lean2/src/kernel/replace_fn.cpp

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/*
Copyright (c) 2013 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Author: Leonardo de Moura
*/
#include "kernel/replace_fn.h"
namespace lean {
void replace_fn::save_result(expr const & e, expr const & r, unsigned offset, bool shared) {
if (shared)
m_cache.insert(std::make_pair(expr_cell_offset(e.raw(), offset), r));
m_post(e, r);
m_rs.push_back(r);
}
/**
\brief Visit \c e at the given offset. Return true iff the result is on the
result stack \c m_rs. Return false iff a new frame was pushed on the stack \c m_fs.
The idea is that after the frame is processed, the result will be on the result stack.
*/
bool replace_fn::visit(expr const & e, unsigned offset) {
bool shared = false;
if (is_shared(e)) {
expr_cell_offset p(e.raw(), offset);
auto it = m_cache.find(p);
if (it != m_cache.end()) {
m_rs.push_back(it->second);
return true;
}
shared = true;
}
optional<expr> r = m_f(e, offset);
if (r) {
save_result(e, *r, offset, shared);
return true;
} else if (is_atomic(e)) {
save_result(e, e, offset, shared);
return true;
} else {
m_fs.emplace_back(e, offset, shared);
return false;
}
}
/**
\brief Return true iff <tt>f.m_index == idx</tt>.
When the result is true, <tt>f.m_index</tt> is incremented.
*/
bool replace_fn::check_index(frame & f, unsigned idx) {
if (f.m_index == idx) {
f.m_index++;
return true;
} else {
return false;
}
}
expr const & replace_fn::rs(int i) {
lean_assert(i < 0);
return m_rs[m_rs.size() + i];
}
void replace_fn::pop_rs(unsigned num) {
m_rs.shrink(m_rs.size() - num);
}
expr replace_fn::operator()(expr const & e) {
expr r;
visit(e, 0);
while (!m_fs.empty()) {
begin_loop:
check_interrupted();
frame & f = m_fs.back();
expr const & e = f.m_expr;
unsigned offset = f.m_offset;
switch (e.kind()) {
case expr_kind::Constant: case expr_kind::Sort:
case expr_kind::Var:
lean_unreachable(); // LCOV_EXCL_LINE
case expr_kind::Meta: case expr_kind::Local:
if (check_index(f, 0) && !visit(mlocal_type(e), offset))
goto begin_loop;
r = update_mlocal(e, rs(-1));
pop_rs(1);
break;
case expr_kind::App:
if (check_index(f, 0) && !visit(app_fn(e), offset))
goto begin_loop;
if (check_index(f, 1) && !visit(app_arg(e), offset))
goto begin_loop;
r = update_app(e, rs(-2), rs(-1));
pop_rs(2);
break;
case expr_kind::Pi: case expr_kind::Lambda:
if (check_index(f, 0) && !visit(binding_domain(e), offset))
goto begin_loop;
if (check_index(f, 1) && !visit(binding_body(e), offset + 1))
goto begin_loop;
r = update_binding(e, rs(-2), rs(-1));
pop_rs(2);
break;
case expr_kind::Macro:
while (f.m_index < macro_num_args(e)) {
unsigned idx = f.m_index;
f.m_index++;
if (!visit(macro_arg(e, idx), offset))
goto begin_loop;
}
r = update_macro(e, macro_num_args(e), &rs(-macro_num_args(e)));
pop_rs(macro_num_args(e));
break;
}
save_result(e, r, offset, f.m_shared);
m_fs.pop_back();
}
lean_assert(m_rs.size() == 1);
r = m_rs.back();
m_rs.pop_back();
return r;
}
void replace_fn::clear() {
m_cache.clear();
m_fs.clear();
m_rs.clear();
}
}