RAPID is a software verification tool that takes a program together with a property as input and produces a first-order-encoding of correctness in SMTLIB syntax. This encoding can then be passed to an arbitrary first-order reasoning engine which supports SMTLIB, e.g. Vampire.
RAPID is focused on
- programs containing arrays
- functional properties, hyperproperties, possibly with quantifier alternations
- proving properties instead of disproving them (we don't try to find bugs)
RAPID is intended to be used as follows:
- Write your program in the supported while-language,
- Write the property you want to prove in the supported SMTLIB-syntax,
- Pass the file containing the program and the property to RAPID, which generates an SMTLIB-encoding.
- Pass the file containing the SMTLIB-encoding to Vampire
There are two steps involved in building RAPID.
First, we generate the source-code files for the RAPID-parser using Flex and Bison: Make sure you have these two tools installed and that the paths are properly set in parser_generator/Makefile. Then, while being in parser_generator, run make (which produces the necessary files in src/parser/). You might have to change the paths to flex and bison. (For Windows you can use win_flex/win_bison or Cygwin.)
Secondly, we use CMake to generate the necessary files which are needed while building RAPID. Make sure you have CMake installed.
Starting from the main directory, make a new folder (to do an out-of-source-build) and switch to it by running
$ mkdir build; cd build
The next step depends on your favourite build tool:
If you want to use make as build-tool, run
$ cmake ..
and build RAPID by running
$ make
If you want to use XCode as build-tool, run
$ cmake -G Xcode ..
and build RAPID from the generated XCode project (which will be generated in /build/)
For other build-tools like ninja, Visual Studio, Eclipse or Sublime2, consult the CMake documentation.
The programs must be given in a dedicated while-like language. We support integer- and integer-array-variables, the standard statements (assignments, if-else, while, skip) and assertions of the program (in SMTLIB-format).
See the example programs on the repository for more details.
Short answer: Vampire
Long answer: Any prover that supports SMTLIBv2.6-syntax can in principle be used to solve problems generated by Rapid. In practice the solver should have efficient support for quantifiers, in particular for quantifier-alternations. The encoding is optimized for superposition-based provers, and in particular for Vampire.