The fact that Haskell's default
String implementation is not efficient both in terms of speed and memory is well known. As far as I know the
 lists in general are implemented in Haskell as singly-linked lists and for most small/simple data types (e.g.
Int) it doesn't seem like a very good idea, but for
String it seems like total overkill. Some of the opinions on this matter include:
On simple benchmarks like this, even programs written in interpreted languages such as Python can outperform Haskell code that uses String by an order of magnitude.
Since a String is just [Char], that is a linked list of Char, it means Strings have poor locality of reference, and again means that Strings are fairly large in memory, at a minimum it's N * (21bits + Mbits) where N is the length of the string and M is the size of a pointer (...). Strings are much less likely to be able to be optimized to loops, etc. by the compiler.
I know that Haskell has
Arrays) in several nice flavors and that they can do the job nicely, but I would expect the default implementation to be the most efficient one.
TL;DR: Why is Haskell's default
String implementation a singly-linked list even though it is terribly inefficient and rarely used for real world applications (except for the really simple ones)? Are there historical reasons? Is it easier to implement?