z3-z3-4.13.0.src.ast.expr2var.cpp Maven / Gradle / Ivy
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/*++
Copyright (c) 2011 Microsoft Corporation
Module Name:
expr2var.h
Abstract:
The mapping between Z3 expressions and (low level) variables.
Example of low level variables:
- SAT solver
- Polynomial
- etc.
Author:
Leonardo (leonardo) 2011-12-23
Notes:
--*/
#include "ast/expr2var.h"
#include "ast/ast_smt2_pp.h"
#include "util/ref_util.h"
void expr2var::insert(expr * n, var v) {
if (!is_uninterp_const(n)) {
TRACE("expr2var", tout << "interpreted:\n" << mk_ismt2_pp(n, m()) << "\n";);
m_interpreted_vars = true;
}
unsigned idx = m_id2map.get(n->get_id(), UINT_MAX);
if (idx == UINT_MAX) {
m().inc_ref(n);
idx = m_mapping.size();
m_mapping.push_back(key_value(n, v));
m_id2map.setx(n->get_id(), idx, UINT_MAX);
}
else {
m_mapping[idx] = key_value(n, v);
}
m_recent_exprs.push_back(n);
}
expr2var::expr2var(ast_manager & m):
m_manager(m),
m_interpreted_vars(false) {
}
expr2var::~expr2var() {
for (auto & kv : m_mapping) {
m().dec_ref(kv.m_key);
}
}
expr2var::var expr2var::to_var(expr * n) const {
var v = m_id2map.get(n->get_id(), UINT_MAX);
if (v != UINT_MAX) {
v = m_mapping[v].m_value;
}
return v;
}
void expr2var::display(std::ostream & out) const {
for (auto const& kv : m_mapping) {
out << mk_ismt2_pp(kv.m_key, m()) << " -> " << kv.m_value << "\n";
}
}
void expr2var::mk_inv(expr_ref_vector & var2expr) const {
for (auto & kv : m_mapping) {
expr * t = kv.m_key;
var x = kv.m_value;
if (x >= var2expr.size())
var2expr.resize(x+1, nullptr);
var2expr.set(x, t);
}
}
void expr2var::reset() {
for (auto & kv : m_mapping) {
m().dec_ref(kv.m_key);
}
m_mapping.reset();
m_id2map.reset();
m_recent_exprs.reset();
m_recent_lim.reset();
m_interpreted_vars = false;
}
void expr2var::push() {
m_recent_lim.push_back(m_recent_exprs.size());
}
void expr2var::pop(unsigned num_scopes) {
if (num_scopes > 0) {
unsigned sz = m_recent_lim[m_recent_lim.size() - num_scopes];
for (unsigned i = sz; i < m_recent_exprs.size(); ++i) {
expr* n = m_recent_exprs[i];
unsigned idx = m_id2map[n->get_id()];
if (idx + 1 != m_mapping.size()) {
m_id2map[m_mapping.back().m_key->get_id()] = idx;
m_mapping[idx] = m_mapping.back();
}
m_id2map[n->get_id()] = UINT_MAX;
m_mapping.pop_back();
m().dec_ref(n);
}
m_recent_exprs.shrink(sz);
m_recent_lim.shrink(m_recent_lim.size() - num_scopes);
}
}