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z3/src/sat/smt/q_clause.h
Nikolaj Bjorner 842e8057bc log also quantifier generation (besides binding) 
We add also logging for quantifier generation.
It is auxiliary information that is of use for diagnostics (axiom profiler).
2022-10-20 17:49:15 -07:00

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/*++
Copyright (c) 2020 Microsoft Corporation
Module Name:
q_clause.h
Abstract:
Literals, clauses, justifications for quantifier instantiation
Author:
Nikolaj Bjorner (nbjorner) 2021-01-24
--*/
#pragma once
#include "util/dlist.h"
#include "ast/ast.h"
#include "ast/quantifier_stat.h"
#include "ast/euf/euf_enode.h"
#include "sat/smt/euf_solver.h"
namespace q {
struct lit {
expr_ref lhs;
expr_ref rhs;
bool sign;
lit(expr_ref const& lhs, expr_ref const& rhs, bool sign):
lhs(lhs), rhs(rhs), sign(sign) {
SASSERT(!rhs.m().is_false(rhs) || !sign);
}
std::ostream& display(std::ostream& out) const;
};
struct binding;
struct clause {
unsigned m_index;
vector<lit> m_lits;
quantifier_ref m_q;
unsigned m_watch = 0;
sat::literal m_literal = sat::null_literal;
q::quantifier_stat* m_stat = nullptr;
binding* m_bindings = nullptr;
clause(ast_manager& m, unsigned idx) : m_index(idx), m_q(m) {}
std::ostream& display(euf::solver& ctx, std::ostream& out) const;
lit const& operator[](unsigned i) const { return m_lits[i]; }
lit& operator[](unsigned i) { return m_lits[i]; }
unsigned size() const { return m_lits.size(); }
unsigned num_decls() const { return m_q->get_num_decls(); }
unsigned index() const { return m_index; }
quantifier* q() const { return m_q; }
};
struct binding : public dll_base<binding> {
clause* c;
app* m_pattern;
unsigned m_max_generation;
unsigned m_min_top_generation;
unsigned m_max_top_generation;
euf::enode* m_nodes[0];
binding(clause& c, app* pat, unsigned max_generation, unsigned min_top, unsigned max_top):
c(&c),
m_pattern(pat),
m_max_generation(max_generation),
m_min_top_generation(min_top),
m_max_top_generation(max_top) {}
euf::enode* const* nodes() { return m_nodes; }
euf::enode* operator[](unsigned i) const { return m_nodes[i]; }
std::ostream& display(euf::solver& ctx, std::ostream& out) const;
unsigned size() const { return c->num_decls(); }
quantifier* q() const { return c->m_q; }
bool eq(binding const& other) const {
if (q() != other.q())
return false;
for (unsigned i = size(); i-- > 0; )
if ((*this)[i] != other[i])
return false;
return true;
}
};
struct binding_khasher {
unsigned operator()(binding const* f) const { return f->q()->get_id(); }
};
struct binding_chasher {
unsigned operator()(binding const* f, unsigned idx) const { return f->m_nodes[idx]->hash(); }
};
struct binding_hash_proc {
unsigned operator()(binding const* f) const {
return get_composite_hash<binding*, binding_khasher, binding_chasher>(const_cast<binding*>(f), f->size());
}
};
struct binding_eq_proc {
bool operator()(binding const* a, binding const* b) const { return a->eq(*b); }
};
typedef ptr_hashtable<binding, binding_hash_proc, binding_eq_proc> bindings;
inline std::ostream& operator<<(std::ostream& out, binding const& f) {
out << "[fp " << f.q()->get_id() << ":";
for (unsigned i = 0; i < f.size(); ++i)
out << " " << f[i]->get_expr_id();
return out << "]";
}
struct justification {
expr* m_lhs, * m_rhs;
bool m_sign;
unsigned m_generation;
unsigned m_num_ex;
size_t** m_explain;
clause& m_clause;
euf::enode* const* m_binding;
justification(lit const& l, clause& c, euf::enode* const* b, unsigned generation, unsigned n, size_t** ev) :
m_lhs(l.lhs), m_rhs(l.rhs), m_sign(l.sign), m_generation(generation), m_num_ex(n), m_explain(ev), m_clause(c), m_binding(b) {}
sat::ext_constraint_idx to_index() const {
return sat::constraint_base::mem2base(this);
}
static justification& from_index(size_t idx) {
return *reinterpret_cast<justification*>(sat::constraint_base::from_index(idx)->mem());
}
static size_t get_obj_size() { return sat::constraint_base::obj_size(sizeof(justification)); }
};
}
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