If I do this:

(eval (let [f (fn [& _] 10)]
    `(~f nil)))

It returns 10 as expected.

Although if I do this:

(eval (let [f (constantly 10)]
    `(~f nil)))

It throws an exception:

IllegalArgumentException No matching ctor found for 
  class clojure.core$constantly$fn__... clojure.lang.Reflector.invokeConstructor 

Since both are equivalent why is the code with constantly not working?

  • 1
    Plausibly related to stackoverflow.com/q/23542241.
    – A. Webb
    Commented May 9, 2014 at 20:43
  • If anything I would say the second behavior is the 'expected' one. The form you're trying to eval has an actual function object as its head, not a symbol or another expression: the compiler doesn't normally expect that. Note that the class of the anonymous function is going to be something like user$eval141$f__x while the second one is going to be an instance of clojure.core$constantly$fn__x which explains the difference but I'm not sure which behavior is to be expected
    – jgriego
    Commented May 9, 2014 at 22:10
  • possible duplicate of Inconsistency in Clojure: functions in macros and IllegalArgumentException
    – amalloy
    Commented May 10, 2014 at 1:15

1 Answer 1


This question has two answers, to really get it.

First, to clarify why your eval form is not giving you the expected result in the second case, note that f has been assigned to be equal to the function (fn [& _] 10). This means when that form is evaluated, the function object is again evaluated--probably not what you had in mind.

tl;dr: f is evaluted when it is bound, and again (with ill-defined results) when the form you create is eval'd.

The reason why one (the anonymous function) works, while the other fails means we have to look at some of the internals of the evaluation process.

When Clojure evaluates an object expression (like the expression formed by a function object), it uses the following method, in clojure.lang.Compiler$ObjExpr

    public Object eval() {
        return null;
        return getCompiledClass().newInstance();
    catch(Exception e)
        throw Util.sneakyThrow(e);

Try this at the REPL:

Start with an anonymous function:

user=> (fn [& _] 10)
#<user$eval141$fn__142 user$eval141$fn__142@2b2a5dd1>

user=> (.getClass *1)

user=> (.newInstance *1)
#<user$eval141$fn__142 user$eval141$fn__142@ee7a10e> ; different instance

user=> (*1)

Note that newInstance on Class calls that class' nullary constructor -- one that takes no arguments.

Now try a function that closes over some values

user=> (let [x 10] #(+ x 1))
#<user$eval151$fn__152 user$eval151$fn__152@3a565388>

user=> (.getClass *1)

user=> (.newInstance *1)
InstantiationException user$eval151$fn__152 [...]

Since the upvalues of a closure are set at construction, this kind of function class has no nullary constructor, and making a new one with no context fails.

Finally, look at the source of constantly

user=> (source constantly)
(defn constantly
  "Returns a function that takes any number of arguments and returns x."
  {:added "1.0"
   :static true}
  [x] (fn [& args] x))

The function returned by constantly closes over x so the compiler won't be able to eval this kind of function.

tl;dr (again): Functions with no upvalues can be evaluated in this way and produce a new instance of the same function. Functions with upvalues can't be evaluated like this.

  • 1
    This is a well-written and thorough answer, but I've never heard of a function's closed-over variables referred to as "upvalues". Are there contexts/languages in which this usage is common? It looks like it might be a term popular in Lua.
    – amalloy
    Commented May 10, 2014 at 3:26
  • Yes, I see it most in the context of Lua; that's where I learned it anyways.
    – jgriego
    Commented May 10, 2014 at 4:40

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