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/********************* */
/*! \file ambqi_builder.h
** \verbatim
** Original author: Andrew Reynolds
** Major contributors: none
** Minor contributors (to current version): none
** This file is part of the CVC4 project.
** Copyright (c) 2009-2013 New York University and The University of Iowa
** See the file COPYING in the top-level source directory for licensing
** information.\endverbatim
**
** \brief Abstract MBQI model builder class
**/
#include "cvc4_private.h"
#ifndef ABSTRACT_MBQI_BUILDER
#define ABSTRACT_MBQI_BUILDER
#include "theory/quantifiers/model_builder.h"
#include "theory/quantifiers/first_order_model.h"
namespace CVC4 {
namespace theory {
namespace quantifiers {
class FirstOrderModelAbs;
//representiation of function and term interpretations
class AbsDef
{
private:
bool addInstantiations( FirstOrderModelAbs * m, QuantifiersEngine * qe, TNode q, std::vector< Node >& terms, int& inst, unsigned depth );
void construct_compose( FirstOrderModelAbs * m, TNode q, TNode n, AbsDef * f,
std::map< unsigned, AbsDef * >& children,
std::map< unsigned, int >& bchildren, std::map< unsigned, int >& vchildren,
std::vector< unsigned >& entry, std::vector< bool >& entry_def );
void construct_entry( std::vector< unsigned >& entry, std::vector< bool >& entry_def, int v, unsigned depth = 0 );
void construct_def_entry( FirstOrderModelAbs * m, TNode n, int v, unsigned depth = 0 );
void apply_ucompose( FirstOrderModelAbs * m, TNode q,
std::vector< unsigned >& entry, std::vector< bool >& entry_def, std::vector< int >& terms,
std::map< unsigned, int >& vchildren, AbsDef * a, unsigned depth = 0 );
void construct_var_eq( FirstOrderModelAbs * m, TNode q, unsigned v1, unsigned v2, int curr, int currv, unsigned depth = 0 );
void construct_var( FirstOrderModelAbs * m, TNode q, unsigned v, int currv, unsigned depth = 0 );
void get_defs( unsigned u, std::vector< AbsDef * >& defs );
void construct_normalize( FirstOrderModelAbs * m, TNode q, std::vector< AbsDef * >& defs, unsigned depth = 0 );
public:
enum {
val_none = -1,
val_unk = -2,
};
AbsDef() : d_default( 0 ), d_value( -1 ){}
std::map< unsigned, AbsDef > d_def;
unsigned d_default;
int d_value;
void clear() { d_def.clear(); d_default = 0; d_value = -1; }
AbsDef * getDefault() { return &d_def[d_default]; }
void construct_func( FirstOrderModelAbs * m, std::vector< TNode >& fapps, unsigned depth = 0 );
void debugPrintUInt( const char * c, unsigned dSize, unsigned u ) const;
void debugPrint( const char * c, FirstOrderModelAbs * m, TNode f, unsigned depth = 0 ) const;
void simplify( FirstOrderModelAbs * m, TNode q, unsigned depth = 0 );
int addInstantiations( FirstOrderModelAbs * m, QuantifiersEngine * qe, Node q, int& inst ){
std::vector< Node > terms;
return addInstantiations( m, qe, q, terms, inst, 0 );
}
bool construct( FirstOrderModelAbs * m, TNode q, TNode n, AbsDef * f,
std::map< unsigned, AbsDef * >& children,
std::map< unsigned, int >& bchildren,
std::map< unsigned, int >& vchildren,
int varChCount );
Node getFunctionValue( FirstOrderModelAbs * m, TNode op, std::vector< Node >& vars, unsigned depth = 0 );
static bool isSimple( unsigned n );
static unsigned getId( unsigned n, unsigned start=0 );
Node evaluate( FirstOrderModelAbs * m, TypeNode retType, std::vector< Node >& args );
Node evaluate( FirstOrderModelAbs * m, TypeNode retType, std::vector< unsigned >& iargs, unsigned depth = 0 );
};
class AbsMbqiBuilder : public QModelBuilder
{
friend class AbsDef;
private:
Node d_true;
Node d_false;
bool doCheck( FirstOrderModelAbs * m, TNode q, AbsDef & ad, TNode n );
public:
AbsMbqiBuilder( context::Context* c, QuantifiersEngine* qe );
//process build model
void processBuildModel(TheoryModel* m, bool fullModel);
//do exhaustive instantiation
bool doExhaustiveInstantiation( FirstOrderModel * fm, Node q, int effort );
};
}
}
}
#endif
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