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# Quicksort in DrScheme [closed]

I'm currently in the processes of learning functional languages such as Lisp and DrScheme, but I've been asked to write a variance of the Quicksort algorithm in DrScheme. However, I'm a bit clueless as where to start.

Could someone give me some pointers as which functions and datatypes to use? I obviously know lists, car, cdr, and append are going to play a huge part into what to do.

By, the way, I'm only really looking for general idea to launch off from. I don't necessarily want the full answer. Kind of ruins the adventure and fun of it!

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## closed as not constructive by Gene T, Aziz Shaikh, Shree, Stephane Rolland, MaerlynNov 20 '12 at 10:43

As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, visit the help center for guidance.If this question can be reworded to fit the rules in the help center, please edit the question.

how did you try to do it so far ? – alinsoar Nov 16 '12 at 2:15

Quicksort is one of the simplest sorting algorithms to be implemented in a functional style. Use this pseudocode as an starting point for sorting in ascending order a list of numbers, noticing that the only data structure that you need is a standard Lisp list:

``````quicksort(lst)
if lst is empty
return empty list
return quicksort([all the elements < first element in lst])
+ [first element in lst] +
quicksort([all the elements >= first element in lst])
``````

The "tricky" part, getting all the elements less than (or all the elements greater than or equal to) the first element in the list, can be easily expressed in terms of the `filter` procedure. If you're not allowed to use it, it's easy enough to implement its basic functionality from scratch.

Also notice that the `+` operators in my pseudocode denote an `append` of three lists: the list of elements less than the first element in the list, the singleton list with the first element in the list (the pivot) and the list of elements greater than or equal to the first element in the list.

In a real-world implementation of Quicksort, much more care would be taken in picking an appropriate pivot element, but for this simple example is enough to take the first element.

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