Source: cvc3
Section: math
Priority: extra
Maintainer: Morgan Deters
Build-Depends: cdbs, debhelper (>= 7), autoconf, autotools-dev, bison, default-jdk, flex, libgmp-dev | libgmp3-dev, patchutils, python
Standards-Version: 3.9.5
Homepage: http://www.cs.nyu.edu/acsys/cvc3/
Package: cvc3
Architecture: any
Depends: ${shlibs:Depends}, ${misc:Depends}
Description: Automatic theorem prover for SMT problems
CVC3 is an automatic theorem prover for Satisfiability Modulo Theories
(SMT) problems. It can be used to prove the validity (or, dually, the
satisfiability) of first-order formulas in a large number of built-in
logical theories and their combination.
.
CVC3 is the last offspring of a series of popular SMT provers, which
originated at Stanford University with the SVC system. In particular,
it builds on the code base of CVC Lite, its most recent
predecessor. Its high level design follows that of the Sammy prover.
.
CVC3 works with a version of first-order logic with polymorphic types
and has a wide variety of features including:
.
* several built-in base theories: rational and integer linear
arithmetic, arrays, tuples, records, inductive data types, bit
vectors, and equality over uninterpreted function symbols;
* support for quantifiers;
* an interactive text-based interface;
* rich C, C++, and Java APIs for embedding in other systems;
* proof and model generation abilities;
* predicate subtyping;
* essentially no limit on its use for research or commercial
purposes (see license).
.
This package contains the CVC3 command line program.
Package: libcvc3-5
Section: libs
Architecture: any
Depends: ${shlibs:Depends}, ${misc:Depends}
Description: Automatic theorem prover library for SMT problems
CVC3 is an automatic theorem prover for Satisfiability Modulo Theories
(SMT) problems. It can be used to prove the validity (or, dually, the
satisfiability) of first-order formulas in a large number of built-in
logical theories and their combination.
.
CVC3 is the last offspring of a series of popular SMT provers, which
originated at Stanford University with the SVC system. In particular,
it builds on the code base of CVC Lite, its most recent
predecessor. Its high level design follows that of the Sammy prover.
.
CVC3 works with a version of first-order logic with polymorphic types
and has a wide variety of features including:
.
* several built-in base theories: rational and integer linear
arithmetic, arrays, tuples, records, inductive data types, bit
vectors, and equality over uninterpreted function symbols;
* support for quantifiers;
* an interactive text-based interface;
* rich C, C++, and Java APIs for embedding in other systems;
* proof and model generation abilities;
* predicate subtyping;
* essentially no limit on its use for research or commercial
purposes (see license).
.
This package contains the files necessary for running applications
that use the CVC3 library.
Package: libcvc3-dev
Section: libdevel
Architecture: any
Depends: ${shlibs:Depends}, ${misc:Depends}, libcvc3-5 (= ${binary:Version})
Replaces: libcvc3-5-dev, libcvc3-2-dev
Breaks: libcvc3-5-dev, libcvc3-2-dev
Description: Automatic theorem prover library for SMT problems (development files)
CVC3 is an automatic theorem prover for Satisfiability Modulo Theories
(SMT) problems. It can be used to prove the validity (or, dually, the
satisfiability) of first-order formulas in a large number of built-in
logical theories and their combination.
.
CVC3 is the last offspring of a series of popular SMT provers, which
originated at Stanford University with the SVC system. In particular,
it builds on the code base of CVC Lite, its most recent
predecessor. Its high level design follows that of the Sammy prover.
.
CVC3 works with a version of first-order logic with polymorphic types
and has a wide variety of features including:
.
* several built-in base theories: rational and integer linear
arithmetic, arrays, tuples, records, inductive data types, bit
vectors, and equality over uninterpreted function symbols;
* support for quantifiers;
* an interactive text-based interface;
* rich C, C++, and Java APIs for embedding in other systems;
* proof and model generation abilities;
* predicate subtyping;
* essentially no limit on its use for research or commercial
purposes (see license).
.
This package contains the files necessary for building applications
that use the CVC3 library.
Package: libcvc3-5-java
Section: java
Architecture: all
Depends: ${shlibs:Depends}, ${misc:Depends}, libcvc3-5-jni (>= ${source:Version})
Description: Java bindings for CVC3 (bytecode library)
CVC3 is an automatic theorem prover for Satisfiability Modulo Theories
(SMT) problems. It can be used to prove the validity (or, dually, the
satisfiability) of first-order formulas in a large number of built-in
logical theories and their combination.
.
CVC3 is the last offspring of a series of popular SMT provers, which
originated at Stanford University with the SVC system. In particular,
it builds on the code base of CVC Lite, its most recent
predecessor. Its high level design follows that of the Sammy prover.
.
CVC3 works with a version of first-order logic with polymorphic types
and has a wide variety of features including:
.
* several built-in base theories: rational and integer linear
arithmetic, arrays, tuples, records, inductive data types, bit
vectors, and equality over uninterpreted function symbols;
* support for quantifiers;
* an interactive text-based interface;
* rich C, C++, and Java APIs for embedding in other systems;
* proof and model generation abilities;
* predicate subtyping;
* essentially no limit on its use for research or commercial
purposes (see license).
.
This package provides architecture-independent files of the Java
bindings for CVC3
Package: libcvc3-5-jni
Section: java
Architecture: any
Depends: ${shlibs:Depends}, ${misc:Depends}
Replaces: libcvc3-2-jni
Breaks: libcvc3-2-jni
Description: Java bindings for CVC3 (native library)
CVC3 is an automatic theorem prover for Satisfiability Modulo Theories
(SMT) problems. It can be used to prove the validity (or, dually, the
satisfiability) of first-order formulas in a large number of built-in
logical theories and their combination.
.
CVC3 is the last offspring of a series of popular SMT provers, which
originated at Stanford University with the SVC system. In particular,
it builds on the code base of CVC Lite, its most recent
predecessor. Its high level design follows that of the Sammy prover.
.
CVC3 works with a version of first-order logic with polymorphic types
and has a wide variety of features including:
.
* several built-in base theories: rational and integer linear
arithmetic, arrays, tuples, records, inductive data types, bit
vectors, and equality over uninterpreted function symbols;
* support for quantifiers;
* an interactive text-based interface;
* rich C, C++, and Java APIs for embedding in other systems;
* proof and model generation abilities;
* predicate subtyping;
* essentially no limit on its use for research or commercial
purposes (see license).
.
This package provides the native library needed for the Java bindings
for CVC3
Package: cvc3-el
Architecture: all
Depends: emacs | emacsen, ${misc:Depends}
Recommends: cvc3
Enhances: cvc3
Description: Emacs mode for CVC3
CVC3 is an automatic theorem prover for Satisfiability Modulo Theories
(SMT) problems. It can be used to prove the validity (or, dually, the
satisfiability) of first-order formulas in a large number of built-in
logical theories and their combination.
.
CVC3 is the last offspring of a series of popular SMT provers, which
originated at Stanford University with the SVC system. In particular,
it builds on the code base of CVC Lite, its most recent
predecessor. Its high level design follows that of the Sammy prover.
.
CVC3 works with a version of first-order logic with polymorphic types
and has a wide variety of features including:
.
* several built-in base theories: rational and integer linear
arithmetic, arrays, tuples, records, inductive data types, bit
vectors, and equality over uninterpreted function symbols;
* support for quantifiers;
* an interactive text-based interface;
* rich C, C++, and Java APIs for embedding in other systems;
* proof and model generation abilities;
* predicate subtyping;
* essentially no limit on its use for research or commercial
purposes (see license).
.
The package provides an Emacs major mode "cvc3-mode" with syntax
highlighting for the CVC3 input language and running CVC3 as an
inferior process.