I was on the verge of saying "No, you can't do this" - because, intuitively, that feels a good answer... and I don't think you should waste your time trying to do this.
The problem is hard because, in general, the mechanism by which a pointer used with delete is established involves arbitrarily complex computation. If these computations exclusively used const functions (a new C++0x feature) - then - in principle... for a specific architecture where it is possible to determine at compile time if a pointer is in the range of valid values for an object on the heap... you could, in principle, achieve this. A possible approach would involve exploiting techniques similar to those used in the Boost library's implementation of BOOST_STATIC_ASSERT(). I don't recommend pursuing this.
What you really want to do, in my opinion, is to avoid 'naked pointers' entirely - and embrace smart pointers instead... The smart-pointer approach avoids potential bugs - such as the one above - by tightly associating allocation with destruction. This is a remarkably effective technique - but requires that you approach your problem from another perspective. Perhaps the standard unique_pointer and shared_pointer will do what you need... but there's nothing stopping you implementing a bespoke, templated, smart-pointer should different semantics be beneficial to your project.
These sort of bugs are runtime errors - the traditional approach to dealing with them involves unit-testing and runtime analysis using tools such as Valgrind, Purify or Boundschecker.