How do I programmatically figure out which Vars may affect the results of a function defined in Clojure?

Consider this definition of a Clojure function:

(def ^:dynamic *increment* 3)
(defn f [x]
  (+ x *increment*))

This is a function of x, but also of *increment* (and also of clojure.core/+(1); but I'm less concerned with that). When writing tests for this function, I want to make sure that I control all relevant inputs, so I do something like this:

(assert (= (binding [*increment* 3] (f 1)) 4))
(assert (= (binding [*increment* -1] (f 1)) 0))

(Imagine that *increment* is a configuration value that someone might reasonably change; I don't want this function's tests to need changing when this happens.)

My question is: how do I write an assertion that the value of (f 1) can depend on *increment* but not on any other Var? Because I expect that one day someone will refactor some code and cause the function to be

(defn f [x]
  (+ x *increment* *additional-increment*))

and neglect to update the test, and I would like to have the test fail even if *additional-increment* is zero.

This is of course a simplified example – in a large system, there can be lots of dynamic Vars, and they can get referenced through a long chain of function calls. The solution needs to work even if f calls g which calls h which references a Var. It would be great if it didn't claim that (with-out-str (prn "foo")) depends on *out*, but this is less important. If the code being analyzed calls eval or uses Java interop, of course all bets are off.

I can think of three categories of solutions:

  1. Get the information from the compiler

    I imagine the compiler does scan function definitions for the necessary information, because if I try to refer to a nonexistent Var, it throws:

    user=> (defn g [x] (if true x (+ *foobar* x)))
    CompilerException java.lang.RuntimeException: Unable to resolve symbol: *foobar* in this context, compiling:(NO_SOURCE_PATH:24) 

    Note that this happens at compile time, and regardless of whether the offending code will ever be executed. Thus the compiler should know what Vars are potentially referenced by the function, and I would like to have access to that information.

  2. Parse the source code and walk the syntax tree, and record when a Var is referenced

    Because code is data and all that. I suppose this means calling macroexpand and handling each Clojure primitive and every kind of syntax they take. This looks so much like a compilation phase that it would be great to be able to call parts of the compiler, or somehow add my own hooks to the compiler.

  3. Instrument the Var mechanism, execute the test and see which Vars get accessed

    Not as complete as the other methods (what if a Var is used in a branch of the code that my test fails to exercise?) but this would suffice. I imagine I would need to redefine def to produce something that acts like a Var but records its accesses somehow.

(1) Actually that particular function doesn't change if you rebind +; but in Clojure 1.2 you can bypass that optimization by making it (defn f [x] (+ x 0 *increment*)) and then you can have fun with (binding [+ -] (f 3)). In Clojure 1.3 attempting to rebind + throws an error.


Regarding your first point you could consider using the analyze library. With it you can quite easily figure out which dynamic vars are used in an expression:

user> (def ^:dynamic *increment* 3)
user> (def src '(defn f [x]
                  (+ x *increment*)))
user> (def env {:ns {:name 'user} :context :eval})
user> (->> (analyze-one env src) 
           (filter (op= :var)) 
           (map :var) 
           (filter (comp :dynamic meta)) 
  • That looks useful, I'll take a look. I suppose if it can do that it should be fairly easy to walk the tree of function calls to gather dynamic references from called functions? – Jouni K. Seppänen Feb 27 '12 at 21:43
  • I think that's possible. You'll have to find the source that defines the Var and analyze that. I've got my own fork which I'm currently playing with so I'd be interested to know how this works out for you. An experience report would be very welcome :). There are issues with the library that might or might not turn out to be problems. One is that it's tied to the 1.3 compiler and probably won't work for any other version of Clojure. – Jonas Feb 28 '12 at 10:13

I know that this doesn't answer your question, but wouldn't it be a lot less work to just provide two versions of a function where one version has no free variables, and the other version calls the first one with the appropriate top-level defines?

For example:

(def ^:dynamic *increment* 3)
(defn f
     (f x *increment*))
  ([x y]
     (+ x y)))

This way you can write all your tests against (f x y), which doesn't rely on any global state.

  • Yes, or have unit-testable pure functions in one layer of the architecture, and build a (hopefully small) layer on top of that to connect the pure functions together and supply the global values to them. My question is more about how to check that the globals don't sneak in accidentally. – Jouni K. Seppänen Feb 27 '12 at 21:33

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