New in version 0.10.0.

defn lets you arity-overload a function by the given number of args and/or kwargs. This version of defn works with regular syntax and with the arity overloaded one. Inspired by Clojures take on defn.

=> (require [hy.contrib.multi [defn]])
=> (defn fun
...  ([a] "a")
...  ([a b] "a b")
...  ([a b c] "a b c"))

=> (fun 1)
=> (fun 1 2)
"a b"
=> (fun 1 2 3)
"a b c"

=> (defn add [a b]
...  (+ a b))
=> (add 1 2)


New in version 0.12.0.

defmulti, defmethod and default-method lets you define multimethods where a dispatching function is used to select between different implementations of the function. Inspired by Clojure’s multimethod and based on the code by Adam Bard.

=> (require [hy.contrib.multi [defmulti defmethod default-method]])
=> (defmulti area [shape]
...  "calculate area of a shape"
...  (:type shape))

=> (defmethod area "square" [square]
...  (* (:width square)
...     (:height square)))

=> (defmethod area "circle" [circle]
...  (* (** (:radius circle) 2)
...     3.14))

=> (default-method area [shape]
...  0)

=> (area {:type "circle" :radius 0.5})

=> (area {:type "square" :width 2 :height 2})

=> (area {:type "non-euclid rhomboid"})

defmulti is used to define the initial multimethod with name, signature and code that selects between different implementations. In the example, multimethod expects a single input that is type of dictionary and contains at least key :type. The value that corresponds to this key is returned and is used to selected between different implementations.

defmethod defines a possible implementation for multimethod. It works otherwise in the same way as defn, but has an extra parameters for specifying multimethod and which calls are routed to this specific implementation. In the example, shapes with “square” as :type are routed to first function and shapes with “circle” as :type are routed to second function.

default-method specifies default implementation for multimethod that is called when no other implementation matches.

Interfaces of multimethod and different implementation don’t have to be exactly identical, as long as they’re compatible enough. In practice this means that multimethod should accept the broadest range of parameters and different implementations can narrow them down.

=> (require [hy.contrib.multi [defmulti defmethod]])
=> (defmulti fun [&rest args]
...  (len args))

=> (defmethod fun 1 [a]
...  a)

=> (defmethod fun 2 [a b]
...  (+ a b))

=> (fun 1)

=> (fun 1 2)