//===-- STPBuilder.h --------------------------------------------*- C++ -*-===// // // The KLEE Symbolic Virtual Machine // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #ifndef __UTIL_STPBUILDER_H__ #define __UTIL_STPBUILDER_H__ #include "klee/util/ExprHashMap.h" #include "klee/Config/config.h" #include #include #define Expr VCExpr #ifdef HAVE_EXT_STP #include #else #include "../../stp/c_interface/c_interface.h" #endif #if ENABLE_STPLOG == 1 #include "stp/stplog.h" #endif #undef Expr namespace klee { class ExprHolder { friend class ExprHandle; ::VCExpr expr; unsigned count; public: ExprHolder(const ::VCExpr _expr) : expr(_expr), count(0) {} ~ExprHolder() { if (expr) vc_DeleteExpr(expr); } }; class ExprHandle { ExprHolder *H; public: ExprHandle() : H(new ExprHolder(0)) { H->count++; } ExprHandle(::VCExpr _expr) : H(new ExprHolder(_expr)) { H->count++; } ExprHandle(const ExprHandle &b) : H(b.H) { H->count++; } ~ExprHandle() { if (--H->count == 0) delete H; } ExprHandle &operator=(const ExprHandle &b) { if (--H->count == 0) delete H; H = b.H; H->count++; return *this; } operator bool () { return H->expr; } operator ::VCExpr () { return H->expr; } }; class STPBuilder { ::VC vc; ExprHandle tempVars[4]; ExprHashMap< std::pair > constructed; /// optimizeDivides - Rewrite division and reminders by constants /// into multiplies and shifts. STP should probably handle this for /// use. bool optimizeDivides; private: unsigned getShiftBits(unsigned amount) { return (amount > 32) ? 6 : 5; } ExprHandle bvOne(unsigned width); ExprHandle bvZero(unsigned width); ExprHandle bvMinusOne(unsigned width); ExprHandle bvConst32(unsigned width, uint32_t value); ExprHandle bvConst64(unsigned width, uint64_t value); ExprHandle bvZExtConst(unsigned width, uint64_t value); ExprHandle bvSExtConst(unsigned width, uint64_t value); ExprHandle bvBoolExtract(ExprHandle expr, int bit); ExprHandle bvExtract(ExprHandle expr, unsigned top, unsigned bottom); ExprHandle eqExpr(ExprHandle a, ExprHandle b); //logical left and right shift (not arithmetic) ExprHandle bvLeftShift(ExprHandle expr, unsigned shift, unsigned shiftBits); ExprHandle bvRightShift(ExprHandle expr, unsigned amount, unsigned shiftBits); ExprHandle bvVarLeftShift(ExprHandle expr, ExprHandle amount, unsigned width); ExprHandle bvVarRightShift(ExprHandle expr, ExprHandle amount, unsigned width); ExprHandle bvVarArithRightShift(ExprHandle expr, ExprHandle amount, unsigned width); ExprHandle constructAShrByConstant(ExprHandle expr, unsigned shift, ExprHandle isSigned, unsigned shiftBits); ExprHandle constructMulByConstant(ExprHandle expr, unsigned width, uint64_t x); ExprHandle constructUDivByConstant(ExprHandle expr_n, unsigned width, uint64_t d); ExprHandle constructSDivByConstant(ExprHandle expr_n, unsigned width, uint64_t d); ::VCExpr getInitialArray(const Array *os); ::VCExpr getArrayForUpdate(const Array *root, const UpdateNode *un); ExprHandle constructActual(ref e, int *width_out); ExprHandle construct(ref e, int *width_out); ::VCExpr buildVar(const char *name, unsigned width); ::VCExpr buildArray(const char *name, unsigned indexWidth, unsigned valueWidth); public: STPBuilder(::VC _vc, bool _optimizeDivides=true); ~STPBuilder(); ExprHandle getTrue(); ExprHandle getFalse(); ExprHandle getTempVar(Expr::Width w); ExprHandle getInitialRead(const Array *os, unsigned index); ExprHandle construct(ref e) { ExprHandle res = construct(e, 0); constructed.clear(); return res; } }; } #endif