The important thing to realize is that per [temp.constr.constr], atomic constraints are composed only via conjunctions (through top-level
&&) and disjunctions (through top-level
||). Negation must be thought of as part of a constraint, not the negation of a constraint. There's even a non-normative note pointing this out explicitly.
With that in mind, we can examine the two cases.
C is a disjunction of two atomic constraints:
T::b. Per /3, disjunctions employ short-circuiting behaviour when checking for satisfaction. This means that
T::a is checked first. Since it succeeds, the entire constraint
C is satisfied without ever checking the second.
D, on the other hand, is one atomic constraint:
!!(T::a || T::b). The
|| does not create a disjunction in any way, it's simply part of the expression. We look to [temp.constr.atomic]/3 to see that template parameters are substituted in. This means that both
T::b have substitution performed. This paragraph also states that if substitution fails, the constraint is not satisfied. As the earlier note suggests, the negations out front are not even considered yet. In fact, having only one negation yields the same result.
Now the obvious question is why concepts were designed this way. Unfortunately, I don't remember coming across any reasoning for it in the designer's conference talks and other communications. The best I've been able to find was this bit from the original proposal:
While negation has turned out to be fairly common in our constraints (see Section 5.3), we have not found it necessary to assign deeper semantics to the operator.
In my opinion, this is probably really underselling the thought that was put into the decision. I'd love to see the designer elaborate on this, as I'm confident he has more to say than this small quotation.