From: Aina Niemetz Date: Fri, 6 Jul 2018 17:26:00 +0000 (-0700) Subject: New C++ API: Implementation of Solver class: Term handling. (#2144) X-Git-Tag: cvc5-1.0.0~4907 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=8539a8e0811b5b41a07fef9dab1cc160cd2bf50f;p=cvc5.git New C++ API: Implementation of Solver class: Term handling. (#2144) --- diff --git a/src/api/cvc4cpp.cpp b/src/api/cvc4cpp.cpp index ebbc7d483..714d67f5d 100644 --- a/src/api/cvc4cpp.cpp +++ b/src/api/cvc4cpp.cpp @@ -1363,5 +1363,228 @@ std::vector Solver::sortVectorToTypes( return res; } +/* Create terms ------------------------------------------------------- */ + +Term Solver::mkTerm(Kind kind) const +{ + // CHECK: kind == PI + // || kind == REGEXP_EMPTY + // || kind == REGEXP_SIGMA + if (kind == REGEXP_EMPTY || kind == REGEXP_SIGMA) + { + return d_exprMgr->mkExpr(extToIntKind(kind), std::vector()); + } + Assert(kind == PI); + return d_exprMgr->mkNullaryOperator(d_exprMgr->realType(), CVC4::kind::PI); +} + +Term Solver::mkTerm(Kind kind, Sort sort) const +{ + // CHECK: kind == SEP_NIL + // || kind == UNIVERSE_SET + return d_exprMgr->mkNullaryOperator(*sort.d_type, extToIntKind(kind)); +} + +Term Solver::mkTerm(Kind kind, Term child) const +{ + // CHECK: + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(child.getExprManager()) + // CHECK: + // const Metakind mk = kind::metaKindOf(kind); + // mk != kind::metakind::PARAMETERIZED && mk != kind::metakind::OPERATOR + // else "Only operator-style expressions are made with mkExpr(); " + // "to make variables and constants, see mkVar(), mkBoundVar(), " + // "and mkConst()." + // CHECK: + // const unsigned n = 1 - (mk == kind::metakind::PARAMETERIZED ? 1 : 0); + // n < minArity(kind) || n > maxArity(kind) + // else "Exprs with kind %s must have at least %u children and " + // "at most %u children (the one under construction has %u)" + return d_exprMgr->mkExpr(extToIntKind(kind), *child.d_expr); +} + +Term Solver::mkTerm(Kind kind, Term child1, Term child2) const +{ + // CHECK: + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(child1.getExprManager()) + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(child2.getExprManager()) + // CHECK: + // const Metakind mk = kind::metaKindOf(kind); + // mk != kind::metakind::PARAMETERIZED && mk != kind::metakind::OPERATOR + // else "Only operator-style expressions are made with mkExpr(); " + // "to make variables and constants, see mkVar(), mkBoundVar(), " + // "and mkConst()." + // CHECK: + // const unsigned n = 2 - (mk == kind::metakind::PARAMETERIZED ? 1 : 0); + // n < minArity(kind) || n > maxArity(kind) + // else "Exprs with kind %s must have at least %u children and " + // "at most %u children (the one under construction has %u)" + return d_exprMgr->mkExpr(extToIntKind(kind), *child1.d_expr, *child2.d_expr); +} + +Term Solver::mkTerm(Kind kind, Term child1, Term child2, Term child3) const +{ + // CHECK: + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(child1.getExprManager()) + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(child2.getExprManager()) + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(child3.getExprManager()) + // CHECK: + // const Metakind mk = kind::metaKindOf(kind); + // mk != kind::metakind::PARAMETERIZED && mk != kind::metakind::OPERATOR + // else "Only operator-style expressions are made with mkExpr(); " + // "to make variables and constants, see mkVar(), mkBoundVar(), " + // "and mkConst()." + // CHECK: + // const unsigned n = 3 - (mk == kind::metakind::PARAMETERIZED ? 1 : 0); + // n < minArity(kind) || n > maxArity(kind) + // else "Exprs with kind %s must have at least %u children and " + // "at most %u children (the one under construction has %u)" + std::vector echildren{*child1.d_expr, *child2.d_expr, *child3.d_expr}; + CVC4::Kind k = extToIntKind(kind); + return kind::isAssociative(k) ? d_exprMgr->mkAssociative(k, echildren) + : d_exprMgr->mkExpr(k, echildren); +} + +Term Solver::mkTerm(Kind kind, const std::vector& children) const +{ + // CHECK: + // for c in children: + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(c.getExprManager()) + // CHECK: + // const Metakind mk = kind::metaKindOf(kind); + // mk != kind::metakind::PARAMETERIZED && mk != kind::metakind::OPERATOR + // else "Only operator-style expressions are made with mkExpr(); " + // "to make variables and constants, see mkVar(), mkBoundVar(), " + // "and mkConst()." + // CHECK: + // const unsigned n = children.size() - (mk == kind::metakind::PARAMETERIZED ? + // 1 : 0); n < minArity(kind) || n > maxArity(kind) else "Exprs with kind %s + // must have at least %u children and " + // "at most %u children (the one under construction has %u)" + std::vector echildren = termVectorToExprs(children); + CVC4::Kind k = extToIntKind(kind); + return kind::isAssociative(k) ? d_exprMgr->mkAssociative(k, echildren) + : d_exprMgr->mkExpr(k, echildren); +} + +Term Solver::mkTerm(OpTerm opTerm) const +{ + // CHECK: + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(opExpr.getExprManager()) + // CHECK: + // const Kind kind = NodeManager::opToKind(opExpr.getNode()); + // opExpr.getKind() != kind::BUILTIN + // && kind::metaKindOf(kind) != kind::metakind::PARAMETERIZED + // else "This Expr constructor is for parameterized kinds only" + return d_exprMgr->mkExpr(*opTerm.d_expr); +} + +Term Solver::mkTerm(OpTerm opTerm, Term child) const +{ + // CHECK: + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(opExpr.getExprManager()) + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(child.getExprManager()) + // CHECK: + // const Kind kind = NodeManager::opToKind(opExpr.getNode()); + // opExpr.getKind() != kind::BUILTIN + // && kind::metaKindOf(kind) != kind::metakind::PARAMETERIZED + // else "This Expr constructor is for parameterized kinds only" + // CHECK: + // const unsigned n = 1 - (mk == kind::metakind::PARAMETERIZED ? 1 : 0); + // n < minArity(kind) || n > maxArity(kind) + // else "Exprs with kind %s must have at least %u children and " + // "at most %u children (the one under construction has %u)" + return d_exprMgr->mkExpr(*opTerm.d_expr, *child.d_expr); +} + +Term Solver::mkTerm(OpTerm opTerm, Term child1, Term child2) const +{ + // CHECK: + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(opExpr.getExprManager()) + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(child1.getExprManager()) + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(child2.getExprManager()) + // CHECK: + // const Kind kind = NodeManager::opToKind(opExpr.getNode()); + // opExpr.getKind() != kind::BUILTIN + // && kind::metaKindOf(kind) != kind::metakind::PARAMETERIZED + // else "This Expr constructor is for parameterized kinds only" + // CHECK: + // const unsigned n = 2 - (mk == kind::metakind::PARAMETERIZED ? 1 : 0); + // n < minArity(kind) || n > maxArity(kind) + // else "Exprs with kind %s must have at least %u children and " + // "at most %u children (the one under construction has %u)" + return d_exprMgr->mkExpr(*opTerm.d_expr, *child1.d_expr, *child2.d_expr); +} + +Term Solver::mkTerm(OpTerm opTerm, Term child1, Term child2, Term child3) const +{ + // CHECK: + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(opExpr.getExprManager()) + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(child1.getExprManager()) + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(child2.getExprManager()) + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(child3.getExprManager()) + // CHECK: + // const Kind kind = NodeManager::opToKind(opExpr.getNode()); + // opExpr.getKind() != kind::BUILTIN + // && kind::metaKindOf(kind) != kind::metakind::PARAMETERIZED + // else "This Expr constructor is for parameterized kinds only" + // CHECK: + // const unsigned n = 3 - (mk == kind::metakind::PARAMETERIZED ? 1 : 0); + // n < minArity(kind) || n > maxArity(kind) + // else "Exprs with kind %s must have at least %u children and " + // "at most %u children (the one under construction has %u)" + return d_exprMgr->mkExpr( + *opTerm.d_expr, *child1.d_expr, *child2.d_expr, *child3.d_expr); +} + +Term Solver::mkTerm(OpTerm opTerm, const std::vector& children) const +{ + // CHECK: + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(opExpr.getExprManager()) + // for c in children: + // NodeManager::fromExprManager(d_exprMgr) + // == NodeManager::fromExprManager(c.getExprManager()) + // CHECK: + // const Kind kind = NodeManager::opToKind(opExpr.getNode()); + // opExpr.getKind() != kind::BUILTIN + // && kind::metaKindOf(kind) != kind::metakind::PARAMETERIZED + // else "This Expr constructor is for parameterized kinds only" + // CHECK: + // const unsigned n = children.size() - (mk == kind::metakind::PARAMETERIZED ? + // 1 : 0); n < minArity(kind) || n > maxArity(kind) else "Exprs with kind %s + // must have at least %u children and " + // "at most %u children (the one under construction has %u)" + std::vector echildren = termVectorToExprs(children); + return d_exprMgr->mkExpr(*opTerm.d_expr, echildren); +} + +std::vector Solver::termVectorToExprs( + const std::vector& terms) const +{ + std::vector res; + for (const Term& t : terms) + { + res.push_back(*t.d_expr); + } + return res; +} } // namespace api } // namespace CVC4