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z3/src/muz/spacer/spacer_legacy_mev.h
Nikolaj Bjorner 5371315f4c remove simplify dependencies 
Signed-off-by: Nikolaj Bjorner <nbjorner@microsoft.com>
2017-08-26 00:57:44 -07:00

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/**
Copyright (c) 2017 Arie Gurfinkel
Deprecated implementation of model evaluator. To be removed.
*/
#ifndef OLD_MEV_H
#define OLD_MEV_H
#include "ast/ast.h"
#include "ast/ast_pp.h"
#include "util/obj_hashtable.h"
#include "util/ref_vector.h"
#include "util/trace.h"
#include "util/vector.h"
#include "ast/arith_decl_plugin.h"
#include "ast/array_decl_plugin.h"
#include "ast/bv_decl_plugin.h"
namespace old {
class model_evaluator {
ast_manager& m;
arith_util m_arith;
array_util m_array;
obj_map<expr, rational> m_numbers;
expr_ref_vector m_refs;
obj_map<expr, expr*> m_values;
model_ref m_model;
//00 -- non-visited
//01 -- X
//10 -- false
//11 -- true
expr_mark m1;
expr_mark m2;
/// used by collect()
expr_mark m_visited;
void reset();
/// caches the values of all constants in the given model
void setup_model(const model_ref& model);
/// caches the value of an expression
void assign_value(expr* e, expr* v);
/// extracts an implicant of the conjunction of formulas
void collect(ptr_vector<expr> const& formulas, ptr_vector<expr>& tocollect);
/// one-round of extracting an implicant of e. The implicant
/// literals are stored in tocollect. The worklist is stored in todo
void process_formula(app* e, ptr_vector<expr>& todo, ptr_vector<expr>& tocollect);
void eval_arith(app* e);
void eval_basic(app* e);
void eval_eq(app* e, expr* arg1, expr* arg2);
void eval_array_eq(app* e, expr* arg1, expr* arg2);
void inherit_value(expr* e, expr* v);
bool is_unknown(expr* x) { return !m1.is_marked(x) && !m2.is_marked(x); }
void set_unknown(expr* x) { m1.mark(x, false); m2.mark(x, false); }
bool is_x(expr* x) { return !m1.is_marked(x) && m2.is_marked(x); }
bool is_false(expr* x) { return m1.is_marked(x) && !m2.is_marked(x); }
bool is_true(expr* x) { return m1.is_marked(x) && m2.is_marked(x); }
void set_x(expr* x) { SASSERT(is_unknown(x)); m2.mark(x); }
void set_v(expr* x) { SASSERT(is_unknown(x)); m1.mark(x); }
void set_false(expr* x) { SASSERT(is_unknown(x)); m1.mark(x); }
void set_true(expr* x) { SASSERT(is_unknown(x)); m1.mark(x); m2.mark(x); }
void set_bool(expr* x, bool v) { if(v) { set_true(x); } else { set_false(x); } }
rational const& get_number(expr* x) const { return m_numbers.find(x); }
void set_number(expr* x, rational const& v)
{
set_v(x);
m_numbers.insert(x, v);
TRACE("spacer_verbose", tout << mk_pp(x, m) << " " << v << "\n";);
}
expr* get_value(expr* x) { return m_values.find(x); }
void set_value(expr* x, expr* v)
{ set_v(x); m_refs.push_back(v); m_values.insert(x, v); }
/// evaluates all sub-formulas and terms of the input in the current model.
/// Caches the result
void eval_fmls(ptr_vector<expr> const & formulas);
/// calls eval_fmls(). Then checks whether all formulas are
/// TRUE. Returns false if at lest one formula is unknown (X)
bool check_model(ptr_vector<expr> const & formulas);
bool extract_array_func_interp(expr* a, vector<expr_ref_vector>& stores,
expr_ref& else_case);
void eval_exprs(expr_ref_vector& es);
public:
model_evaluator(ast_manager& m) : m(m), m_arith(m), m_array(m), m_refs(m) {}
/**
\brief extract literals from formulas that satisfy formulas.
\pre model satisfies formulas
*/
void minimize_literals(ptr_vector<expr> const & formulas, const model_ref& mdl,
expr_ref_vector& result);
expr_ref eval_heavy(const model_ref& mdl, expr* fml);
expr_ref eval(const model_ref& mdl, expr* e);
expr_ref eval(const model_ref& mdl, func_decl* d);
};
}
#endif /* OLD_MEV_H */
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