- getTasks() which will return the list of tasks assigned to the logged-in user. Notice that I have added:- @AuraEnabled(cacheable=true) annotation to the method as it's required in order to make it available to the wire service. Let's have a look at the JavaScript code now.

JS Snippet (todo.js)

As you can see above, I have imported the getTasks method from the apex controller and wire service from lwc. At the end of the js, I have called getTasks method using the wire service and binded the response with todoTasks variable. It's the same variable that we initialized to an empty array in the previous tutorials (I've commented that code as you can see above the newTask variable declaration). Now, this todoTasks variable will store the response that we're getting by calling getTasks method i.e. an object with 2 keys:- data - which will contain the list of tasks and error - which will contain the error messages as you can see in the comments below the wire service.

Also, in the addTaskToList() method, I've commented the previous code of pushing the new task to todoTasks list as now we'll be pushing the new task to todoTasks.data as the list of todoTasks is present there. The id and name keys of each task are now replaced by Id and Subject as we're getting those tasks from apex now. For a new ToDo Task, the Id will have a value:- this.todoTasks.data.length + 1 instead of this.todoTasks.length + 1 as the list of todo tasks is now stored in this.todoTasks.data.

HTML Snippet (todo.html)

If you notice carefully, I have updated the todoTasks array in the for:each loop. Instead of todoTasks, I am using todoTasks.data and instead of using todoTask.id, todoTask.name, I am using todoTask.Id and todoTask.Subject

I have also wrapped this for:each loop under an if condition using <template if:true={todoTasks.data} which will check, if the data under the todoTasks object is defined or in simple words we can say that it'll check, if the tasks are fetched from the server successfully, as it may take some time to fetch the data from the server when the component is rendered. Once all the data is fetched, it'll go inside this template with if condition and render all the todo tasks using a for:each loop.

In the output you'll see that the todoTasks are fetched from salesforce successfully and you'll be able to view those. However, if you try to add a new todoTask to the list, you won't be able to do that as All the data which is fetched by using the wire service is Immutable (can't be updated). We'll see the solution to this issue in the next tutorial, where we'll bind a function with the wire service instead of a variable.

That's all for this tutorial. I hope you liked it. All the code used in this tutorial is available on GitHub and you can have a look at that by clicking here. Make sure to have a look at the video if you want to learn in detail and let me know your feedback in the comments down below.

Happy Trailblazing..!!

Welcome to the third tutorial in LWC Tutorial Series where we're building a ToDo App Project. We're focusing on the concept of Learning By Doing in this tutorial series. In this tutorial, we'll be modifying the JavaScript and HTML code of our ToDo Application so that we're able to remove a ToDo Task from the list by clicking on the delete button icon. The final result will be as follows:-


So, let's continue building the above application. This tutorial is published on SFDC Stop YouTube Channel. So, if you want to learn in detail, have a look at the tutorial video down below. Otherwise, you can scroll down to have a look at the code gist with explanation.

I highly recommend you to have a look at the video to understand in detail. However, let's have a quick look at the code below to understand in short:-

HTML Snippet (todo.html)

Have a look at the code above, if you carefully see the delete button-icon, you'll notice that, I've added a name attribute and an onclick attribute. The name attribute consist of the id of current todo task which is being rendered in the list, specified by todoTask.Id. Using this name attribute we can identify which task is being deleted in the js and remove that task from the todo list array. The onclick attribute is binded with a js function named as:- deleteTaskFromList

Let's have a look at the changes in JavaScript code now.

JS Snippet (todo.js)

As you can see above, I added a new method named as:- deleteTaskFromList() which will be used to remove a task from the ToDo List. Whenever we're clicking on the delete button icon, we're getting the id of the task which we have to delete by using event.target.name and storing it in idToDelete variable. We're assigning the list of todo tasks to a local variable named as todoTasks that we're going to use in this method. We declared another variable named as todoTaskIndex which will be used to store the index of todo task that we have to delete.

After that we're iterating all the todo tasks using a for loop and we're storing the index of the todo task in the todoTaskIndex variable whose id is equal to the id stored in idToDelete variable.

Finally, we're removing the todo task from the list by calling the splice() method on the todoTasks array. The splice() method takes up the index of the element to remove from the array as the first parameter and the number of elements to remove from the array (starting from that index) as the second parameter.

In the method 2, which is commented in the above code, we're using the findIndex() method to find the index of the todo task that we need to remove from the list.

We've re-written the same code specified in method 2 in method 3 also, the only difference is that we've used the arrow function => there to reduce the code to one line. Please have a look at the video for a detailed explanation of those.

You can use any of the methods out of:- method 1, method 2 or method 3. All will do the same work i.e. removing the element from the todo list.

That's all for this tutorial. I hope you liked it. All the code used in this tutorial is available on GitHub and you can have a look at that by clicking here. Make sure to have a look at the video if you want to learn in detail and let me know your feedback in the comments down below.

Happy Trailblazing..!!

Welcome to the second tutorial in LWC Tutorial Series where we're building a ToDo App Project. We're focusing on the concept of Learning By Doing in this tutorial series. In this tutorial, we'll be adding the JavaScript to our ToDo Application and update the HTML code as well so that it renders dynamically and we'll be moving one step forward to the below result at the end as we'll be able to add elements to todo list dynamically on click of the Add button.


So, let's continue building the above application. This tutorial is published on SFDC Stop YouTube Channel. So, if you want to learn in detail, have a look at the tutorial video down below. Otherwise, you can scroll down to have a look at the code gist with explanation.

I highly recommend you to have a look at the video to understand in detail. However, let's have a quick look at the code below to understand in short:-

JS Snippet (todo.js)

HTML Snippet (todo.html)

That's all for this tutorial. I hope you liked it. All the code used in this tutorial is available on GitHub and you can have a look at that by clicking here. Make sure to have a look at the video if you want to learn in detail and let me know your feedback in the comments down below.

Happy Trailblazing..!!

Welcome to the first tutorial in LWC Tutorial Series. We're focusing on the concept of Learning By Doing in this tutorial series and following that, it's time to get started with our first project in LWC which is a ToDo Application. In this tutorial, we'll be designing the markup in SLDS for our ToDo application and going forward in further tutorials, we'll be adding JavaScript in our application to make it working as shown below:-


So, let's start building the above application and while doing that, we're going to see from very basic, how we can built the HTML structure by looking at a design and we'll learn about various lightning tags and what's their usage on the go.

This tutorial is published on SFDC Stop YouTube Channel. So, if you want to learn in detail, have a look at the tutorial video down below. Otherwise, you can scroll down to have a look at the code gist with explanation where we created the markup of our ToDo Application

I highly recommend you to have a look at the video to understand the thinking process like:- How I proceeded with creation of this component by just having a look at the design. However, I'll be explaining the code of the same below. So, let's have a look at the code using which we created our first ToDo App LWC component. My component name is todo and the code is given below:-

HTML Snippet (todo.html)

That's all for this tutorial. I hope you liked it. All the code used in this tutorial is available on GitHub and you can have a look at that by clicking here. Make sure to have a look at the video if you want to learn in detail and let me know your feedback in the comments down below.

Happy Trailblazing..!!

Welcome to the first tutorial in LWC Tutorial Series. In this tutorial, we'll cover the below points :-

1. What is LWC ?

2. Why should we use LWC when Aura is here ? 😎

3. Comparison between Old and New Web Stacks

4. Setting up Local Server for Lightning web component development

5. Creating your first LWC component with a little bit of HTML and JavaScript

6. Have a look at the references and resources for learning LWC

This tutorial is published on SFDC Stop YouTube Channel. So, if you want to learn in detail, have a look at the tutorial video down below. Otherwise, you can scroll down to the presentation and have a look at the code gist with brief explanation where we created our First LWC Component

The presentation used in this tutorial is published on Slideshare and can be viewed below.

Now let's have a look at the code using which we created our first LWC component. My component name is myFirstLWC and the code is given below:-

HTML Snippet (myFirstLWC.html)

JavaScript Snippet (myFirstLWC.js)

As you click on the lightning-input field and write anything there. The component will be re-rendered automatically and you'll see your text after hello as shown below:-


I am viewing the LWC component in the LWC Local Server that I've setup in my system. If you've Node.js and SFDX CLI installed in your system, you can also setup the local LWC Server by executing the below commands in the terminal:-

sfdx plugins:install @salesforce/lwc-dev-server

The above command will install lwc-dev-server in your local system. After it's installed, open the terminal again and run the below command:-

sfdx plugins:update

This command will basically update all the sfdx plugins so that you can run your LWC component on the local server installed.

After your local server is installed successfully, you can preview the LWC component by right clicking on the lwc component in your VSCode project and choosing SFDX: Preview Component Locally option as shown below:-


Choose the first option, i.e. Use Desktop Browser to preview the component locally in your default browser as shown below:-


Make sure you have Salesforce Extension Pack installed in VSCode. You can have a look at this tutorial to setup VSCode for Salesforce Development:- How to setup Visual Studio Code for Salesforce ?

You can also use the below command to start the local dev server in case the extensions are not working properly:-

sfdx force:lightning:lwc:start

In case you're follwing some issues, installing the sfdx plugins, read the instructions carefully as it's possible that you're missing some node js packages, you can install those packages by using the below command:-

npm install -g <package name>

-g  is basically used to install the package globally so that you can use it anywhere.

That's all for this tutorial. I hope you liked it. All the code used in this tutorial is available on GitHub and you can have a look at that by clicking here. Make sure to have a look at the video if you want to learn in detail and let me know your feedback in the comments down below.

Happy Trailblazing..!!

Once you've setup the tool, the first step you need to do is to fetch the metadata from the source org. That you can do by setting up the package.xml present under the metadata folder. After you have the package.xml ready, open the deploy tool, choose option 1 and press the Enter key. A sample package.xml is shown below:-

Once you've fetched the metadata from the source org, you'll see an unpackaged.zip file automatically created in the base folder as shown in the above image. This zip file mainly consists of all the metadata that you've fetched using the package.xml. Our next step is to extract and update this metadata before deploying it to the destination org.

To extract the metadata, open SFDX Deploy Tool and choose option 2 with the name:- Extract fetched metadata this option will extract the fetched metadata using windows powershell, once the metadata is successfully extracted, you'll see an output as shown below:-

In the base folder, you can see that the unpackaged.zip file is extracted automatically and a new folder named unpackaged is created which consist of all the metadata that we fetched from the source org as shown below:-

The first step is to download and install git in your system. In order to download git, go to this link:-  https://git-scm.com/downloads and you'll see the below screen.

Git is available for Mac, Windows and Linux. Download by clicking on the button as shown in the above image and follow simple steps to install git in your system.

Now, as you've installed git in your system, move on to your Salesforce Project in VSCode and click on Initialize Repository button available on the 3rd section in the left side bar as shown below:-

As you click on this button, it will automatically initialize the repository for you as shown below:-

If you want to initialize repository using command, you can just open terminal and write git init and press enter in order to initialize a new repository in the project folder. You can see in the above image, in the left sidebar, we're having all the files with an indicaton U where U means Untracked i.e. these files are currently not being tracked by git.

Just to give you a brief overview:-  Git is a version control system which basically tracks all the changes that you're doing. Any new file that you create is initially Untracked. Each file in a git repository can be in one of the below state:-

1. Untracked:- When a new file is created by the user, it is untracked or we can say that this file is unknown to git.

2. Tracked / Index Added:- When we specify or tell git that this is a newly created file and you've to track this file (particularly known as staging the file), the status of the file is changed to tracked or we can say that a particular index (number) is given to the file so that it can be identified by git.

3. Committed:- When we're done with the required changes, we commit that file. Git mark that file as committed and add an entry in  it's internal changelog which has the required updates with a Commit Message.

4. Untracked / Modified:- When a previously commited file is updated, the status of the file is changed to untracked / modified. We need to stage this file again to tell git that this file is ready to be committed.

5. Tracked / Index Modified:- When a modified file is staged by the user, it's status is again changed to tracked. At this point the index of the file is modified with recent changes and the file is again ready to be committed.

The basic flow for new files will be:-

Untracked -> Index Added (Tracked) -> Committed

and for existing files that are committed before, the flow will be:-

Untracked -> Index Modified (Tracked) -> Committed

So, we've just initialized a git repository and all our files are untracked by default. The next step is to stage the files. This basically tells git that these are the files in which the changes are completed and these files are now ready to be committed.

You can manually stage each file one by one or only some of the files by clicking on the + icon after that file name as shown below:-

Once you've marked even a single file as staged, you can see the staged files under the Staged Changes heading and unstaged files under the Changes heading in VSCode as shown below:-

If you want to stage all the files at once, click on the + icon on the Changes heading as shown below:-

Once all your files are staged, the next step is to commit these files. In order to commit the files you need to specify a Commit Message. As you can see in the below image, you can specify a Commit Message in the message box in VSCode and click on the right (tick) icon to make a commit.

As you can see in the above image, I have specified a commit message as Initial Commit as it's the first time I am committing all the changes to git. You can give any commit message of your choice. Once you've committed all the files, your git changes sidebar will become empty as there is no further change made by you after the last commit.

After committing, if you do even a single change, your git bar will show you that file as Modified and you need to stage and commit that file again to mark the change as done.

As you can see in the above image, I have removed opening brace { from my setRequestMap() method and as I saved this file, it's specified as modified by the git in sidebar. After I am done with all the changes, I need to follow the same procedure as we did above to stage and commit the file. You can click on the filename in the git sidebar to review the change you've done as shown below:-

You can revert one or all the changes by clicking on the Undo icon which says (Discard Changes), on the left of the + icon for single file as shown in the above image or it'll show Discard All Changes if you see on the Changes heading.

Now, we've done our first commit locally, it's time to create a new GitHub repository and push our changes here. To do that, first create an account on https://github.com/ 

After you created an account and you're logged in on github, the next step is to create a new repository. Go to the top menu bar and click on the + icon there and choose New repository as shown below:-

You'll see a new page as shown below:-

As you can see in the above image, first of  all you need to add a repository name, then you can give a description of your choice. After that you need to specify if your repository is public or private.

Public Repository:- Visible to everyone. Anyone can have a look at the code, clone your repository or submit a pull request.

Private Repository:- Visible only to you and the collaborators. You can invite people to collaborate on a private repository on github and they'll have access to this repository.

We don't need to initialize  this repository with a README as our project in VSCode already has a readme file as shown in the below image, so keep it unchecked.

Click on the Create Repository button to create a new repository as shown below:-

Once a new repository is created you'll be taken to a new screen as you can see in the below image:-

As you can see in the above image, I have a HTTPS URL automatically generated which is:- https://github.com/rahulmalhotra/ci-cd-tutorial.git

Our next step is to tell VSCode git repository that it has to push the changes to this repository URL that we got from GitHub. So, we need to specify a remote server by giving this URL to our local git repo. In order to do that, open the terminal in your VSCode and execute the below command:-

git remote add origin <YOUR-REPOSITORY-URL>

As you can see in the below image, I have given my repo URL that I got from github after the git remote add origin command. This will basically tell my local git that this is the remote origin (server url with the name or alias origin) where I am going to push my code. You can also run a git remote -v  command to verify the remote URLs as shown below:-

I have also executed git status command to check the status and make sure that everything is clean and ready to be pushed.

To push your changes, you need to execute the git push command from your terminal as shown below:-

As you can see above, as I executed git push I got a message that this branch has no upstream branch set. This message basically means that we haven't mapped our local git branch to the git branch on github server. By default, when you create a new git repo. You have a master branch automatically created. Similarly, on github when we created a new repository, a master branch is automatically created. But our next task is to tell git that you need to push our code in the local master branch to the remote master branch on github. In order to do that execute the command as specified by git in the above image which is:-

git push --set-upstream origin master

The above command will tell git to set the upstream (remote) branch as master for the current local branch which is also master by default and push the code. The shortcut for the above command is git push -u origin master where -u stands for --set-upstream

As you can see above, as I executed this command, the command asked for my github username and password that I entered and everything is pushed onto my github repository and I got a message that Branch master set up to track remote branch master from origin.

If you now go to your github repository and refresh that page, you can see that the code is pushed and is available on your github repository as shown below:-

Note:- Any empty folders in your project are automatically not tracked by git and will not be pushed to your github repository as well.

You can also push to your github repository by using the push option in VSCode as shown below, but make sure that you've set the remote origin first which is a one time effort that we did above.

Now it's your time. Make some changes, commit them and push them again to GitHub. Explore your commits in the GitHub repository and see what information you can see from there. You can have a look at the CI/CD Tutorial github repository that I used in this tutorial by clicking here.

Tired of reading or just scrolled down, don't worry, you can watch the video too.

That's all for this tutorial everyone, If you liked it, make sure to share it in your network and let me know your feedback in the comments down below.

Happy Trailblazing..!!