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Two following examples of using a function in a macro result in evaluations without errors.

(defmacro works []
  (let [f (fn [] 1)]
;; => 1

(defn my-nullary-fn []
  (fn [] 2))
(defmacro also-works []
  (let [f (my-nullary-fn)]
;; => 2


(defmacro does-not-work []
  (let [f (constantly 3)]


java.lang.IllegalArgumentException: No matching ctor found
for class clojure.core$constantly$fn__4051 


(defn my-unary-fn [x]
  (fn [] x))
(defmacro also-does-not-work []
  (let [f (my-unary-fn 4)]


java.lang.IllegalArgumentException No matching ctor found
for class user$my_other_fn$fn__12802

What might be the reason? Is there a difference between function objects returned by fn, my-nullary-fn, constantly and my-unary-fn?

I'm running Clojure 1.5.1.

CLJ-946 might be related.

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Why do you need to insert a compiled function object into the parse tree? Why not just "(let [f '(constantly 3)'] ... )"? –  Rafał Dowgird Oct 17 '13 at 13:52
@RafałDowgird I don't need to. What you suggest would surely work. My goal however is to determine what is the difference between examples I demonstrated and how are they evaluated under the hood. Thanks for the comment! –  Jan Oct 17 '13 at 14:05

2 Answers 2

up vote 3 down vote accepted

Take a look at clojure.lang.Compiler.ObjExpr#emitValue(). Any instance objects which appear directly in code (or generated code, in the case of macro-expansion results) must either:

  • Be of a type compiler knows how to instantiate or emit a reference to; or
  • Have print-dup defined for their type, in which case the compiler emits object instantiation via round-tripping through the reader.

Function objects do have a print-dup implementation, but it constructs read-eval forms which only call the 0-argument version of the function class constructor:

(print-dup (fn [] 1) *out*)
;; #=(user$eval24491$fn__24492. )
(let [x 1] (print-dup (fn [] x) *out*))
;; #=(user$eval24497$fn__24498. )

Clojure closures are implemented via function-classes which accept their closed-over variable values as constructor arguments. Hence:

(let [f (fn [] 1)] (eval `(~f)))
;; 1
(let [x 1, f (fn [] x)] (eval `(~f)))
;; IllegalArgumentException No matching ctor found ...

So now you know, and know why to avoid directly inserting function objects into generated code, even when it "works."

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See this example that does also throw the exception:

(defmacro does-also-not-work []
  (let [x 4
        f (fn [] x)]

Just like the result of constantly, but unlike your first two examples, f here is a closure. Apparently, closures created during macro-expansion time do not persist.

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