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/****************************************************************************** |
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* Top contributors (to current version): |
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* Andrew Reynolds, Morgan Deters, Dejan Jovanovic |
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* |
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* This file is part of the cvc5 project. |
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* |
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* Copyright (c) 2009-2021 by the authors listed in the file AUTHORS |
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* in the top-level source directory and their institutional affiliations. |
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* All rights reserved. See the file COPYING in the top-level source |
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* directory for licensing information. |
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* **************************************************************************** |
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* |
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* Type rules for the builtin theory. |
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*/ |
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#include "cvc5_private.h" |
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#ifndef CVC5__THEORY__BUILTIN__THEORY_BUILTIN_TYPE_RULES_H |
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#define CVC5__THEORY__BUILTIN__THEORY_BUILTIN_TYPE_RULES_H |
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#include "expr/node.h" |
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#include "expr/type_node.h" |
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#include "theory/builtin/theory_builtin_rewriter.h" // for array and lambda representation |
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#include <sstream> |
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namespace cvc5 { |
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namespace theory { |
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namespace builtin { |
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class EqualityTypeRule { |
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public: |
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inline static TypeNode computeType(NodeManager* nodeManager, |
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TNode n, |
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bool check) |
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{ |
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TypeNode booleanType = nodeManager->booleanType(); |
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if (check) |
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{ |
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TypeNode lhsType = n[0].getType(check); |
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TypeNode rhsType = n[1].getType(check); |
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if (TypeNode::leastCommonTypeNode(lhsType, rhsType).isNull()) |
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{ |
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std::stringstream ss; |
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ss << "Subexpressions must have a common base type:" << std::endl; |
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ss << "Equation: " << n << std::endl; |
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ss << "Type 1: " << lhsType << std::endl; |
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ss << "Type 2: " << rhsType << std::endl; |
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throw TypeCheckingExceptionPrivate(n, ss.str()); |
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} |
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// TODO : check isFirstClass for these types? (github issue #1202) |
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} |
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return booleanType; |
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} |
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};/* class EqualityTypeRule */ |
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class DistinctTypeRule { |
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public: |
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inline static TypeNode computeType(NodeManager* nodeManager, TNode n, bool check) { |
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if( check ) { |
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TNode::iterator child_it = n.begin(); |
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TNode::iterator child_it_end = n.end(); |
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TypeNode joinType = (*child_it).getType(check); |
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for (++child_it; child_it != child_it_end; ++child_it) { |
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TypeNode currentType = (*child_it).getType(); |
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joinType = TypeNode::leastCommonTypeNode(joinType, currentType); |
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if (joinType.isNull()) { |
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throw TypeCheckingExceptionPrivate(n, "Not all arguments are of the same type"); |
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} |
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} |
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} |
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return nodeManager->booleanType(); |
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} |
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};/* class DistinctTypeRule */ |
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class SExprTypeRule { |
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public: |
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inline static TypeNode computeType(NodeManager* nodeManager, TNode n, bool check) { |
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if (check) |
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{ |
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for (TNode c : n) |
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{ |
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c.getType(check); |
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} |
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} |
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return nodeManager->sExprType(); |
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} |
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};/* class SExprTypeRule */ |
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class UninterpretedConstantTypeRule { |
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public: |
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inline static TypeNode computeType(NodeManager* nodeManager, TNode n, bool check) { |
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return n.getConst<UninterpretedConstant>().getType(); |
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} |
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};/* class UninterpretedConstantTypeRule */ |
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class AbstractValueTypeRule { |
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public: |
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inline static TypeNode computeType(NodeManager* nodeManager, TNode n, bool check) { |
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// An UnknownTypeException means that this node has no type. For now, |
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// only abstract values are like this---and then, only if they are created |
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// by the user and don't actually correspond to one that the SmtEngine gave |
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// them previously. |
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throw UnknownTypeException(n); |
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} |
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};/* class AbstractValueTypeRule */ |
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class LambdaTypeRule { |
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public: |
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inline static TypeNode computeType(NodeManager* nodeManager, TNode n, bool check) { |
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if( n[0].getType(check) != nodeManager->boundVarListType() ) { |
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std::stringstream ss; |
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ss << "expected a bound var list for LAMBDA expression, got `" |
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<< n[0].getType().toString() << "'"; |
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throw TypeCheckingExceptionPrivate(n, ss.str()); |
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} |
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std::vector<TypeNode> argTypes; |
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for(TNode::iterator i = n[0].begin(); i != n[0].end(); ++i) { |
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argTypes.push_back((*i).getType()); |
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} |
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TypeNode rangeType = n[1].getType(check); |
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return nodeManager->mkFunctionType(argTypes, rangeType); |
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} |
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// computes whether a lambda is a constant value, via conversion to array representation |
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inline static bool computeIsConst(NodeManager* nodeManager, TNode n) |
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{ |
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Assert(n.getKind() == kind::LAMBDA); |
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//get array representation of this function, if possible |
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Node na = TheoryBuiltinRewriter::getArrayRepresentationForLambda(n); |
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if( !na.isNull() ){ |
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Assert(na.getType().isArray()); |
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Trace("lambda-const") << "Array representation for " << n << " is " << na << " " << na.getType() << std::endl; |
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// must have the standard bound variable list |
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Node bvl = NodeManager::currentNM()->getBoundVarListForFunctionType( n.getType() ); |
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if( bvl==n[0] ){ |
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//array must be constant |
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if( na.isConst() ){ |
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Trace("lambda-const") << "*** Constant lambda : " << n; |
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Trace("lambda-const") << " since its array representation : " << na << " is constant." << std::endl; |
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return true; |
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}else{ |
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Trace("lambda-const") << "Non-constant lambda : " << n << " since array is not constant." << std::endl; |
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} |
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}else{ |
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Trace("lambda-const") << "Non-constant lambda : " << n << " since its varlist is not standard." << std::endl; |
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Trace("lambda-const") << " standard : " << bvl << std::endl; |
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Trace("lambda-const") << " current : " << n[0] << std::endl; |
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} |
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}else{ |
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Trace("lambda-const") << "Non-constant lambda : " << n << " since it has no array representation." << std::endl; |
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} |
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return false; |
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} |
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};/* class LambdaTypeRule */ |
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class WitnessTypeRule |
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{ |
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public: |
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inline static TypeNode computeType(NodeManager* nodeManager, |
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TNode n, |
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bool check) |
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{ |
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if (n[0].getType(check) != nodeManager->boundVarListType()) |
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{ |
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std::stringstream ss; |
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ss << "expected a bound var list for WITNESS expression, got `" |
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<< n[0].getType().toString() << "'"; |
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throw TypeCheckingExceptionPrivate(n, ss.str()); |
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} |
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if (n[0].getNumChildren() != 1) |
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{ |
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std::stringstream ss; |
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ss << "expected a bound var list with one argument for WITNESS expression"; |
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throw TypeCheckingExceptionPrivate(n, ss.str()); |
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} |
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if (check) |
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{ |
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TypeNode rangeType = n[1].getType(check); |
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if (!rangeType.isBoolean()) |
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{ |
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std::stringstream ss; |
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ss << "expected a body of a WITNESS expression to have Boolean type"; |
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throw TypeCheckingExceptionPrivate(n, ss.str()); |
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} |
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} |
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// The type of a witness function is the type of its bound variable. |
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return n[0][0].getType(); |
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} |
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}; /* class WitnessTypeRule */ |
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class SortProperties { |
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public: |
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inline static bool isWellFounded(TypeNode type) { |
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return true; |
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} |
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static Node mkGroundTerm(TypeNode type); |
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};/* class SortProperties */ |
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class FunctionProperties { |
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public: |
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inline static Cardinality computeCardinality(TypeNode type) { |
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// Don't assert this; allow other theories to use this cardinality |
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// computation. |
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// |
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// Assert(type.getKind() == kind::FUNCTION_TYPE); |
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Cardinality argsCard(1); |
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// get the largest cardinality of function arguments/return type |
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for(unsigned i = 0, i_end = type.getNumChildren() - 1; i < i_end; ++i) { |
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argsCard *= type[i].getCardinality(); |
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} |
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Cardinality valueCard = type[type.getNumChildren() - 1].getCardinality(); |
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return valueCard ^ argsCard; |
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} |
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/** Function type is well-founded if its component sorts are */ |
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static bool isWellFounded(TypeNode type) |
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{ |
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for (TypeNode::iterator i = type.begin(), i_end = type.end(); i != i_end; |
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++i) |
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{ |
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if (!(*i).isWellFounded()) |
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{ |
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return false; |
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} |
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} |
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return true; |
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} |
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/** |
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* Ground term for function sorts is (lambda x. t) where x is the |
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* canonical variable list for its type and t is the canonical ground term of |
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* its range. |
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*/ |
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static Node mkGroundTerm(TypeNode type) |
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{ |
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NodeManager* nm = NodeManager::currentNM(); |
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Node bvl = nm->getBoundVarListForFunctionType(type); |
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Node ret = type.getRangeType().mkGroundTerm(); |
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return nm->mkNode(kind::LAMBDA, bvl, ret); |
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} |
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};/* class FuctionProperties */ |
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} // namespace builtin |
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} // namespace theory |
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} // namespace cvc5 |
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#endif /* CVC5__THEORY__BUILTIN__THEORY_BUILTIN_TYPE_RULES_H */ |