cryptominisat-5.8.0/src/cryptominisat_c.cpp

/******************************************
Copyright (c) 2016, @Storyyeller

Permission is hereby granted, free of charge, to any person obtaining a copy
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The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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THE SOFTWARE.
***********************************************/

#include "cryptominisat5/cryptominisat_c.h"
#include "constants.h"
#include "cryptominisat5/cryptominisat.h"


// C wrappers for SATSolver so that it can be used from other languages (e.g. Rust)
using namespace CMSat;

// Make sure the types we expose are C compatible and don't change unexpectedly
static_assert(sizeof(Lit) == sizeof(c_Lit), "Lit layout not c-compatible");
static_assert(alignof(Lit) == alignof(c_Lit), "Lit layout not c-compatible");
static_assert(sizeof(lbool) == sizeof(c_lbool), "lbool layout not c-compatible");
static_assert(alignof(lbool) == alignof(c_lbool), "lbool layout not c-compatible");

const Lit* fromc(const c_Lit* x)
{
    return reinterpret_cast<const Lit*>(x);
}
const lbool* fromc(const c_lbool* x)
{
    return reinterpret_cast<const lbool*>(x);
}
const c_lbool* toc(const lbool* x)
{
    return reinterpret_cast<const c_lbool*>(x);
}
const c_Lit* toc(const Lit* x)
{
    return reinterpret_cast<const c_Lit*>(x);
}
c_lbool toc(lbool x)
{
    return {x.getValue()};
}

template<typename T>
std::vector<T> wrap(const T* vals, size_t num_vals)
{
    return std::vector<T>(vals, vals + num_vals);
}

template<typename Dest, typename T>
Dest unwrap(const std::vector<T>& vec)
{
    return Dest {toc(vec.data()), vec.size()};
}

#define NOEXCEPT_START noexcept { try {
#define NOEXCEPT_END } catch(...) { \
    std::cerr << "ERROR: exception thrown past FFI boundary" << std::endl;\
    std::exit(-1);\
} }

extern "C"
{

    DLL_PUBLIC SATSolver* cmsat_new(void) NOEXCEPT_START {
            return new SATSolver();
    } NOEXCEPT_END

    DLL_PUBLIC void cmsat_free(SATSolver* s) NOEXCEPT_START {
        delete s;
    } NOEXCEPT_END

    DLL_PUBLIC unsigned cmsat_nvars(const SATSolver* self) NOEXCEPT_START {
        return self->nVars();
    } NOEXCEPT_END

    DLL_PUBLIC bool cmsat_add_clause(SATSolver* self, const c_Lit* lits, size_t num_lits) NOEXCEPT_START {
        return self->add_clause(wrap(fromc(lits), num_lits));
    } NOEXCEPT_END

    DLL_PUBLIC bool cmsat_add_xor_clause(SATSolver* self, const unsigned* vars, size_t num_vars, bool rhs) NOEXCEPT_START {
        return self->add_xor_clause(wrap(vars, num_vars), rhs);
    } NOEXCEPT_END

    DLL_PUBLIC void cmsat_new_vars(SATSolver* self, const size_t n) NOEXCEPT_START {
        self->new_vars(n);
    } NOEXCEPT_END

    DLL_PUBLIC c_lbool cmsat_solve(SATSolver* self) NOEXCEPT_START {
        return toc(self->solve(nullptr));
    } NOEXCEPT_END

    DLL_PUBLIC c_lbool cmsat_solve_with_assumptions(SATSolver* self, const c_Lit* assumptions, size_t num_assumptions) NOEXCEPT_START {
        auto temp = wrap(fromc(assumptions), num_assumptions);
        return toc(self->solve(&temp));
    } NOEXCEPT_END

    DLL_PUBLIC slice_lbool cmsat_get_model(const SATSolver* self) NOEXCEPT_START {
        return unwrap<slice_lbool>(self->get_model());
    } NOEXCEPT_END

    DLL_PUBLIC slice_Lit cmsat_get_conflict(const SATSolver* self) NOEXCEPT_START {
        return unwrap<slice_Lit>(self->get_conflict());
    } NOEXCEPT_END

    DLL_PUBLIC void cmsat_print_stats(const SATSolver* self) NOEXCEPT_START {
        self->print_stats();
    } NOEXCEPT_END

    //Setup
    DLL_PUBLIC void cmsat_set_num_threads(SATSolver* self, unsigned n) NOEXCEPT_START {
        self->set_num_threads(n);
    } NOEXCEPT_END

    DLL_PUBLIC void cmsat_set_verbosity(SATSolver* self, unsigned n) NOEXCEPT_START {
        self->set_verbosity(n);
    } NOEXCEPT_END

    DLL_PUBLIC void cmsat_set_default_polarity(SATSolver* self, int polarity) NOEXCEPT_START {
        self->set_default_polarity(polarity);
    } NOEXCEPT_END

    DLL_PUBLIC void cmsat_set_no_simplify(SATSolver* self) NOEXCEPT_START {
        self->set_no_simplify();
    } NOEXCEPT_END

    DLL_PUBLIC void cmsat_set_no_simplify_at_startup(SATSolver* self)  NOEXCEPT_START {
        self->set_no_simplify_at_startup();
    } NOEXCEPT_END

    DLL_PUBLIC void cmsat_set_no_equivalent_lit_replacement(SATSolver* self)  NOEXCEPT_START {
        self->set_no_equivalent_lit_replacement();
    } NOEXCEPT_END

    DLL_PUBLIC void cmsat_set_no_bva(SATSolver* self)  NOEXCEPT_START {
        self->set_no_bva();
    } NOEXCEPT_END

    DLL_PUBLIC void cmsat_set_no_bve(SATSolver* self)  NOEXCEPT_START {
        self->set_no_bve();
    } NOEXCEPT_END

    DLL_PUBLIC void cmsat_set_yes_comphandler(SATSolver* self)  NOEXCEPT_START {
        self->set_yes_comphandler();
    } NOEXCEPT_END

    DLL_PUBLIC c_lbool cmsat_simplify(SATSolver* self, const c_Lit* assumptions, size_t num_assumptions) NOEXCEPT_START {
        auto temp = wrap(fromc(assumptions), num_assumptions);
        return toc(self->simplify(&temp));
    } NOEXCEPT_END

    DLL_PUBLIC void cmsat_set_max_time(SATSolver* self, double max_time) NOEXCEPT_START {
        self->set_max_time(max_time);
    } NOEXCEPT_END
}