yacreader/YACReaderLibrary/lexertl/parser/tree/node.hpp

// node.hpp
// Copyright (c) 2005-2018 Ben Hanson (http://www.benhanson.net/)
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file licence_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef LEXERTL_NODE_HPP
#define LEXERTL_NODE_HPP

#include <assert.h>
#include <memory>
#include "../../observer_ptr.hpp"
#include "../../runtime_error.hpp"
#include <stack>
#include <vector>

namespace lexertl
{
namespace detail
{
template<typename id_type>
class basic_node
{
public:
    enum node_type {LEAF, SEQUENCE, SELECTION, ITERATION, END};

    using bool_stack = std::stack<bool>;
    using node_stack = std::stack<observer_ptr<basic_node>>;
    using const_node_stack = std::stack<observer_ptr<const basic_node>>;
    using node_vector = std::vector<observer_ptr<basic_node>>;
    using node_ptr_vector = std::vector<std::unique_ptr<basic_node>>;

    basic_node() :
        _nullable(false),
        _firstpos(),
        _lastpos()
    {
    }

    basic_node(const bool nullable_) :
        _nullable(nullable_),
        _firstpos(),
        _lastpos()
    {
    }

    virtual ~basic_node()
    {
    }

    static id_type null_token()
    {
        return static_cast<id_type>(~0);
    }

    bool nullable() const
    {
        return _nullable;
    }

    void append_firstpos(node_vector &firstpos_) const
    {
        firstpos_.insert(firstpos_.end(),
            _firstpos.begin(), _firstpos.end());
    }

    void append_lastpos(node_vector &lastpos_) const
    {
        lastpos_.insert(lastpos_.end(),
            _lastpos.begin(), _lastpos.end());
    }

    virtual void append_followpos(const node_vector &/*followpos_*/)
    {
        throw runtime_error("Internal error node::append_followpos().");
    }

    observer_ptr<basic_node> copy(node_ptr_vector &node_ptr_vector_) const
    {
        observer_ptr<basic_node> new_root_ = nullptr;
        const_node_stack node_stack_;
        bool_stack perform_op_stack_;
        bool down_ = true;
        node_stack new_node_stack_;

        node_stack_.push(this);

        while (!node_stack_.empty())
        {
            while (down_)
            {
                down_ = node_stack_.top()->traverse(node_stack_,
                    perform_op_stack_);
            }

            while (!down_ && !node_stack_.empty())
            {
                observer_ptr<const basic_node> top_ = node_stack_.top();

                top_->copy_node(node_ptr_vector_, new_node_stack_,
                    perform_op_stack_, down_);

                if (!down_) node_stack_.pop();
            }
        }

        assert(new_node_stack_.size() == 1);
        new_root_ = new_node_stack_.top();
        new_node_stack_.pop();
        return new_root_;
    }

    virtual node_type what_type() const = 0;

    virtual bool traverse(const_node_stack &node_stack_,
        bool_stack &perform_op_stack_) const = 0;

    node_vector &firstpos()
    {
        return _firstpos;
    }

    const node_vector &firstpos() const
    {
        return _firstpos;
    }

    // _lastpos modified externally, so not const &
    node_vector &lastpos()
    {
        return _lastpos;
    }

    virtual bool end_state() const
    {
        return false;
    }

    virtual id_type id() const
    {
        throw runtime_error("Internal error node::id().");
#ifdef __SUNPRO_CC
        // Stop bogus Solaris compiler warning
        return id_type();
#endif
    }

    virtual id_type user_id() const
    {
        throw runtime_error("Internal error node::user_id().");
#ifdef __SUNPRO_CC
        // Stop bogus Solaris compiler warning
        return id_type();
#endif
    }

    virtual id_type next_dfa() const
    {
        throw runtime_error("Internal error node::next_dfa().");
#ifdef __SUNPRO_CC
        // Stop bogus Solaris compiler warning
        return id_type();
#endif
    }

    virtual id_type push_dfa() const
    {
        throw runtime_error("Internal error node::push_dfa().");
#ifdef __SUNPRO_CC
        // Stop bogus Solaris compiler warning
        return id_type();
#endif
    }

    virtual bool pop_dfa() const
    {
        throw runtime_error("Internal error node::pop_dfa().");
#ifdef __SUNPRO_CC
        // Stop bogus Solaris compiler warning
        return false;
#endif
    }

    virtual id_type token() const
    {
        throw runtime_error("Internal error node::token().");
#ifdef __SUNPRO_CC
        // Stop bogus Solaris compiler warning
        return id_type();
#endif
    }

    virtual void greedy(const bool /*greedy_*/)
    {
        throw runtime_error("Internal error node::greedy(bool).");
    }

    virtual bool greedy() const
    {
        throw runtime_error("Internal error node::greedy().");
#ifdef __SUNPRO_CC
        // Stop bogus Solaris compiler warning
        return false;
#endif
    }

    virtual const node_vector &followpos() const
    {
        throw runtime_error("Internal error node::followpos().");
#ifdef __SUNPRO_CC
        // Stop bogus Solaris compiler warning
        return firstpos;
#endif
    }

    virtual node_vector &followpos()
    {
        throw runtime_error("Internal error node::followpos().");
#ifdef __SUNPRO_CC
        // Stop bogus Solaris compiler warning
        return firstpos;
#endif
    }

protected:
    const bool _nullable;
    node_vector _firstpos;
    node_vector _lastpos;

    virtual void copy_node(node_ptr_vector &node_ptr_vector_,
        node_stack &new_node_stack_, bool_stack &perform_op_stack_,
        bool &down_) const = 0;

private:
    // No copy construction.
    basic_node(const basic_node &) = delete;
    // No assignment.
    const basic_node &operator =(const basic_node &) = delete;
};
}
}

#endif