This content originally appeared on DEV Community 👩‍💻👨‍💻 and was authored by Elizabeth Mattijsen
This blog post provides an introduction to the Raku Programmming Language and its grep
functionality. It does not require any specific knowledge about the Raku Programming Language, although being familiar with basic grep
functionality (of the unix utility), is recommended.
The grep
functionality comes in two flavours in Raku: a procedural (sub
) version, and an object oriented (method
) version. Since everything in Raku is an object (or can be thought of as one), and I personally mostly prefer the object oriented way, I will be discussing only the method
way of using grep
and friends.
A simple example
Let's start with a simple question: Show the even numbers between 1 and 10. That should be easy enough.
We create an array with the numbers 1 through 10. And we put the even numbers in another array, which we can do this with the grep
method. The grep
method takes a piece of code as the argument: this will then be repeatedly called with a value to determine whether or not that value should be included.
sub is-even($number) { # returns True if given number is even
return $number %% 2; # %% is the "evenly divisible" operator
}
my @whole = 1..10; # fill up the array
my @even = @whole.grep(&is-even); # fill array with even numbers
say @even; # [2 4 6 8 10]; # show the result
Let's dissect this piece of code: the first 3 lines contain the definition of a subroutine called "is-even". It expects a single argument $number
, and returns either False
or True
depending on whether the given value is even or not.
The fourth line defines (my
) and initializes (=
) an array called @whole
with the numbers 1
through 10
.
The fifth line defines (my
) and initializes (=
) an array called @even
with the result of calling the method grep
(with the subroutine even
as the argument) on the @whole
array.
The sixth line shows the contents of the @even
array.
So what should we learn about Raku from this example?
- subroutines are made with
sub
- variables with a single value have a
$
prefix (usually referred to as asigil
) - values are returned with
return
from a subroutine - arrays have a
@
prefix (sigil
) - calling a method is done by placing a period
.
between object and method name - a subroutine can be referred to by prefixing its name with
&
(sigil)
First simplification
However, that seems like a lot of code to obtain the simple answer to the question: "Show the even numbers between 1 and 10 inclusive". So let's start by simplifying this code:
sub is-even($number) { $number %% 2 } # return not needed
say (1..10).grep(&is-even); # also works on ranges
Note that we removed the return
from the subroutine declaration. By default, the last expression evaluated in any block of code (recognizable by the curly braces {
}
) will be returned automatically.
Also note that we removed the use of arrays altogether: (1..10)
in Raku is a Range
object that can also have the grep
method called on it.
And the say
subroutine will take any expression as its argument, so we're good here as well.
Second simplification
However, we can even further simplify this code. The subroutine "is-even" doesn't actually need a name, it just needs to be a piece of code. A further simplification would thus be:
-> $number { $number %% 2 }
In Raku this is referred to as a "pointy block". You could think of this as subroutine without name, but there's a subtle difference with a sub
: you can return
from a subroutine, but you can not return from just a pointy block. If you execute a return
in a pointy block, it will return out of the first outer subroutine.
Third simplification
In programming one often talks about DRY as in Don't Repeat Yourself. Note that in the second simplification, we removed the repeated mentions of @whole
and @even
. In this third simplification, we will remove the repeated mention of $number
:
{ $^number %% 2 }
This uses the placeholder variable feature of Raku. It is basically a shorthand for the code of the second simplification.
But why would we need to have a name for a variable in such a simple expression anyway? Couldn't we do that in an even shorter way? Well, in Raku you can, thanks to something called "whatever currying":
* %% 2
What? That's it? Yup. Expressive, isn't it? So the actual code to show the even numbers between 1 and 10 inclusive, becomes:
say (1..10).grep(* %% 2); # (2 4 6 8 10)
Moving the goal
Now suppose you're only interested in the first even number? Well, you're in luck: the Raku Programming Language comes with a first
method, which is essentially the same as grep
, but which stops as soon as it has the first match. So our code would become:
say (1..10).first(* %% 2); # 2
But what if we want to have the third even number?
Remember how we used arrays in our first version? Well, even though (1..10).grep(* %% 2)
is not an array, it can be considered one. Which means you can apply indexing on it!
say (1..10).grep(* %% 2)[2]; # 6
The [2]
syntax indicates indexing, and since the first element starts at index 0
, [2]
means the third element.
Some people, coming from other languages, might argue that this would be wasteful, checking all the values in the range to only use the third value. And they'd be right in (most) other languages. But in the Raku Programming Language, grep
is a lazy method, so it will only check as many values as it needs to produce the third element.
Conclusion
This concludes the first part of the introduction to the grep
method, and possibly to the Raku Programming Language. Questions and comments are always welcome. You can also drop into the #raku-beginner channel on Libera.chat, or on Discord if you'd like to have more immediate feedback.
I hope you liked it! Thank you for reading all the way to the end.
This content originally appeared on DEV Community 👩‍💻👨‍💻 and was authored by Elizabeth Mattijsen
Elizabeth Mattijsen | Sciencx (2022-10-12T22:21:46+00:00) Don’t fear the grepper! (1). Retrieved from https://www.scien.cx/2022/10/12/dont-fear-the-grepper-1/
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