Crystal 0.14.1 has been released!
The major feature is a built-in playground made by @bcardiff.
The new playground is an excellent way to try ideas, test code, understand its execution, and teach Crystal to others.
You start the playground like this:
$ crystal play Listening on http://localhost:8080
You then open your browser at http://localhost:8080/
and you will be presented with a screen like this:
You write code on the left pane, and after you stop typing it will compile and execute it.
Every expression’s value will be shown on the right pane, and if the program has output it is shown in a bottom pane you can show by clicking the icon below the right pane.
If an expression is executed multiple times, the right pane will show how many times it was executed, and clicking on that it will open a table with all values.
If you use a tuple as an expression, the table will show a column for each of this values. In this way you can quickly see the relationship between multiple values in every iteration.
The right pane reacts “live” to code execution. For example if you use sleep 1.second
inside
a loop you will see values appearing every second.
The playground has access to the whole standard library, so you can use things like http clients
and servers in it. You can also require
files that are provided by shards
you mention in
your shards.yml
file, so you can play with that code too.
You can find more examples and use cases in the About section at the top right corner. You can also adjust a couple of settings, like whether to automatically compile code or not, and easily share it as a gist.
When you execute crystal play
an http server is started. When you use the playground,
it connects to that http server via a websocket, and code you type is sent through it.
You can see what the server does with your code if you start the playground with crystal play --verbose
.
For example, if you type this code:
The console will show this output:
I, [2016-03-21 14:55:17 -0300 #2379] INFO -- : /client WebSocket connected as session=1 I, [2016-03-21 14:55:17 -0300 #2379] INFO -- : Request to run code (session=1, tag=1). a = 1 b = a + 2 I, [2016-03-21 14:55:17 -0300 #2379] INFO -- : Code instrumentation (session=1, tag=1). a = $p.i(1, 1) b = $p.i(a + 2, 2) I, [2016-03-21 14:55:17 -0300 #2379] INFO -- : Instrumented code compilation started ... I, [2016-03-21 14:55:18 -0300 #2379] INFO -- : Code execution started (session=1, tag=1, ... I, [2016-03-21 14:55:18 -0300 #2379] INFO -- : /agent/1/1 WebSocket connected (session=1, ... I, [2016-03-21 14:55:18 -0300 #2379] INFO -- : Code execution ended (session=1, tag=1, ...
Some lines in your code are transformed to doing $p.i(...)
. $p
is initialized
to a class that will send that data over the websocket, together with line number
information, and will finally appear on the right pane.
Thanks to the fact the the compiler is written in Crystal and it provides APIs to transform AST nodes, and the standard library provides http server and websockets implementation, the resulting playground implementation is about 600 lines of Crystal code. The other half is made with javascript and HTML.
As the screenshots say: Happy Crystalling ♥
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