To satisy OP's request for DBC in C++ without theorem proving, this StackExchange link discusses an essentially trivial approach to include a assertion style of contracts in any programming language without further extension, but this trick at best buys you runtime checking of facts available at the moment of execution. This gets you DBC in C++ at the price of simply insisting on it. (Note my response in that thread about lazy programmers being the obstacle to this kind of DBC, not the actual syntax).
To go beyond this, you need a fair amount of machinery that can introspect into C++ well.
First you need a full C++ front end that can parse and determine scopes and types of all the names, and determine various control and data flows of the code.
Then you need a way to write contracts, using some kind of formal annotation system
that can refer to programming language entities, and make some class of claims about their relationships.
A really good system would allow one to express contracts with temporal/modal conditions ("eventually storage allocated by this module is freed by somebody else").
The machinery would need to let you extract the formal assertions and the facts about the program that the scopes/types/information flow imply, and generate theorems to check with some kind of backreference to the code point for which the assertion is relevant. Somewhere there has to be a theorem prover or model checker to verify the assertions.
One reason you don't see such systems lying around is simply the amount of well-integrated machinery you need to implement it.
A good start might be found in our DMS Software Reengineering Toolkit is a general purpose program analysis and transformation tool, which has a full C++ Front End, capable of parsing a wide variety of C++ dialects including the recent C++11 standard, and computes symbol tables and Control Flow. [We're working on computing data flows; DMS itself has generalized data flow analysis machinery but it takes some effort to connect that to the C++ language information extracted from a source code. We've already done this for C.].
DMS accepts a wide variety of language definitions and can process these simultaneously, e.g, with C++. Some not documented at the site but do exist for DMS are Alternating Time Logic (ATL), in which one could code such modal statements, and Common Logic Interchange Format (CLIF), an interchange format for predicate formulas.
After parsing the C++ code, one could configure DMS to parse specially marked code comments (which are captured by the DMS C++ parser) as contracts stated in ATL, using C++ name resolution rules (built into the C++ front end) to look up identifiers the ATL formulas, convert the resulting statements and any other control and data facts into CLIF, and export those to some theorem prover for checking. Alas, DMS does not provide any interesting support for theorem proving.
Yes, a long way from a usableC++ based system for Design-by-contracts system with theorem proving... "some assembly required". But a practical path IMHO, for which I see very few realistic alternatives.