I am a beginner to Haskell. I just wonder how to implement a function to remove the repeat element from an array. for example, [1,1,1,3,4,2,2,3], the result should be [1,3,4,2]. I don't want to use some exist functions like element and implement this by using recursion. My idea is to compare x:xs, if x is a repeat element then do the recursion, else rerun the function. Is that correct and how to implement this by code?
If you cannot assume any ordering between the elements (i.e. you don't know if it's an instance of
If your elements implement
Pretty interesting problem. We often need to do this sort of thing. =)
I didn't notice the result you gave is not in non-decreasing order. The above code will produce
You could take a look at the
Which is this code:
actually, I found a webpage which shows you a more efficient implementation than the one provided by Haskell: http://buffered.io/posts/a-better-nub/
You're on the right track: you're considering the head of a list (
Try to solve the first task first, and make sure that the function you wrote works on some testcases (try it out in GHCi or something until you're satisfied that it works).
For the second task it again helps immensely to try and observe how your brain procedes when you solve this problem manually.
There are many solutions to this problem, the desired one probably depends upon what your course has covered this far.
I'll observe that 'exists' functions often have logarithmic running time, depending upon the data structure used, and building the nicest data structures requires at worst 'n log n' time.
Don't worry if this sounds like gibberish. You'll learn about running time in an algorithms or complexity theory course. I'm only saying that a well designed exists functions works much faster than you realize.
As an aside, there is something called a hash function that lets you make more fine grained time-space trade offs for larger arrays, but that's beyond the scope of your current course.