Now that I'm a Java Developer, I no longer worry about the bloating feeling I get when I need to open up the original Visual Studio. Now I worry about opening another instance of Eclipse. Don't get me wrong, Visual Studio and Eclipse are both great tools, but there are plenty of times where I don't need to bring a forklift just to move a single box.
This is why I love Visual Studio Code.
That being said, we don't have native rich support for Java in Code. We do have syntax and bracket matching for Java, I wanted to see if I could compile and possibly display any errors directly in code.
We do that using Tasks, and here's what I did:
Configure a Task Runner
To start you need a task runner for your project, which is where you will...you guessed it...configure tasks.
- Hit
Ctrl + Shift + P
to bring up the command palette. Search for "task" and you'll get the Configure Task Runner command. - Select it and press
Enter
to generate a tasks.json file.
The default tasks.json file has some samples along with some reference variables at the top of the file.
Next up, we create our task.
Configure a Task
To see if we have any errors, we want to run our Java compiler on our code to get any error. In the example below, I'm using a simple project with a src
and a target
directory where the src
directory contains all of our Java files.
- First, clear out the other tasks in the file. We only want the one we're going to use which is our javac command.
- Add the task to run the Java compiler
1 | { |
- Now, we can run our command by hitting
Ctrl + Shift + P
and typing Run Task should show us our new Java task.
- Select it to run it, and assuming you have an error, it should display something in the output window.
We're making progress, but it would be nice to see those errors inline in our code files, wouldn't it? That's where Problem Matchers come in.
Add a Problem Matcher to your Task
Now that we have a task running, we need to tell Code how to process the output. We do that using configuring a problem matcher that uses a regular expression to parse the output.
Here's what my task looks like now:
1 | { |
If you'd like the full scoop on how this works, you can check out the explanation on the Code documentation on writing problem matchers but basically each of the variables listed beneath the regexp
represent a part of the VS code message that should display.
Now that I've updated my task. If we run it again by hitting Ctrl + P
and typing task javac we should get the following:
...and if we bring up our warnings by hitting Ctrl + Shift + M
we should see:
Click on the warning, should bring you to the file with the error in it.
Hey, Why Can't I Add More Tasks to tasks.json?
Great question! Although I don't have an official answer, here's my opinion: It's a bad idea.
The tasks.json
file is an IDE specific configuration file. All it's really doing to making shortcuts through your IDE to execute different commands from the command line. So rather than setup multiple tasks for each individual command, you should do yourself and your project a favour and setup a build script and use that in your tasks.json file.
A build script will have all the commands and scripts you need to run, build, test, or do whatever to your project. Plus, it's usable outside of Code, so it's much more useful.
Although totally customizable (which I'll cover in an upcoming post), you can see this action now if you're using Gulp, Grunt, or Jake in your existing projects.
Thanks for playing. ~ DW