From: makaimann Date: Mon, 3 Aug 2020 20:39:44 +0000 (-0700) Subject: Delete solver pointer in Cython __dealloc__ (#4799) X-Git-Tag: cvc5-1.0.0~3053 X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=f6a730cc5392a162428daaebc199ab884bf123d4;p=cvc5.git Delete solver pointer in Cython __dealloc__ (#4799) --- diff --git a/src/api/python/cvc4.pxi b/src/api/python/cvc4.pxi index b6e4616da..a51307d21 100644 --- a/src/api/python/cvc4.pxi +++ b/src/api/python/cvc4.pxi @@ -54,6 +54,22 @@ def expand_list_arg(num_req_args=0): ### always use c++ default arguments #### only use default args of None at python level +# References and pointers +# The Solver object holds a pointer to a c_Solver. +# This is because the assignment operator is deleted in the C++ API for solvers. +# Cython has a limitation where you can't stack allocate objects +# that have constructors with arguments: +# https://groups.google.com/forum/#!topic/cython-users/fuKd-nQLpBs. +# To get around that you can either have a nullary constructor and assignment +# or, use a pointer (which is what we chose). +# An additional complication of this is that to free up resources, you must +# know when to delete the object. +# Python will not follow the same scoping rules as in C++, so it must be +# able to reference count. To do this correctly, the solver must be a +# reference in the Python class for any class that keeps a pointer to +# the solver in C++ (to ensure the solver is not deleted before something +# that depends on it). + ## Objects for hashing cdef c_OpHashFunction cophash = c_OpHashFunction() @@ -63,11 +79,12 @@ cdef c_TermHashFunction ctermhash = c_TermHashFunction() cdef class Datatype: cdef c_Datatype cd - def __cinit__(self): - pass + cdef Solver solver + def __cinit__(self, Solver solver): + self.solver = solver def __getitem__(self, index): - cdef DatatypeConstructor dc = DatatypeConstructor() + cdef DatatypeConstructor dc = DatatypeConstructor(self.solver) if isinstance(index, int) and index >= 0: dc.cdc = self.cd[( index)] elif isinstance(index, str): @@ -77,12 +94,12 @@ cdef class Datatype: return dc def getConstructor(self, str name): - cdef DatatypeConstructor dc = DatatypeConstructor() + cdef DatatypeConstructor dc = DatatypeConstructor(self.solver) dc.cdc = self.cd.getConstructor(name.encode()) return dc def getConstructorTerm(self, str name): - cdef Term term = Term() + cdef Term term = Term(self.solver) term.cterm = self.cd.getConstructorTerm(name.encode()) return term @@ -100,18 +117,20 @@ cdef class Datatype: def __iter__(self): for ci in self.cd: - dc = DatatypeConstructor() + dc = DatatypeConstructor(self.solver) dc.cdc = ci yield dc cdef class DatatypeConstructor: cdef c_DatatypeConstructor cdc - def __cinit__(self): + cdef Solver solver + def __cinit__(self, Solver solver): self.cdc = c_DatatypeConstructor() + self.solver = solver def __getitem__(self, index): - cdef DatatypeSelector ds = DatatypeSelector() + cdef DatatypeSelector ds = DatatypeSelector(self.solver) if isinstance(index, int) and index >= 0: ds.cds = self.cdc[( index)] elif isinstance(index, str): @@ -124,12 +143,12 @@ cdef class DatatypeConstructor: return self.cdc.getName().decode() def getConstructorTerm(self): - cdef Term term = Term() + cdef Term term = Term(self.solver) term.cterm = self.cdc.getConstructorTerm() return term def getTesterTerm(self): - cdef Term term = Term() + cdef Term term = Term(self.solver) term.cterm = self.cdc.getTesterTerm() return term @@ -137,12 +156,12 @@ cdef class DatatypeConstructor: return self.cdc.getNumSelectors() def getSelector(self, str name): - cdef DatatypeSelector ds = DatatypeSelector() + cdef DatatypeSelector ds = DatatypeSelector(self.solver) ds.cds = self.cdc.getSelector(name.encode()) return ds def getSelectorTerm(self, str name): - cdef Term term = Term() + cdef Term term = Term(self.solver) term.cterm = self.cdc.getSelectorTerm(name.encode()) return term @@ -154,16 +173,17 @@ cdef class DatatypeConstructor: def __iter__(self): for ci in self.cdc: - ds = DatatypeSelector() + ds = DatatypeSelector(self.solver) ds.cds = ci yield ds cdef class DatatypeConstructorDecl: cdef c_DatatypeConstructorDecl cddc + cdef Solver solver - def __cinit__(self): - pass + def __cinit__(self, Solver solver): + self.solver = solver def addSelector(self, str name, Sort sort): self.cddc.addSelector(name.encode(), sort.csort) @@ -180,8 +200,9 @@ cdef class DatatypeConstructorDecl: cdef class DatatypeDecl: cdef c_DatatypeDecl cdd - def __cinit__(self): - pass + cdef Solver solver + def __cinit__(self, Solver solver): + self.solver = solver def addConstructor(self, DatatypeConstructorDecl ctor): self.cdd.addConstructor(ctor.cddc) @@ -201,19 +222,21 @@ cdef class DatatypeDecl: cdef class DatatypeSelector: cdef c_DatatypeSelector cds - def __cinit__(self): + cdef Solver solver + def __cinit__(self, Solver solver): self.cds = c_DatatypeSelector() + self.solver = solver def getName(self): return self.cds.getName().decode() def getSelectorTerm(self): - cdef Term term = Term() + cdef Term term = Term(self.solver) term.cterm = self.cds.getSelectorTerm() return term def getRangeSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self.solver) sort.csort = self.cds.getRangeSort() return sort @@ -226,8 +249,10 @@ cdef class DatatypeSelector: cdef class Op: cdef c_Op cop - def __cinit__(self): + cdef Solver solver + def __cinit__(self, Solver solver): self.cop = c_Op() + self.solver = solver def __eq__(self, Op other): return self.cop == other.cop @@ -274,7 +299,9 @@ cdef class Op: cdef class Grammar: cdef c_Grammar cgrammar - def __cinit__(self): + cdef Solver solver + def __cinit__(self, Solver solver): + self.solver = solver self.cgrammar = c_Grammar() def addRule(self, Term ntSymbol, Term rule): @@ -365,59 +392,62 @@ cdef class Solver: def __cinit__(self): self.csolver = new c_Solver(NULL) + def __dealloc__(self): + del self.csolver + def getBooleanSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.getBooleanSort() return sort def getIntegerSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.getIntegerSort() return sort def getRealSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.getRealSort() return sort def getRegExpSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.getRegExpSort() return sort def getRoundingmodeSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.getRoundingmodeSort() return sort def getStringSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.getStringSort() return sort def mkArraySort(self, Sort indexSort, Sort elemSort): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.mkArraySort(indexSort.csort, elemSort.csort) return sort def mkBitVectorSort(self, uint32_t size): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.mkBitVectorSort(size) return sort def mkFloatingPointSort(self, uint32_t exp, uint32_t sig): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.mkFloatingPointSort(exp, sig) return sort def mkDatatypeSort(self, DatatypeDecl dtypedecl): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.mkDatatypeSort(dtypedecl.cdd) return sort def mkFunctionSort(self, sorts, Sort codomain): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) # populate a vector with dereferenced c_Sorts cdef vector[c_Sort] v @@ -433,7 +463,7 @@ cdef class Solver: return sort def mkParamSort(self, symbolname): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.mkParamSort(symbolname.encode()) return sort @@ -446,7 +476,7 @@ cdef class Solver: where sorts can also be comma-separated arguments of type Sort ''' - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) cdef vector[c_Sort] v for s in sorts: v.push_back(( s).csort) @@ -462,7 +492,7 @@ cdef class Solver: where fields can also be comma-separated arguments of type Tuple[str, Sort] ''' - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) cdef vector[pair[string, c_Sort]] v cdef pair[string, c_Sort] p for f in fields: @@ -475,22 +505,22 @@ cdef class Solver: return sort def mkSetSort(self, Sort elemSort): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.mkSetSort(elemSort.csort) return sort def mkSequenceSort(self, Sort elemSort): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.mkSequenceSort(elemSort.csort) return sort def mkUninterpretedSort(self, str name): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.mkUninterpretedSort(name.encode()) return sort def mkSortConstructorSort(self, str symbol, size_t arity): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort =self.csolver.mkSortConstructorSort(symbol.encode(), arity) return sort @@ -503,7 +533,7 @@ cdef class Solver: where sorts can also be comma-separated arguments of type Sort ''' - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) cdef vector[c_Sort] v for s in sorts: v.push_back(( s).csort) @@ -520,7 +550,7 @@ cdef class Solver: where List[Term] can also be comma-separated arguments ''' - cdef Term term = Term() + cdef Term term = Term(self) cdef vector[c_Term] v op = kind_or_op @@ -544,7 +574,7 @@ cdef class Solver: Op mkOp(Kind kind, uint32_t arg) Op mkOp(Kind kind, uint32_t arg0, uint32_t arg1) ''' - cdef Op op = Op() + cdef Op op = Op(self) if arg0 is None: op.cop = self.csolver.mkOp(k.k) @@ -570,27 +600,27 @@ cdef class Solver: return op def mkTrue(self): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkTrue() return term def mkFalse(self): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkFalse() return term def mkBoolean(self, bint val): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkBoolean(val) return term def mkPi(self): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkPi() return term def mkReal(self, val, den=None): - cdef Term term = Term() + cdef Term term = Term(self) if den is None: term.cterm = self.csolver.mkReal(str(val).encode()) else: @@ -602,27 +632,27 @@ cdef class Solver: return term def mkRegexpEmpty(self): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkRegexpEmpty() return term def mkRegexpSigma(self): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkRegexpSigma() return term def mkEmptySet(self, Sort s): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkEmptySet(s.csort) return term def mkSepNil(self, Sort sort): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkSepNil(sort.csort) return term def mkString(self, str_or_vec): - cdef Term term = Term() + cdef Term term = Term(self) cdef vector[unsigned] v if isinstance(str_or_vec, str): term.cterm = self.csolver.mkString( str_or_vec.encode()) @@ -639,17 +669,17 @@ cdef class Solver: return term def mkEmptySequence(self, Sort sort): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkEmptySequence(sort.csort) return term def mkUniverseSet(self, Sort sort): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkUniverseSet(sort.csort) return term def mkBitVector(self, size_or_str, val = None): - cdef Term term = Term() + cdef Term term = Term(self) if isinstance(size_or_str, int): if val is None: term.cterm = self.csolver.mkBitVector( size_or_str) @@ -670,47 +700,47 @@ cdef class Solver: return term def mkConstArray(self, Sort sort, Term val): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkConstArray(sort.csort, val.cterm) return term def mkPosInf(self, int exp, int sig): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkPosInf(exp, sig) return term def mkNegInf(self, int exp, int sig): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkNegInf(exp, sig) return term def mkNaN(self, int exp, int sig): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkNaN(exp, sig) return term def mkPosZero(self, int exp, int sig): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkPosZero(exp, sig) return term def mkNegZero(self, int exp, int sig): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkNegZero(exp, sig) return term def mkRoundingMode(self, RoundingMode rm): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkRoundingMode( rm.crm) return term def mkUninterpretedConst(self, Sort sort, int index): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkUninterpretedConst(sort.csort, index) return term def mkAbstractValue(self, index): - cdef Term term = Term() + cdef Term term = Term(self) try: term.cterm = self.csolver.mkAbstractValue(str(index).encode()) except: @@ -719,12 +749,12 @@ cdef class Solver: return term def mkFloatingPoint(self, int exp, int sig, Term val): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkFloatingPoint(exp, sig, val.cterm) return term def mkConst(self, Sort sort, symbol=None): - cdef Term term = Term() + cdef Term term = Term(self) if symbol is None: term.cterm = self.csolver.mkConst(sort.csort) else: @@ -733,7 +763,7 @@ cdef class Solver: return term def mkVar(self, Sort sort, symbol=None): - cdef Term term = Term() + cdef Term term = Term(self) if symbol is None: term.cterm = self.csolver.mkVar(sort.csort) else: @@ -742,12 +772,12 @@ cdef class Solver: return term def mkDatatypeConstructorDecl(self, str name): - cdef DatatypeConstructorDecl ddc = DatatypeConstructorDecl() + cdef DatatypeConstructorDecl ddc = DatatypeConstructorDecl(self) ddc.cddc = self.csolver.mkDatatypeConstructorDecl(name.encode()) return ddc def mkDatatypeDecl(self, str name, sorts_or_bool=None, isCoDatatype=None): - cdef DatatypeDecl dd = DatatypeDecl() + cdef DatatypeDecl dd = DatatypeDecl(self) cdef vector[c_Sort] v # argument cases @@ -791,7 +821,7 @@ cdef class Solver: return dd def simplify(self, Term t): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.simplify(t.cterm) return term @@ -804,7 +834,7 @@ cdef class Solver: return r def mkSygusGrammar(self, boundVars, ntSymbols): - cdef Grammar grammar = Grammar() + cdef Grammar grammar = Grammar(self) cdef vector[c_Term] bvc cdef vector[c_Term] ntc for bv in boundVars: @@ -815,7 +845,7 @@ cdef class Solver: return grammar def mkSygusVar(self, Sort sort, str symbol=""): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.mkSygusVar(sort.csort, symbol.encode()) return term @@ -826,7 +856,7 @@ cdef class Solver: self.csolver.addSygusInvConstraint(inv_f.cterm, pre_f.cterm, trans_f.cterm, post_f.cterm) def synthFun(self, str symbol, bound_vars, Sort sort, Grammar grammar=None): - cdef Term term = Term() + cdef Term term = Term(self) cdef vector[c_Term] v for bv in bound_vars: v.push_back(( bv).cterm) @@ -842,12 +872,12 @@ cdef class Solver: return r def getSynthSolution(self, Term term): - cdef Term t = Term() + cdef Term t = Term(self) t.cterm = self.csolver.getSynthSolution(term.cterm) return t def synthInv(self, symbol, bound_vars, Grammar grammar=None): - cdef Term term = Term() + cdef Term term = Term(self) cdef vector[c_Term] v for bv in bound_vars: v.push_back(( bv).cterm) @@ -903,7 +933,7 @@ cdef class Solver: where ctors can also be comma-separated arguments of type DatatypeConstructorDecl ''' - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) cdef vector[c_DatatypeConstructorDecl] v for c in ctors: @@ -912,7 +942,7 @@ cdef class Solver: return sort def declareFun(self, str symbol, list sorts, Sort sort): - cdef Term term = Term() + cdef Term term = Term(self) cdef vector[c_Sort] v for s in sorts: v.push_back(( s).csort) @@ -922,7 +952,7 @@ cdef class Solver: return term def declareSort(self, str symbol, int arity): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self) sort.csort = self.csolver.declareSort(symbol.encode(), arity) return sort @@ -934,7 +964,7 @@ cdef class Solver: Term defineFun(Term fun, List[Term] bound_vars, Term term, bool glbl) ''' - cdef Term term = Term() + cdef Term term = Term(self) cdef vector[c_Term] v for bv in bound_vars: v.push_back(( bv).cterm) @@ -961,7 +991,7 @@ cdef class Solver: Term defineFunRec(Term fun, List[Term] bound_vars, Term term, bool glbl) ''' - cdef Term term = Term() + cdef Term term = Term(self) cdef vector[c_Term] v for bv in bound_vars: v.push_back(( bv).cterm) @@ -1001,7 +1031,7 @@ cdef class Solver: def getAssertions(self): assertions = [] for a in self.csolver.getAssertions(): - term = Term() + term = Term(self) term.cterm = a assertions.append(term) return assertions @@ -1012,8 +1042,8 @@ cdef class Solver: ''' assignments = {} for a in self.csolver.getAssignment(): - varterm = Term() - valterm = Term() + varterm = Term(self) + valterm = Term(self) varterm.cterm = a.first valterm.cterm = a.second assignments[varterm] = valterm @@ -1028,7 +1058,7 @@ cdef class Solver: def getUnsatAssumptions(self): assumptions = [] for a in self.csolver.getUnsatAssumptions(): - term = Term() + term = Term(self) term.cterm = a assumptions.append(term) return assumptions @@ -1036,23 +1066,23 @@ cdef class Solver: def getUnsatCore(self): core = [] for a in self.csolver.getUnsatCore(): - term = Term() + term = Term(self) term.cterm = a core.append(term) return core def getValue(self, Term t): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.getValue(t.cterm) return term def getSeparationHeap(self): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.getSeparationHeap() return term def getSeparationNilTerm(self): - cdef Term term = Term() + cdef Term term = Term(self) term.cterm = self.csolver.getSeparationNilTerm() return term @@ -1080,9 +1110,10 @@ cdef class Solver: cdef class Sort: cdef c_Sort csort - def __cinit__(self): + cdef Solver solver + def __cinit__(self, Solver solver): # csort always set by Solver - pass + self.solver = solver def __eq__(self, Sort other): return self.csort == other.csort @@ -1190,12 +1221,12 @@ cdef class Sort: return self.csort.isComparableTo(sort.csort) def getDatatype(self): - cdef Datatype d = Datatype() + cdef Datatype d = Datatype(self.solver) d.cd = self.csort.getDatatype() return d def instantiate(self, params): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self.solver) cdef vector[c_Sort] v for s in params: v.push_back(( s).csort) @@ -1208,13 +1239,13 @@ cdef class Sort: def getConstructorDomainSorts(self): domain_sorts = [] for s in self.csort.getConstructorDomainSorts(): - sort = Sort() + sort = Sort(self.solver) sort.csort = s domain_sorts.append(sort) return domain_sorts def getConstructorCodomainSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self.solver) sort.csort = self.csort.getConstructorCodomainSort() return sort @@ -1224,33 +1255,33 @@ cdef class Sort: def getFunctionDomainSorts(self): domain_sorts = [] for s in self.csort.getFunctionDomainSorts(): - sort = Sort() + sort = Sort(self.solver) sort.csort = s domain_sorts.append(sort) return domain_sorts def getFunctionCodomainSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self.solver) sort.csort = self.csort.getFunctionCodomainSort() return sort def getArrayIndexSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self.solver) sort.csort = self.csort.getArrayIndexSort() return sort def getArrayElementSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self.solver) sort.csort = self.csort.getArrayElementSort() return sort def getSetElementSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self.solver) sort.csort = self.csort.getSetElementSort() return sort def getSequenceElementSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self.solver) sort.csort = self.csort.getSequenceElementSort() return sort @@ -1263,7 +1294,7 @@ cdef class Sort: def getUninterpretedSortParamSorts(self): param_sorts = [] for s in self.csort.getUninterpretedSortParamSorts(): - sort = Sort() + sort = Sort(self.solver) sort.csort = s param_sorts.append(sort) return param_sorts @@ -1286,7 +1317,7 @@ cdef class Sort: def getDatatypeParamSorts(self): param_sorts = [] for s in self.csort.getDatatypeParamSorts(): - sort = Sort() + sort = Sort(self.solver) sort.csort = s param_sorts.append(sort) return param_sorts @@ -1300,7 +1331,7 @@ cdef class Sort: def getTupleSorts(self): tuple_sorts = [] for s in self.csort.getTupleSorts(): - sort = Sort() + sort = Sort(self.solver) sort.csort = s tuple_sorts.append(sort) return tuple_sorts @@ -1308,9 +1339,10 @@ cdef class Sort: cdef class Term: cdef c_Term cterm - def __cinit__(self): + cdef Solver solver + def __cinit__(self, Solver solver): # cterm always set in the Solver object - pass + self.solver = solver def __eq__(self, Term other): return self.cterm == other.cterm @@ -1326,7 +1358,7 @@ cdef class Term: def __iter__(self): for ci in self.cterm: - term = Term() + term = Term(self.solver) term.cterm = ci yield term @@ -1337,14 +1369,14 @@ cdef class Term: return kind( self.cterm.getKind()) def getSort(self): - cdef Sort sort = Sort() + cdef Sort sort = Sort(self.solver) sort.csort = self.cterm.getSort() return sort def substitute(self, list es, list replacements): cdef vector[c_Term] ces cdef vector[c_Term] creplacements - cdef Term term = Term() + cdef Term term = Term(self.solver) if len(es) != len(replacements): raise RuntimeError("Expecting list inputs to substitute to " @@ -1362,7 +1394,7 @@ cdef class Term: return self.cterm.hasOp() def getOp(self): - cdef Op op = Op() + cdef Op op = Op(self.solver) op.cop = self.cterm.getOp() return op @@ -1373,50 +1405,50 @@ cdef class Term: return self.cterm.isConst() def getConstArrayBase(self): - cdef Term term = Term() + cdef Term term = Term(self.solver) term.cterm = self.cterm.getConstArrayBase() return term def getConstSequenceElements(self): elems = [] for e in self.cterm.getConstSequenceElements(): - term = Term() + term = Term(self.solver) term.cterm = e elems.append(term) return elems def notTerm(self): - cdef Term term = Term() + cdef Term term = Term(self.solver) term.cterm = self.cterm.notTerm() return term def andTerm(self, Term t): - cdef Term term = Term() + cdef Term term = Term(self.solver) term.cterm = self.cterm.andTerm(( t).cterm) return term def orTerm(self, Term t): - cdef Term term = Term() + cdef Term term = Term(self.solver) term.cterm = self.cterm.orTerm(t.cterm) return term def xorTerm(self, Term t): - cdef Term term = Term() + cdef Term term = Term(self.solver) term.cterm = self.cterm.xorTerm(t.cterm) return term def eqTerm(self, Term t): - cdef Term term = Term() + cdef Term term = Term(self.solver) term.cterm = self.cterm.eqTerm(t.cterm) return term def impTerm(self, Term t): - cdef Term term = Term() + cdef Term term = Term(self.solver) term.cterm = self.cterm.impTerm(t.cterm) return term def iteTerm(self, Term then_t, Term else_t): - cdef Term term = Term() + cdef Term term = Term(self.solver) term.cterm = self.cterm.iteTerm(then_t.cterm, else_t.cterm) return term diff --git a/test/unit/api/python/test_grammar.py b/test/unit/api/python/test_grammar.py index 3a703017f..53e873cea 100644 --- a/test/unit/api/python/test_grammar.py +++ b/test/unit/api/python/test_grammar.py @@ -10,7 +10,7 @@ def test_add_rule(): boolean = solver.getBooleanSort() integer = solver.getIntegerSort() - nullTerm = pycvc4.Term() + nullTerm = pycvc4.Term(solver) start = solver.mkVar(boolean) nts = solver.mkVar(boolean) @@ -41,7 +41,7 @@ def test_add_rules(): boolean = solver.getBooleanSort() integer = solver.getIntegerSort() - nullTerm = pycvc4.Term() + nullTerm = pycvc4.Term(solver) start = solver.mkVar(boolean) nts = solver.mkVar(boolean) @@ -69,7 +69,7 @@ def testAddAnyConstant(): solver = pycvc4.Solver() boolean = solver.getBooleanSort() - nullTerm = pycvc4.Term() + nullTerm = pycvc4.Term(solver) start = solver.mkVar(boolean) nts = solver.mkVar(boolean) @@ -93,7 +93,7 @@ def testAddAnyVariable(): solver = pycvc4.Solver() boolean = solver.getBooleanSort() - nullTerm = pycvc4.Term() + nullTerm = pycvc4.Term(solver) x = solver.mkVar(boolean) start = solver.mkVar(boolean) nts = solver.mkVar(boolean)