From: Morgan Deters Date: Fri, 17 May 2013 20:53:21 +0000 (-0400) Subject: Fix error reporting on use of (nonlinear) div,mod,/ symbols X-Git-Tag: cvc5-1.0.0~7287^2~33^2~12 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=f72907de5dc6e3f2edec85b67b0ac987bb0f252a;p=cvc5.git Fix error reporting on use of (nonlinear) div,mod,/ symbols --- diff --git a/src/smt/smt_engine.cpp b/src/smt/smt_engine.cpp index 3cc6e7502..76d4c973f 100644 --- a/src/smt/smt_engine.cpp +++ b/src/smt/smt_engine.cpp @@ -822,15 +822,6 @@ void SmtEngine::setLogicInternal() throw() { d_logic.lock(); - // may need to force uninterpreted functions to be on for non-linear - if(((d_logic.isTheoryEnabled(THEORY_ARITH) && !d_logic.isLinear()) || - d_logic.isTheoryEnabled(THEORY_BV)) && - !d_logic.isTheoryEnabled(THEORY_UF)){ - d_logic = d_logic.getUnlockedCopy(); - d_logic.enableTheory(THEORY_UF); - d_logic.lock(); - } - // Set the options for the theoryOf if(!options::theoryOfMode.wasSetByUser()) { if(d_logic.isSharingEnabled() && !d_logic.isTheoryEnabled(THEORY_BV)) { @@ -1314,6 +1305,11 @@ Node SmtEnginePrivate::expandBVDivByZero(TNode n) { Node divTotalNumDen = nm->mkNode(n.getKind() == kind::BITVECTOR_UDIV ? kind::BITVECTOR_UDIV_TOTAL : kind::BITVECTOR_UREM_TOTAL, num, den); Node node = nm->mkNode(kind::ITE, den_eq_0, divByZeroNum, divTotalNumDen); + if(!d_smt.d_logic.isTheoryEnabled(THEORY_UF)) { + d_smt.d_logic = d_smt.d_logic.getUnlockedCopy(); + d_smt.d_logic.enableTheory(THEORY_UF); + d_smt.d_logic.lock(); + } return node; } @@ -1364,13 +1360,14 @@ Node SmtEnginePrivate::expandDefinitions(TNode n, hash_mapmkSkolem("divByZero", nm->mkFunctionType(nm->realType(), nm->realType()), "partial real division", NodeManager::SKOLEM_EXACT_NAME); + if(!d_smt.d_logic.isTheoryEnabled(THEORY_UF)) { + d_smt.d_logic = d_smt.d_logic.getUnlockedCopy(); + d_smt.d_logic.enableTheory(THEORY_UF); + d_smt.d_logic.lock(); + } } TNode num = n[0], den = n[1]; Node den_eq_0 = nm->mkNode(kind::EQUAL, den, nm->mkConst(Rational(0))); @@ -1382,13 +1379,14 @@ Node SmtEnginePrivate::expandDefinitions(TNode n, hash_mapmkSkolem("intDivByZero", nm->mkFunctionType(nm->integerType(), nm->integerType()), "partial integer division", NodeManager::SKOLEM_EXACT_NAME); + if(!d_smt.d_logic.isTheoryEnabled(THEORY_UF)) { + d_smt.d_logic = d_smt.d_logic.getUnlockedCopy(); + d_smt.d_logic.enableTheory(THEORY_UF); + d_smt.d_logic.lock(); + } } TNode num = n[0], den = n[1]; Node den_eq_0 = nm->mkNode(kind::EQUAL, den, nm->mkConst(Rational(0))); @@ -1400,13 +1398,14 @@ Node SmtEnginePrivate::expandDefinitions(TNode n, hash_mapmkSkolem("modZero", nm->mkFunctionType(nm->integerType(), nm->integerType()), "partial modulus", NodeManager::SKOLEM_EXACT_NAME); + if(!d_smt.d_logic.isTheoryEnabled(THEORY_UF)) { + d_smt.d_logic = d_smt.d_logic.getUnlockedCopy(); + d_smt.d_logic.enableTheory(THEORY_UF); + d_smt.d_logic.lock(); + } } TNode num = n[0], den = n[1]; Node den_eq_0 = nm->mkNode(kind::EQUAL, den, nm->mkConst(Rational(0)));