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I would like to do design-by-contract and theorem proving of my C++ code. I'm still in the process of learning VCC, which seems to be exactly what I want, but unfortunately is for C only. VCC lets you annotate your C programs and then compile them into logic formulas that can be statically verified, without running the program.

  • Is anybody aware of a similar tool which is compatible with C++ code? (even a pipeline of tools)
  • If not, is there any trick to get VCC to work with C++?
  • If not, which is the best option to do design-by-contract in C++? (with no theorem proving)
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Depending on how deep you want to go, PREfast is an absolutely excellent tool for this. It's relatively smooth static analysis with inline annotations for basic contracts. It doesn't go into a lot of depth, although I have heard reference to a predecessor, PREfix, which is far more involved. If you want some good at-build SA, though, PREfast is a class above the other options, and integrates into most build systems (built into VS2008 and 2010, can run as a daemon, etc). –  ssube Feb 1 '12 at 0:22

5 Answers 5

up vote 5 down vote accepted

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 [EDIT: as of Jan 2015: C++14], 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 usable C++ 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.

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Ira, you've got a pretty good track record of only advertising your products where they actually meet the need. But this time I think you're trying to fit a square peg into a round hole, this comes across more as spam than an actual answer to damix911's question. –  Ben Voigt Feb 1 '12 at 0:26
@BenVoigt: Thanks for the feedback, and I agree this is a reach. I don't normally push this far, but OP asked for how to get close and I think my response is in the same vein as others ("nothing close to mature for this yet") and does fit the point of an engine such as DMS, which is to fill gaps in conventional tools. –  Ira Baxter Feb 1 '12 at 3:10
@damix911: Hi. If you feel as Ben does, say so here and I'll delete my response. –  Ira Baxter Feb 1 '12 at 3:22
You're right that it's as good a solution as any other thus far. It just feels like you're pushing your product. If you reorganized things to present the necessary steps first, then offered that your company makes a product that can help with step #1 (and maybe #2, depending on how you present it), I think I wouldn't have a negative feeling anymore. –  Ben Voigt Feb 1 '12 at 3:24
@BenVoigt: Rearranged. –  Ira Baxter Feb 3 '12 at 2:58

There exists an extremely preliminary C++ front-end to the C-only static analysis framework Frama-C. The C++ front-end translates a C++ program and contract annotations to a C program with corresponding annotations, and then lets you apply any Frama-C technique to verify the annotations (that would be one of the Jessie or Wp plug-ins if you are looking for something akin to VCC).

Frama-C itself is Open Source. The C++ front-end will never be released as Open Source in the state it currently is in, but the developers would welcome a pretext for spending more time working at it, and eventually making it good enough to release. The excuse could be a European collaborative project or any kind of direct partnership.

If you are looking for a finished product, then please disregard this answer (the C++ front-end for Frama-C is not that product).

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If this C++ front for Frama is being built from scratch, it is not likely to production quality for a long time. We spent 5 years getting our C++ front end up to speed. –  Ira Baxter Jan 26 '12 at 19:43
The C++ front-end in question uses Elsa as starting point (scottmcpeak.com/elkhound ) –  Pascal Cuoq Jan 26 '12 at 20:19
Elsa has a pretty good reputation for vanilla C++. I don't know where it is with respect to multiple dialects or C++11. –  Ira Baxter Jan 26 '12 at 20:55

VCC is being extended to handle (at least a reasonable fragment of) C++, but it will not be ready for some time yet. Support for various C++ features is likely to be added gradually as demanded by applications, so you might want to provide input at vcc.codeplex.com.

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How can you realistically do only a "fragment of C++" and end up with something useful for real applications? I've never had a customer who viewed my tool limitations as a reason to limit his use (or even abuse) of langauge features. –  Ira Baxter Feb 3 '12 at 16:11

I would argue that a good theorem proving tool for C++ doesn't exist... given that I haven't seen a decent implementation (read: practical for real world sized programs) available anywhere. Maybe VCC is different; but I'm skeptical. Anyway, if you can give up on the theorem proving then I have to agree with peachykeen that PREfast is the way to go on the design by contract front.

For examples of how you might add SAL annotations to an existing codebase, there was a session at BUILD which discussed this kind of thing at length. They're talking about Dev11 in that video because the pretty UI inside Visual Studio for doing this is being added in Dev11, but PREfast itself generates this kind of information already.

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MathWorks PolySpace is a code verifier for C++.

Haven't used it since the price is quite steep, but wanted to.

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Unless its developers have been very, very busy, PolySpace does not do "design-by-contract and theorem proving" in the fashion of VCC. PolySpace automatically propagates values forward and detects possible run-time errors. On the other hand, VCC and other deductive verification tools allow you to write a functional specification of what a piece of code is supposed to do ("find minimum element", not just "do not crash") and to verify the code does that. –  Pascal Cuoq Feb 1 '12 at 2:44
PS Again for C programs only unless you convince the developers they should provide you with the C++ front-end, there is a Frama-C plug-in that works on the same principles as PolySpace, and I hear from people who have a PolySpace license that for C programs, this plug-in can be much more precise that PolySpace. The plug-in is not either of the Jessie and Wp plug-ins I mention in my answer, it's another one. –  Pascal Cuoq Feb 1 '12 at 2:47
@Complicatedseebio: for (auto x : collection) if (x < minimum(collection)) ++*(char*)0; Either minimum is correct, or this theorem crashes ;) Well ok, you need another check that the return value from minimum exists in the collection, but you get the idea. –  Ben Voigt Feb 1 '12 at 2:47
PolySpace marks the memory access as "orange", meaning "perhaps dangerous". What do you do now? :) –  Pascal Cuoq Feb 1 '12 at 2:50
@Complicatedseebio: File an issue report with the developers, I suppose. –  Ben Voigt Feb 1 '12 at 2:51

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