| //== Z3Solver.cpp -----------------------------------------------*- C++ -*--==// |
| // |
| // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. |
| // See https://llvm.org/LICENSE.txt for license information. |
| // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception |
| // |
| //===----------------------------------------------------------------------===// |
| |
| #include "llvm/ADT/SmallString.h" |
| #include "llvm/ADT/Twine.h" |
| #include "llvm/Config/config.h" |
| #include "llvm/Support/SMTAPI.h" |
| #include <set> |
| |
| using namespace llvm; |
| |
| #if LLVM_WITH_Z3 |
| |
| #include <z3.h> |
| |
| namespace { |
| |
| /// Configuration class for Z3 |
| class Z3Config { |
| friend class Z3Context; |
| |
| Z3_config Config; |
| |
| public: |
| Z3Config() : Config(Z3_mk_config()) { |
| // Enable model finding |
| Z3_set_param_value(Config, "model", "true"); |
| // Disable proof generation |
| Z3_set_param_value(Config, "proof", "false"); |
| // Set timeout to 15000ms = 15s |
| Z3_set_param_value(Config, "timeout", "15000"); |
| } |
| |
| ~Z3Config() { Z3_del_config(Config); } |
| }; // end class Z3Config |
| |
| // Function used to report errors |
| void Z3ErrorHandler(Z3_context Context, Z3_error_code Error) { |
| llvm::report_fatal_error("Z3 error: " + |
| llvm::Twine(Z3_get_error_msg(Context, Error))); |
| } |
| |
| /// Wrapper for Z3 context |
| class Z3Context { |
| public: |
| Z3_context Context; |
| |
| Z3Context() { |
| Context = Z3_mk_context_rc(Z3Config().Config); |
| // The error function is set here because the context is the first object |
| // created by the backend |
| Z3_set_error_handler(Context, Z3ErrorHandler); |
| } |
| |
| virtual ~Z3Context() { |
| Z3_del_context(Context); |
| Context = nullptr; |
| } |
| }; // end class Z3Context |
| |
| /// Wrapper for Z3 Sort |
| class Z3Sort : public SMTSort { |
| friend class Z3Solver; |
| |
| Z3Context &Context; |
| |
| Z3_sort Sort; |
| |
| public: |
| /// Default constructor, mainly used by make_shared |
| Z3Sort(Z3Context &C, Z3_sort ZS) : Context(C), Sort(ZS) { |
| Z3_inc_ref(Context.Context, reinterpret_cast<Z3_ast>(Sort)); |
| } |
| |
| /// Override implicit copy constructor for correct reference counting. |
| Z3Sort(const Z3Sort &Other) : Context(Other.Context), Sort(Other.Sort) { |
| Z3_inc_ref(Context.Context, reinterpret_cast<Z3_ast>(Sort)); |
| } |
| |
| /// Override implicit copy assignment constructor for correct reference |
| /// counting. |
| Z3Sort &operator=(const Z3Sort &Other) { |
| Z3_inc_ref(Context.Context, reinterpret_cast<Z3_ast>(Other.Sort)); |
| Z3_dec_ref(Context.Context, reinterpret_cast<Z3_ast>(Sort)); |
| Sort = Other.Sort; |
| return *this; |
| } |
| |
| Z3Sort(Z3Sort &&Other) = delete; |
| Z3Sort &operator=(Z3Sort &&Other) = delete; |
| |
| ~Z3Sort() { |
| if (Sort) |
| Z3_dec_ref(Context.Context, reinterpret_cast<Z3_ast>(Sort)); |
| } |
| |
| void Profile(llvm::FoldingSetNodeID &ID) const override { |
| ID.AddInteger( |
| Z3_get_ast_id(Context.Context, reinterpret_cast<Z3_ast>(Sort))); |
| } |
| |
| bool isBitvectorSortImpl() const override { |
| return (Z3_get_sort_kind(Context.Context, Sort) == Z3_BV_SORT); |
| } |
| |
| bool isFloatSortImpl() const override { |
| return (Z3_get_sort_kind(Context.Context, Sort) == Z3_FLOATING_POINT_SORT); |
| } |
| |
| bool isBooleanSortImpl() const override { |
| return (Z3_get_sort_kind(Context.Context, Sort) == Z3_BOOL_SORT); |
| } |
| |
| unsigned getBitvectorSortSizeImpl() const override { |
| return Z3_get_bv_sort_size(Context.Context, Sort); |
| } |
| |
| unsigned getFloatSortSizeImpl() const override { |
| return Z3_fpa_get_ebits(Context.Context, Sort) + |
| Z3_fpa_get_sbits(Context.Context, Sort); |
| } |
| |
| bool equal_to(SMTSort const &Other) const override { |
| return Z3_is_eq_sort(Context.Context, Sort, |
| static_cast<const Z3Sort &>(Other).Sort); |
| } |
| |
| void print(raw_ostream &OS) const override { |
| OS << Z3_sort_to_string(Context.Context, Sort); |
| } |
| }; // end class Z3Sort |
| |
| static const Z3Sort &toZ3Sort(const SMTSort &S) { |
| return static_cast<const Z3Sort &>(S); |
| } |
| |
| class Z3Expr : public SMTExpr { |
| friend class Z3Solver; |
| |
| Z3Context &Context; |
| |
| Z3_ast AST; |
| |
| public: |
| Z3Expr(Z3Context &C, Z3_ast ZA) : SMTExpr(), Context(C), AST(ZA) { |
| Z3_inc_ref(Context.Context, AST); |
| } |
| |
| /// Override implicit copy constructor for correct reference counting. |
| Z3Expr(const Z3Expr &Copy) : SMTExpr(), Context(Copy.Context), AST(Copy.AST) { |
| Z3_inc_ref(Context.Context, AST); |
| } |
| |
| /// Override implicit copy assignment constructor for correct reference |
| /// counting. |
| Z3Expr &operator=(const Z3Expr &Other) { |
| Z3_inc_ref(Context.Context, Other.AST); |
| Z3_dec_ref(Context.Context, AST); |
| AST = Other.AST; |
| return *this; |
| } |
| |
| Z3Expr(Z3Expr &&Other) = delete; |
| Z3Expr &operator=(Z3Expr &&Other) = delete; |
| |
| ~Z3Expr() { |
| if (AST) |
| Z3_dec_ref(Context.Context, AST); |
| } |
| |
| void Profile(llvm::FoldingSetNodeID &ID) const override { |
| ID.AddInteger(Z3_get_ast_id(Context.Context, AST)); |
| } |
| |
| /// Comparison of AST equality, not model equivalence. |
| bool equal_to(SMTExpr const &Other) const override { |
| assert(Z3_is_eq_sort(Context.Context, Z3_get_sort(Context.Context, AST), |
| Z3_get_sort(Context.Context, |
| static_cast<const Z3Expr &>(Other).AST)) && |
| "AST's must have the same sort"); |
| return Z3_is_eq_ast(Context.Context, AST, |
| static_cast<const Z3Expr &>(Other).AST); |
| } |
| |
| void print(raw_ostream &OS) const override { |
| OS << Z3_ast_to_string(Context.Context, AST); |
| } |
| }; // end class Z3Expr |
| |
| static const Z3Expr &toZ3Expr(const SMTExpr &E) { |
| return static_cast<const Z3Expr &>(E); |
| } |
| |
| class Z3Model { |
| friend class Z3Solver; |
| |
| Z3Context &Context; |
| |
| Z3_model Model; |
| |
| public: |
| Z3Model(Z3Context &C, Z3_model ZM) : Context(C), Model(ZM) { |
| Z3_model_inc_ref(Context.Context, Model); |
| } |
| |
| Z3Model(const Z3Model &Other) = delete; |
| Z3Model(Z3Model &&Other) = delete; |
| Z3Model &operator=(Z3Model &Other) = delete; |
| Z3Model &operator=(Z3Model &&Other) = delete; |
| |
| ~Z3Model() { |
| if (Model) |
| Z3_model_dec_ref(Context.Context, Model); |
| } |
| |
| void print(raw_ostream &OS) const { |
| OS << Z3_model_to_string(Context.Context, Model); |
| } |
| |
| LLVM_DUMP_METHOD void dump() const { print(llvm::errs()); } |
| }; // end class Z3Model |
| |
| /// Get the corresponding IEEE floating-point type for a given bitwidth. |
| static const llvm::fltSemantics &getFloatSemantics(unsigned BitWidth) { |
| switch (BitWidth) { |
| default: |
| llvm_unreachable("Unsupported floating-point semantics!"); |
| break; |
| case 16: |
| return llvm::APFloat::IEEEhalf(); |
| case 32: |
| return llvm::APFloat::IEEEsingle(); |
| case 64: |
| return llvm::APFloat::IEEEdouble(); |
| case 128: |
| return llvm::APFloat::IEEEquad(); |
| } |
| } |
| |
| // Determine whether two float semantics are equivalent |
| static bool areEquivalent(const llvm::fltSemantics &LHS, |
| const llvm::fltSemantics &RHS) { |
| return (llvm::APFloat::semanticsPrecision(LHS) == |
| llvm::APFloat::semanticsPrecision(RHS)) && |
| (llvm::APFloat::semanticsMinExponent(LHS) == |
| llvm::APFloat::semanticsMinExponent(RHS)) && |
| (llvm::APFloat::semanticsMaxExponent(LHS) == |
| llvm::APFloat::semanticsMaxExponent(RHS)) && |
| (llvm::APFloat::semanticsSizeInBits(LHS) == |
| llvm::APFloat::semanticsSizeInBits(RHS)); |
| } |
| |
| class Z3Solver : public SMTSolver { |
| friend class Z3ConstraintManager; |
| |
| Z3Context Context; |
| |
| Z3_solver Solver; |
| |
| // Cache Sorts |
| std::set<Z3Sort> CachedSorts; |
| |
| // Cache Exprs |
| std::set<Z3Expr> CachedExprs; |
| |
| public: |
| Z3Solver() : Solver(Z3_mk_simple_solver(Context.Context)) { |
| Z3_solver_inc_ref(Context.Context, Solver); |
| } |
| |
| Z3Solver(const Z3Solver &Other) = delete; |
| Z3Solver(Z3Solver &&Other) = delete; |
| Z3Solver &operator=(Z3Solver &Other) = delete; |
| Z3Solver &operator=(Z3Solver &&Other) = delete; |
| |
| ~Z3Solver() { |
| if (Solver) |
| Z3_solver_dec_ref(Context.Context, Solver); |
| } |
| |
| void addConstraint(const SMTExprRef &Exp) const override { |
| Z3_solver_assert(Context.Context, Solver, toZ3Expr(*Exp).AST); |
| } |
| |
| // Given an SMTSort, adds/retrives it from the cache and returns |
| // an SMTSortRef to the SMTSort in the cache |
| SMTSortRef newSortRef(const SMTSort &Sort) { |
| auto It = CachedSorts.insert(toZ3Sort(Sort)); |
| return &(*It.first); |
| } |
| |
| // Given an SMTExpr, adds/retrives it from the cache and returns |
| // an SMTExprRef to the SMTExpr in the cache |
| SMTExprRef newExprRef(const SMTExpr &Exp) { |
| auto It = CachedExprs.insert(toZ3Expr(Exp)); |
| return &(*It.first); |
| } |
| |
| SMTSortRef getBoolSort() override { |
| return newSortRef(Z3Sort(Context, Z3_mk_bool_sort(Context.Context))); |
| } |
| |
| SMTSortRef getBitvectorSort(unsigned BitWidth) override { |
| return newSortRef( |
| Z3Sort(Context, Z3_mk_bv_sort(Context.Context, BitWidth))); |
| } |
| |
| SMTSortRef getSort(const SMTExprRef &Exp) override { |
| return newSortRef( |
| Z3Sort(Context, Z3_get_sort(Context.Context, toZ3Expr(*Exp).AST))); |
| } |
| |
| SMTSortRef getFloat16Sort() override { |
| return newSortRef(Z3Sort(Context, Z3_mk_fpa_sort_16(Context.Context))); |
| } |
| |
| SMTSortRef getFloat32Sort() override { |
| return newSortRef(Z3Sort(Context, Z3_mk_fpa_sort_32(Context.Context))); |
| } |
| |
| SMTSortRef getFloat64Sort() override { |
| return newSortRef(Z3Sort(Context, Z3_mk_fpa_sort_64(Context.Context))); |
| } |
| |
| SMTSortRef getFloat128Sort() override { |
| return newSortRef(Z3Sort(Context, Z3_mk_fpa_sort_128(Context.Context))); |
| } |
| |
| SMTExprRef mkBVNeg(const SMTExprRef &Exp) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvneg(Context.Context, toZ3Expr(*Exp).AST))); |
| } |
| |
| SMTExprRef mkBVNot(const SMTExprRef &Exp) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvnot(Context.Context, toZ3Expr(*Exp).AST))); |
| } |
| |
| SMTExprRef mkNot(const SMTExprRef &Exp) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_not(Context.Context, toZ3Expr(*Exp).AST))); |
| } |
| |
| SMTExprRef mkBVAdd(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvadd(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVSub(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvsub(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVMul(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvmul(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVSRem(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvsrem(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVURem(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvurem(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVSDiv(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvsdiv(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVUDiv(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvudiv(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVShl(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvshl(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVAshr(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvashr(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVLshr(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvlshr(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVXor(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvxor(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVOr(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvor(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVAnd(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvand(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVUlt(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvult(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVSlt(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvslt(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVUgt(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvugt(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVSgt(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvsgt(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVUle(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvule(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVSle(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvsle(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVUge(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvuge(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVSge(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_bvsge(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkAnd(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| Z3_ast Args[2] = {toZ3Expr(*LHS).AST, toZ3Expr(*RHS).AST}; |
| return newExprRef(Z3Expr(Context, Z3_mk_and(Context.Context, 2, Args))); |
| } |
| |
| SMTExprRef mkOr(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| Z3_ast Args[2] = {toZ3Expr(*LHS).AST, toZ3Expr(*RHS).AST}; |
| return newExprRef(Z3Expr(Context, Z3_mk_or(Context.Context, 2, Args))); |
| } |
| |
| SMTExprRef mkEqual(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_eq(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkFPNeg(const SMTExprRef &Exp) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_fpa_neg(Context.Context, toZ3Expr(*Exp).AST))); |
| } |
| |
| SMTExprRef mkFPIsInfinite(const SMTExprRef &Exp) override { |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_fpa_is_infinite(Context.Context, toZ3Expr(*Exp).AST))); |
| } |
| |
| SMTExprRef mkFPIsNaN(const SMTExprRef &Exp) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_fpa_is_nan(Context.Context, toZ3Expr(*Exp).AST))); |
| } |
| |
| SMTExprRef mkFPIsNormal(const SMTExprRef &Exp) override { |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_fpa_is_normal(Context.Context, toZ3Expr(*Exp).AST))); |
| } |
| |
| SMTExprRef mkFPIsZero(const SMTExprRef &Exp) override { |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_fpa_is_zero(Context.Context, toZ3Expr(*Exp).AST))); |
| } |
| |
| SMTExprRef mkFPMul(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| SMTExprRef RoundingMode = getFloatRoundingMode(); |
| return newExprRef( |
| Z3Expr(Context, |
| Z3_mk_fpa_mul(Context.Context, toZ3Expr(*RoundingMode).AST, |
| toZ3Expr(*LHS).AST, toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkFPDiv(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| SMTExprRef RoundingMode = getFloatRoundingMode(); |
| return newExprRef( |
| Z3Expr(Context, |
| Z3_mk_fpa_div(Context.Context, toZ3Expr(*RoundingMode).AST, |
| toZ3Expr(*LHS).AST, toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkFPRem(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_fpa_rem(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkFPAdd(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| SMTExprRef RoundingMode = getFloatRoundingMode(); |
| return newExprRef( |
| Z3Expr(Context, |
| Z3_mk_fpa_add(Context.Context, toZ3Expr(*RoundingMode).AST, |
| toZ3Expr(*LHS).AST, toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkFPSub(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| SMTExprRef RoundingMode = getFloatRoundingMode(); |
| return newExprRef( |
| Z3Expr(Context, |
| Z3_mk_fpa_sub(Context.Context, toZ3Expr(*RoundingMode).AST, |
| toZ3Expr(*LHS).AST, toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkFPLt(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_fpa_lt(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkFPGt(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_fpa_gt(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkFPLe(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_fpa_leq(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkFPGe(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_fpa_geq(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkFPEqual(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_fpa_eq(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkIte(const SMTExprRef &Cond, const SMTExprRef &T, |
| const SMTExprRef &F) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_ite(Context.Context, toZ3Expr(*Cond).AST, |
| toZ3Expr(*T).AST, toZ3Expr(*F).AST))); |
| } |
| |
| SMTExprRef mkBVSignExt(unsigned i, const SMTExprRef &Exp) override { |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_sign_ext(Context.Context, i, toZ3Expr(*Exp).AST))); |
| } |
| |
| SMTExprRef mkBVZeroExt(unsigned i, const SMTExprRef &Exp) override { |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_zero_ext(Context.Context, i, toZ3Expr(*Exp).AST))); |
| } |
| |
| SMTExprRef mkBVExtract(unsigned High, unsigned Low, |
| const SMTExprRef &Exp) override { |
| return newExprRef(Z3Expr(Context, Z3_mk_extract(Context.Context, High, Low, |
| toZ3Expr(*Exp).AST))); |
| } |
| |
| /// Creates a predicate that checks for overflow in a bitvector addition |
| /// operation |
| SMTExprRef mkBVAddNoOverflow(const SMTExprRef &LHS, const SMTExprRef &RHS, |
| bool isSigned) override { |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_bvadd_no_overflow(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST, isSigned))); |
| } |
| |
| /// Creates a predicate that checks for underflow in a signed bitvector |
| /// addition operation |
| SMTExprRef mkBVAddNoUnderflow(const SMTExprRef &LHS, |
| const SMTExprRef &RHS) override { |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_bvadd_no_underflow(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| /// Creates a predicate that checks for overflow in a signed bitvector |
| /// subtraction operation |
| SMTExprRef mkBVSubNoOverflow(const SMTExprRef &LHS, |
| const SMTExprRef &RHS) override { |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_bvsub_no_overflow(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| /// Creates a predicate that checks for underflow in a bitvector subtraction |
| /// operation |
| SMTExprRef mkBVSubNoUnderflow(const SMTExprRef &LHS, const SMTExprRef &RHS, |
| bool isSigned) override { |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_bvsub_no_underflow(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST, isSigned))); |
| } |
| |
| /// Creates a predicate that checks for overflow in a signed bitvector |
| /// division/modulus operation |
| SMTExprRef mkBVSDivNoOverflow(const SMTExprRef &LHS, |
| const SMTExprRef &RHS) override { |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_bvsdiv_no_overflow(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| /// Creates a predicate that checks for overflow in a bitvector negation |
| /// operation |
| SMTExprRef mkBVNegNoOverflow(const SMTExprRef &Exp) override { |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_bvneg_no_overflow(Context.Context, toZ3Expr(*Exp).AST))); |
| } |
| |
| /// Creates a predicate that checks for overflow in a bitvector multiplication |
| /// operation |
| SMTExprRef mkBVMulNoOverflow(const SMTExprRef &LHS, const SMTExprRef &RHS, |
| bool isSigned) override { |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_bvmul_no_overflow(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST, isSigned))); |
| } |
| |
| /// Creates a predicate that checks for underflow in a signed bitvector |
| /// multiplication operation |
| SMTExprRef mkBVMulNoUnderflow(const SMTExprRef &LHS, |
| const SMTExprRef &RHS) override { |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_bvmul_no_underflow(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkBVConcat(const SMTExprRef &LHS, const SMTExprRef &RHS) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_concat(Context.Context, toZ3Expr(*LHS).AST, |
| toZ3Expr(*RHS).AST))); |
| } |
| |
| SMTExprRef mkFPtoFP(const SMTExprRef &From, const SMTSortRef &To) override { |
| SMTExprRef RoundingMode = getFloatRoundingMode(); |
| return newExprRef(Z3Expr( |
| Context, |
| Z3_mk_fpa_to_fp_float(Context.Context, toZ3Expr(*RoundingMode).AST, |
| toZ3Expr(*From).AST, toZ3Sort(*To).Sort))); |
| } |
| |
| SMTExprRef mkSBVtoFP(const SMTExprRef &From, const SMTSortRef &To) override { |
| SMTExprRef RoundingMode = getFloatRoundingMode(); |
| return newExprRef(Z3Expr( |
| Context, |
| Z3_mk_fpa_to_fp_signed(Context.Context, toZ3Expr(*RoundingMode).AST, |
| toZ3Expr(*From).AST, toZ3Sort(*To).Sort))); |
| } |
| |
| SMTExprRef mkUBVtoFP(const SMTExprRef &From, const SMTSortRef &To) override { |
| SMTExprRef RoundingMode = getFloatRoundingMode(); |
| return newExprRef(Z3Expr( |
| Context, |
| Z3_mk_fpa_to_fp_unsigned(Context.Context, toZ3Expr(*RoundingMode).AST, |
| toZ3Expr(*From).AST, toZ3Sort(*To).Sort))); |
| } |
| |
| SMTExprRef mkFPtoSBV(const SMTExprRef &From, unsigned ToWidth) override { |
| SMTExprRef RoundingMode = getFloatRoundingMode(); |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_fpa_to_sbv(Context.Context, toZ3Expr(*RoundingMode).AST, |
| toZ3Expr(*From).AST, ToWidth))); |
| } |
| |
| SMTExprRef mkFPtoUBV(const SMTExprRef &From, unsigned ToWidth) override { |
| SMTExprRef RoundingMode = getFloatRoundingMode(); |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_fpa_to_ubv(Context.Context, toZ3Expr(*RoundingMode).AST, |
| toZ3Expr(*From).AST, ToWidth))); |
| } |
| |
| SMTExprRef mkBoolean(const bool b) override { |
| return newExprRef(Z3Expr(Context, b ? Z3_mk_true(Context.Context) |
| : Z3_mk_false(Context.Context))); |
| } |
| |
| SMTExprRef mkBitvector(const llvm::APSInt Int, unsigned BitWidth) override { |
| const Z3_sort Z3Sort = toZ3Sort(*getBitvectorSort(BitWidth)).Sort; |
| |
| // Slow path, when 64 bits are not enough. |
| if (LLVM_UNLIKELY(Int.getBitWidth() > 64u)) { |
| SmallString<40> Buffer; |
| Int.toString(Buffer, 10); |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_numeral(Context.Context, Buffer.c_str(), Z3Sort))); |
| } |
| |
| const int64_t BitReprAsSigned = Int.getExtValue(); |
| const uint64_t BitReprAsUnsigned = |
| reinterpret_cast<const uint64_t &>(BitReprAsSigned); |
| |
| Z3_ast Literal = |
| Int.isSigned() |
| ? Z3_mk_int64(Context.Context, BitReprAsSigned, Z3Sort) |
| : Z3_mk_unsigned_int64(Context.Context, BitReprAsUnsigned, Z3Sort); |
| return newExprRef(Z3Expr(Context, Literal)); |
| } |
| |
| SMTExprRef mkFloat(const llvm::APFloat Float) override { |
| SMTSortRef Sort = |
| getFloatSort(llvm::APFloat::semanticsSizeInBits(Float.getSemantics())); |
| |
| llvm::APSInt Int = llvm::APSInt(Float.bitcastToAPInt(), false); |
| SMTExprRef Z3Int = mkBitvector(Int, Int.getBitWidth()); |
| return newExprRef(Z3Expr( |
| Context, Z3_mk_fpa_to_fp_bv(Context.Context, toZ3Expr(*Z3Int).AST, |
| toZ3Sort(*Sort).Sort))); |
| } |
| |
| SMTExprRef mkSymbol(const char *Name, SMTSortRef Sort) override { |
| return newExprRef( |
| Z3Expr(Context, Z3_mk_const(Context.Context, |
| Z3_mk_string_symbol(Context.Context, Name), |
| toZ3Sort(*Sort).Sort))); |
| } |
| |
| llvm::APSInt getBitvector(const SMTExprRef &Exp, unsigned BitWidth, |
| bool isUnsigned) override { |
| return llvm::APSInt( |
| llvm::APInt(BitWidth, |
| Z3_get_numeral_string(Context.Context, toZ3Expr(*Exp).AST), |
| 10), |
| isUnsigned); |
| } |
| |
| bool getBoolean(const SMTExprRef &Exp) override { |
| return Z3_get_bool_value(Context.Context, toZ3Expr(*Exp).AST) == Z3_L_TRUE; |
| } |
| |
| SMTExprRef getFloatRoundingMode() override { |
| // TODO: Don't assume nearest ties to even rounding mode |
| return newExprRef(Z3Expr(Context, Z3_mk_fpa_rne(Context.Context))); |
| } |
| |
| bool toAPFloat(const SMTSortRef &Sort, const SMTExprRef &AST, |
| llvm::APFloat &Float, bool useSemantics) { |
| assert(Sort->isFloatSort() && "Unsupported sort to floating-point!"); |
| |
| llvm::APSInt Int(Sort->getFloatSortSize(), true); |
| const llvm::fltSemantics &Semantics = |
| getFloatSemantics(Sort->getFloatSortSize()); |
| SMTSortRef BVSort = getBitvectorSort(Sort->getFloatSortSize()); |
| if (!toAPSInt(BVSort, AST, Int, true)) { |
| return false; |
| } |
| |
| if (useSemantics && !areEquivalent(Float.getSemantics(), Semantics)) { |
| assert(false && "Floating-point types don't match!"); |
| return false; |
| } |
| |
| Float = llvm::APFloat(Semantics, Int); |
| return true; |
| } |
| |
| bool toAPSInt(const SMTSortRef &Sort, const SMTExprRef &AST, |
| llvm::APSInt &Int, bool useSemantics) { |
| if (Sort->isBitvectorSort()) { |
| if (useSemantics && Int.getBitWidth() != Sort->getBitvectorSortSize()) { |
| assert(false && "Bitvector types don't match!"); |
| return false; |
| } |
| |
| // FIXME: This function is also used to retrieve floating-point values, |
| // which can be 16, 32, 64 or 128 bits long. Bitvectors can be anything |
| // between 1 and 64 bits long, which is the reason we have this weird |
| // guard. In the future, we need proper calls in the backend to retrieve |
| // floating-points and its special values (NaN, +/-infinity, +/-zero), |
| // then we can drop this weird condition. |
| if (Sort->getBitvectorSortSize() <= 64 || |
| Sort->getBitvectorSortSize() == 128) { |
| Int = getBitvector(AST, Int.getBitWidth(), Int.isUnsigned()); |
| return true; |
| } |
| |
| assert(false && "Bitwidth not supported!"); |
| return false; |
| } |
| |
| if (Sort->isBooleanSort()) { |
| if (useSemantics && Int.getBitWidth() < 1) { |
| assert(false && "Boolean type doesn't match!"); |
| return false; |
| } |
| |
| Int = llvm::APSInt(llvm::APInt(Int.getBitWidth(), getBoolean(AST)), |
| Int.isUnsigned()); |
| return true; |
| } |
| |
| llvm_unreachable("Unsupported sort to integer!"); |
| } |
| |
| bool getInterpretation(const SMTExprRef &Exp, llvm::APSInt &Int) override { |
| Z3Model Model(Context, Z3_solver_get_model(Context.Context, Solver)); |
| Z3_func_decl Func = Z3_get_app_decl( |
| Context.Context, Z3_to_app(Context.Context, toZ3Expr(*Exp).AST)); |
| if (Z3_model_has_interp(Context.Context, Model.Model, Func) != Z3_L_TRUE) |
| return false; |
| |
| SMTExprRef Assign = newExprRef( |
| Z3Expr(Context, |
| Z3_model_get_const_interp(Context.Context, Model.Model, Func))); |
| SMTSortRef Sort = getSort(Assign); |
| return toAPSInt(Sort, Assign, Int, true); |
| } |
| |
| bool getInterpretation(const SMTExprRef &Exp, llvm::APFloat &Float) override { |
| Z3Model Model(Context, Z3_solver_get_model(Context.Context, Solver)); |
| Z3_func_decl Func = Z3_get_app_decl( |
| Context.Context, Z3_to_app(Context.Context, toZ3Expr(*Exp).AST)); |
| if (Z3_model_has_interp(Context.Context, Model.Model, Func) != Z3_L_TRUE) |
| return false; |
| |
| SMTExprRef Assign = newExprRef( |
| Z3Expr(Context, |
| Z3_model_get_const_interp(Context.Context, Model.Model, Func))); |
| SMTSortRef Sort = getSort(Assign); |
| return toAPFloat(Sort, Assign, Float, true); |
| } |
| |
| Optional<bool> check() const override { |
| Z3_lbool res = Z3_solver_check(Context.Context, Solver); |
| if (res == Z3_L_TRUE) |
| return true; |
| |
| if (res == Z3_L_FALSE) |
| return false; |
| |
| return Optional<bool>(); |
| } |
| |
| void push() override { return Z3_solver_push(Context.Context, Solver); } |
| |
| void pop(unsigned NumStates = 1) override { |
| assert(Z3_solver_get_num_scopes(Context.Context, Solver) >= NumStates); |
| return Z3_solver_pop(Context.Context, Solver, NumStates); |
| } |
| |
| bool isFPSupported() override { return true; } |
| |
| /// Reset the solver and remove all constraints. |
| void reset() override { Z3_solver_reset(Context.Context, Solver); } |
| |
| void print(raw_ostream &OS) const override { |
| OS << Z3_solver_to_string(Context.Context, Solver); |
| } |
| }; // end class Z3Solver |
| |
| } // end anonymous namespace |
| |
| #endif |
| |
| llvm::SMTSolverRef llvm::CreateZ3Solver() { |
| #if LLVM_WITH_Z3 |
| return std::make_unique<Z3Solver>(); |
| #else |
| llvm::report_fatal_error("LLVM was not compiled with Z3 support, rebuild " |
| "with -DLLVM_ENABLE_Z3_SOLVER=ON", |
| false); |
| return nullptr; |
| #endif |
| } |
| |
| LLVM_DUMP_METHOD void SMTSort::dump() const { print(llvm::errs()); } |
| LLVM_DUMP_METHOD void SMTExpr::dump() const { print(llvm::errs()); } |
| LLVM_DUMP_METHOD void SMTSolver::dump() const { print(llvm::errs()); } |