z3-z3-4.13.0.src.smt.theory_fpa.h Maven / Gradle / Ivy
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/*++
Copyright (c) 2014 Microsoft Corporation
Module Name:
theory_fpa.h
Abstract:
Floating-Point Theory Plugin
Author:
Christoph (cwinter) 2014-04-23
Revision History:
--*/
#pragma once
#include "smt/smt_theory.h"
#include "util/trail.h"
#include "ast/fpa/fpa2bv_converter.h"
#include "ast/fpa/fpa2bv_rewriter.h"
#include "ast/rewriter/th_rewriter.h"
#include "model/fpa_factory.h"
#include "smt/smt_model_generator.h"
namespace smt {
class theory_fpa : public theory {
protected:
class fpa_value_proc : public model_value_proc {
protected:
theory_fpa & m_th;
ast_manager & m;
fpa_util & m_fu;
bv_util & m_bu;
buffer m_deps;
unsigned m_ebits;
unsigned m_sbits;
public:
fpa_value_proc(theory_fpa * th, unsigned ebits, unsigned sbits) :
m_th(*th), m(th->get_manager()), m_fu(th->m_fpa_util), m_bu(th->m_bv_util),
m_ebits(ebits), m_sbits(sbits) {}
void add_dependency(enode * e) { m_deps.push_back(model_value_dependency(e)); }
void get_dependencies(buffer & result) override {
result.append(m_deps);
}
app * mk_value(model_generator & mg, expr_ref_vector const & values) override;
};
class fpa_rm_value_proc : public model_value_proc {
theory_fpa & m_th;
ast_manager & m;
fpa_util & m_fu;
bv_util & m_bu;
buffer m_deps;
public:
fpa_rm_value_proc(theory_fpa * th) :
m_th(*th), m(th->get_manager()), m_fu(th->m_fpa_util), m_bu(th->m_bv_util) { (void) m_th; }
void add_dependency(enode * e) { m_deps.push_back(model_value_dependency(e)); }
void get_dependencies(buffer & result) override {
result.append(m_deps);
}
app * mk_value(model_generator & mg, expr_ref_vector const & values) override;
};
protected:
th_rewriter m_th_rw;
fpa2bv_converter_wrapped m_converter;
fpa2bv_rewriter m_rw;
trail_stack m_trail_stack;
fpa_value_factory * m_factory;
fpa_util & m_fpa_util;
bv_util & m_bv_util;
arith_util & m_arith_util;
obj_map m_conversions;
bool m_is_initialized;
obj_hashtable m_is_added_to_model;
final_check_status final_check_eh() override;
bool internalize_atom(app * atom, bool gate_ctx) override;
bool internalize_term(app * term) override;
void apply_sort_cnstr(enode * n, sort * s) override;
void new_eq_eh(theory_var, theory_var) override;
void new_diseq_eh(theory_var, theory_var) override;
void push_scope_eh() override;
void pop_scope_eh(unsigned num_scopes) override;
void reset_eh() override;
theory* mk_fresh(context* new_ctx) override;
char const * get_name() const override { return "fpa"; }
model_value_proc * mk_value(enode * n, model_generator & mg) override;
void assign_eh(bool_var v, bool is_true) override;
void relevant_eh(app * n) override;
void init_model(model_generator & m) override;
void finalize_model(model_generator & mg) override;
public:
theory_fpa(context& ctx);
~theory_fpa() override;
void display(std::ostream & out) const override;
protected:
expr_ref mk_side_conditions();
expr_ref convert(expr * e);
void attach_new_th_var(enode * n);
void assert_cnstr(expr * e);
enode* ensure_enode(expr* e);
enode* get_root(expr* a) { return ensure_enode(a)->get_root(); }
app* get_ite_value(expr* e);
};
};