When I compile the Mercury code below, I get this error from the compiler:
In clause for `main(di, uo)': in argument 1 of call to predicate `test_with_anonymous_functions.assert_equals'/5: mode error: variable `V_15' has instantiatedness `/* unique */((func) = (free >> ground) is semidet)', expected instantiatedness was `((func) = (free >> ground) is det)'.
I think what the compiler is saying is "When you declared the type
test_case, you didn't specify a determinism, so I assumed you meant
det. But then you passed in a
- What's the syntax for declaring the determinism of a type? The guesses I've tried have all resulted in syntax errors.
- Can someone explain what the
/* unique */part of
TestCase's instantiatedness means? Will that cause a mismatch, between the given & expected instantiatedness?
- Is there a less verbose way of declaring the lambda in
main? I have as much declaration about the lambda as I do code inside the lambda.
% (Boilerplate statements at the top are omitted.) % Return the nth item of a list :- func nth(list(T), int) = T. :- mode nth(in, in) = out is semidet. nth([Hd | Tl], N) = (if N = 0 then Hd else nth(Tl, N - 1)). % Unit testing: Execute TestCase to get the % actual value. Print a message if (a) the lambda fails % or (b) the actual value isn't the expected value. :- type test_case(T) == ((func) = T). :- pred assert_equals(test_case(T), T, string, io.state, io.state). :- mode assert_equals(in, in, in, di, uo) is det. assert_equals(TestCase, Expected, Message, !IO) :- if Actual = apply(TestCase), Actual = Expected then true % test passed. do nothing. else io.format("Fail:\t%s\n", [s(Message)], !IO). main(!IO) :- List = [1, 2, 3, 4], assert_equals( ((func) = (nth(List, 0)::out) is semidet), 1, "Nth", !IO).