/* Copyright (c) 2013 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura */ #pragma once #include #include #include "util/buffer.h" #include "kernel/expr.h" #include "kernel/expr_sets.h" namespace lean { /** \brief Template for implementing expression visitors. The argument \c F must be a function object containing the method void operator()(expr const & e, unsigned offset) The \c offset is the number of binders under which \c e occurs. */ template class for_each_fn { std::unique_ptr m_visited; F m_f; static_assert(std::is_same::type, bool>::value, "for_each_fn: return type of m_f is not bool"); void apply(expr const & e, unsigned offset) { buffer> todo; todo.emplace_back(e, offset); while (true) { begin_loop: if (todo.empty()) break; auto p = todo.back(); todo.pop_back(); expr const & e = p.first; unsigned offset = p.second; if (!CacheAtomic) { switch (e.kind()) { case expr_kind::Constant: if (!const_type(e)) { // only constants without cached types are considered atomic m_f(e, offset); goto begin_loop; } break; case expr_kind::Type: case expr_kind::Value: case expr_kind::Var: case expr_kind::MetaVar: m_f(e, offset); goto begin_loop; default: break; } } if (is_shared(e)) { expr_cell_offset p(e.raw(), offset); if (!m_visited) m_visited.reset(new expr_cell_offset_set()); if (m_visited->find(p) != m_visited->end()) goto begin_loop; m_visited->insert(p); } if (!m_f(e, offset)) goto begin_loop; switch (e.kind()) { case expr_kind::Constant: if (const_type(e)) todo.emplace_back(const_type(e), offset); goto begin_loop; case expr_kind::Type: case expr_kind::Value: case expr_kind::Var: case expr_kind::MetaVar: goto begin_loop; case expr_kind::App: { auto it = end_args(e); auto begin = begin_args(e); while (it != begin) { --it; todo.emplace_back(*it, offset); } goto begin_loop; } case expr_kind::Eq: todo.emplace_back(eq_rhs(e), offset); todo.emplace_back(eq_lhs(e), offset); goto begin_loop; case expr_kind::Lambda: case expr_kind::Pi: todo.emplace_back(abst_body(e), offset + 1); todo.emplace_back(abst_domain(e), offset); goto begin_loop; case expr_kind::Let: todo.emplace_back(let_body(e), offset + 1); todo.emplace_back(let_value(e), offset); if (let_type(e)) todo.emplace_back(let_type(e), offset); goto begin_loop; } } } public: for_each_fn(F const & f):m_f(f) {} void operator()(expr const & e) { apply(e, 0); } }; }