Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm really curious to see why vector's implementation is so verbose? What's the reason it can't just do [], [a] and [a & args]?

Here is what I get from clj-1.4.0.

=> (source vector)
(defn vector
  "Creates a new vector containing the args."
  {:added "1.0"
   :static true}
  ([] [])
  ([a] [a])
  ([a b] [a b])
  ([a b c] [a b c])
  ([a b c d] [a b c d])
  ([a b c d & args]
     (. clojure.lang.LazilyPersistentVector (create (cons a (cons b (cons c (cons d args))))))))
nil
share|improve this question
6  

2 Answers 2

The first few cases have direct calls to make them faster because they are the most commonly called. The rare cases where it is called with many arguments may require more calls and hence more time, but this keeps the common cases concise. It was a deliberate speed, verbosity tradeoff. It also makes the use of the function clear from looking at the argument list without cluttering people's IDEs with a huge list of arities.

Most of Clojure's core functions have similar signatures.

share|improve this answer

Further to @ArthurUlfeldt's solution.

There is a case for having reference implementations for the core functions, say in namespace clojure.core.reference. These would be shorter, hence clearer, though slower than their standard counterparts. The testing regime would make sure that they produced the same results.

For example, the reference implementation for vector could be

(ns clojure.core.reference)

(defn vector
  "Creates a new vector containing the args."
  {:added "1.0"
   :static true}
  [& args]
  (. clojure.lang.LazilyPersistentVector (create args)))

In addition to testing the various optimisations and speed-ups employed by the core library, the reference implementations would be first port of call for those trying to understand what the code does.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.