In this case, perhaps we can do something highly dynamic by using Racket's reflection system.
Let's say, for example, that we're making sure that a set of modules all provide a function
f that appears to be a monotonically increasing function. How might we write a framework of testing a collection of implementations with the same battery of tests?
We can write a harness that:
- constructs a module that
requires an implementing module in question, and
- runs the set of tests on it.
The code might look something like this:
(define (test-module-with-monotonic-f module-path-name)
(define ns (make-base-namespace))
(printf "testing ~s\n" module-path-name)
(eval `(begin (module a-test-module racket/base
(file ,(path->string module-path-name)))
(check-true (> (f 1) (f 0))
(format "~a fails to provide monotonic f" ,module-path-name))
(check-true (> (f 3) (f 2))
(format "~a fails to provide monotonic f" ,module-path-name)))
which does the construction of the testing module, and runs it using a dynamic
eval is usually considered evil, but in this particular situation, I think it's an appropriate tool.
Once we have this helper, we can run it on a collection of files, say in an
(for ([mod-name (in-directory "impls")]
#:when (equal? (filename-extension mod-name) #"rkt"))
You can try the complete running example (https://github.com/dyoo/monotonic-f-example) to see all the pieces.
(It should be clear that the tests above are woefully insufficient, by the way.)