A monoid is a set that is closed under an associative binary operation and has an identity element I ∈ Such that for all a ∈ S, Ia = aI = a. Note that unlike a group, its elements need not have inverses. It can also be thought of as a semigroup with an identity element.
Who first said A monad is just a monoid in the category of endofunctors, what's the problem? and on a less important note is this true and if so could you give an explanation (hopefully one ...
The standard-library Haskell typeclasses MonadPlus, Alternative, and Monoid each provide two methods with essentially the same semantics: An empty value: mzero, empty, or mempty. An operator a -> ...
The following does not work, for obvious reasons. (defprotocol Monoid (mappend [a b]) (mzero )) mzero has zero arguments, and zero argument methods are not allowed (or do not make sense) in ...
I've been going through Haskell monoids and their uses, which has given me a fairly good understanding of the basics of monoids. One of the things introduced in the blog post is the Any monoid, and ...
I am very new to both Monads and Monoids and recently also learned about MonadPlus. From what I see, Monoid and MonadPlus both provide a type with a associative binary operation and an identity. (I'd ...
This is the pseudocode for the radix sort: Pseudocode for Radix Sort: Radix-Sort(A, d) // Each key in A[1..n] is a d-digit integer. (Digits are // numbered 1 to d from right to left.) 1. for i = 1 to ...
This is the code for an insertion sort in Clojure: (defn in-sort! [data] (letfn [(insert ([raw x](insert  raw x)) ([sorted [y & raw] x] (if (nil? y) (conj sorted x) ...
Given the following pseudocode for the bubble-sort procedure bubbleSort( A : list of sortable items ) repeat swapped = false for i = 1 to length(A) - 1 inclusive do: /* if ...