I'm learning Haskell and I came across this example in relation to list comprehensions:
[x | xs <- [[(3,4)],[(5,4),(3,2)]], (3,x) <- xs]
The answer given is:
[4,2]
.
Why isn't the answer [(3,4),(3,2)]
?
I'm learning Haskell and I came across this example in relation to list comprehensions:
[x | xs <- [[(3,4)],[(5,4),(3,2)]], (3,x) <- xs]
The answer given is:
[4,2]
.
Why isn't the answer [(3,4),(3,2)]
?
Matching (3,x)
against (3,4)
gives x = 4
. If you wanted (3,4)
, you should write [(3,x) | ...]
.
(3,4)
. I just want an explanation for how the comprehension is processed. The text of the book I'm using does not provide any explanation for the given example.
Commented
Jul 2 at 19:14
x
to be (3,4)
in the first place?
Commented
Jul 2 at 19:18
(3,x) <- xs
is a little new to me though.
Commented
Jul 2 at 19:18
<-
is always a pattern match; in the case of xs <- ...
, xs
is an irrefutable pattern that simply assigns a value from the right-hand side to x
. (3, x)
is a refutable pattern: not all values are 2-tuples with 3
and another value, but the ones that are have the other value assigned to x
. (This is exactly the same kind of pattern matching used in function defintions, like f (3, x) = x
, for example, causes f (3, 5) == 5
.)
pat <- list
, the elements of list
are matched against pattern pat
. Those that do not match are silently discarded. Those that match define the values of variables in pat
. So (3,x) <- xs
means "for all the elements of xs
which are of the form (3,x)
(for some x
), ...". Note how x
is bound to the second component of the pair, not to the whole pair.
Why isn't the answer
[(3,4),(3,2)]
?
The list comprehension:
[x | xs <- [[(3,4)],[(5,4),(3,2)]], (3,x) <- xs]
means that xs
will be "assigned" every element of the list [[(3, 4)], [(5, 4), (3, 2)]]
, so it means in the first "iteration" xs
is [(3,4)]
and in the second it is [(5, 4), (3, 2)]
.
Then the same trick happens to the (3, x) <- xs
part: it will enumerate over the items in xs
, and try to match it with (3, x)
, so first the first "candidate" is (3, 4)
, and that matches, so x = 4
will yield a result; next there is (5, 4)
, but this does not work because the first item of the 2-tuple is 5
, not 3
. And finally an attempt is made with (3, 2)
, so then x
is given x = 2
.
The result of this is thus that we get a list with 4
and 2
, so [4, 2]
.