/usr/include/lexertl/debug.hpp is in libpuma-dev 1:1.1+svn20120529-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// Copyright (c) 2005-2011 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_DEBUG_HPP
#define LEXERTL_DEBUG_HPP
#include <map>
#include <ostream>
#include "rules.hpp"
#include "size_t.hpp"
#include "state_machine.hpp"
#include "string_token.hpp"
#include <vector>
namespace lexertl
{
template<typename sm, typename char_type, typename id_type = std::size_t,
bool is_dfa = true>
class basic_debug
{
public:
typedef lexertl::basic_char_state_machine<char_type, id_type, is_dfa>
char_state_machine;
typedef std::basic_ostream<char_type> ostream;
typedef lexertl::basic_rules<char_type, id_type> rules;
typedef std::basic_string<char_type> string;
static void dump (const sm &sm_, rules &rules_, ostream &stream_)
{
char_state_machine csm_;
sm_to_csm (sm_, csm_);
dump (csm_, rules_, stream_);
}
static void dump (const sm &sm_, ostream &stream_)
{
char_state_machine csm_;
sm_to_csm (sm_, csm_);
dump (csm_, stream_);
}
static void dump (const char_state_machine &csm_, rules &rules_,
ostream &stream_)
{
for (std::size_t dfa_ = 0, dfas_ = csm_.size (); dfa_ < dfas_; ++dfa_)
{
lexer_state (stream_);
stream_ << rules_.state (dfa_) << std::endl << std::endl;
dump_ex (csm_._sm_deque[dfa_], stream_);
}
}
static void dump (const char_state_machine &csm_, ostream &stream_)
{
for (std::size_t dfa_ = 0, dfas_ = csm_.size (); dfa_ < dfas_; ++dfa_)
{
lexer_state (stream_);
stream_ << dfa_ << std::endl << std::endl;
dump_ex (csm_._sm_deque[dfa_], stream_);
}
}
protected:
typedef typename char_state_machine::state dfa_state;
typedef typename dfa_state::string_token string_token;
typedef std::basic_stringstream<char_type> stringstream;
static void sm_to_csm (const sm &sm_, char_state_machine &csm_)
{
const detail::basic_internals<id_type> &internals_ = sm_.data ();
const std::size_t dfas_ = internals_._dfa->size ();
for (id_type i_ = 0; i_ < dfas_; ++i_)
{
const std::size_t alphabet_ = internals_._dfa_alphabet[i_] -
transitions_index;
typename char_state_machine::string_token_vector token_vector_
(alphabet_, string_token ());
id_type *ptr_ = &internals_._lookup[i_]->front ();
for (std::size_t c_ = 0; c_ < 256; ++c_, ++ptr_)
{
if (*ptr_ >= transitions_index)
{
string_token &token_ = token_vector_
[*ptr_ - transitions_index];
token_.insert (typename string_token::range
(typename string_token::index_type (c_),
typename string_token::index_type (c_)));
}
}
csm_.append (token_vector_, internals_, i_);
}
}
static void dump_ex (const typename char_state_machine::dfa &dfa_,
ostream &stream_)
{
const std::size_t states_ = dfa_._states.size ();
const id_type bol_index_ = dfa_._bol_index;
typename dfa_state::id_type_string_token_map::const_iterator iter_;
typename dfa_state::id_type_string_token_map::const_iterator end_;
for (std::size_t i_ = 0; i_ < states_; ++i_)
{
const dfa_state &state_ = dfa_._states[i_];
state (stream_);
stream_ << i_ << std::endl;
if (state_._end_state)
{
end_state (stream_);
if (state_._push_pop_dfa == dfa_state::push_dfa)
{
push (stream_);
stream_ << state_._push_dfa;
}
else if (state_._push_pop_dfa == dfa_state::pop_dfa)
{
pop (stream_);
}
id (stream_);
stream_ << static_cast<std::size_t>(state_._id);
user_id (stream_);
stream_ << static_cast<std::size_t>(state_._user_id);
dfa (stream_);
stream_ << static_cast<std::size_t>(state_._next_dfa);
stream_ << std::endl;
}
if (i_ == 0 && bol_index_ != char_state_machine::npos ())
{
bol (stream_);
stream_ << static_cast<std::size_t>(bol_index_) << std::endl;
}
if (state_._eol_index != char_state_machine::npos ())
{
eol (stream_);
stream_ << static_cast<std::size_t>(state_._eol_index) <<
std::endl;
}
iter_ = state_._transitions.begin ();
end_ = state_._transitions.end ();
for (; iter_ != end_; ++iter_)
{
if (iter_->second.any ())
{
any (stream_);
}
else
{
string_token token_ = iter_->second;
open_bracket (stream_);
if (iter_->second.negatable ())
{
token_.negate ();
negated (stream_);
}
string chars_;
typename string_token::range_vector::const_iterator
ranges_iter_ = token_._ranges.begin ();
typename string_token::range_vector::const_iterator
ranges_end_ = token_._ranges.end ();
for (; ranges_iter_ != ranges_end_; ++ranges_iter_)
{
if (ranges_iter_->first == '^' ||
ranges_iter_->first == ']')
{
stream_ << '\\';
}
chars_ = string_token::escape_char
(ranges_iter_->first);
if (ranges_iter_->first != ranges_iter_->second)
{
if (ranges_iter_->first + 1 < ranges_iter_->second)
{
chars_ += '-';
}
if (ranges_iter_->second == '^' ||
ranges_iter_->second == ']')
{
stream_ << '\\';
}
chars_ += string_token::escape_char
(ranges_iter_->second);
}
stream_ << chars_;
}
close_bracket (stream_);
}
stream_ << static_cast<std::size_t>(iter_->first) <<
std::endl;
}
stream_ << std::endl;
}
}
static void lexer_state (std::ostream &stream_)
{
stream_ << "Lexer state: ";
}
static void lexer_state (std::wostream &stream_)
{
stream_ << L"Lexer state: ";
}
static void state (std::ostream &stream_)
{
stream_ << "State: ";
}
static void state (std::wostream &stream_)
{
stream_ << L"State: ";
}
static void bol (std::ostream &stream_)
{
stream_ << " BOL -> ";
}
static void bol (std::wostream &stream_)
{
stream_ << L" BOL -> ";
}
static void eol (std::ostream &stream_)
{
stream_ << " EOL -> ";
}
static void eol (std::wostream &stream_)
{
stream_ << L" EOL -> ";
}
static void end_state (std::ostream &stream_)
{
stream_ << " END STATE";
}
static void end_state (std::wostream &stream_)
{
stream_ << L" END STATE";
}
static void id (std::ostream &stream_)
{
stream_ << ", Id = ";
}
static void id (std::wostream &stream_)
{
stream_ << L", Id = ";
}
static void push (std::ostream &stream_)
{
stream_ << ", PUSH ";
}
static void push (std::wostream &stream_)
{
stream_ << L", PUSH ";
}
static void pop (std::ostream &stream_)
{
stream_ << ", POP";
}
static void pop (std::wostream &stream_)
{
stream_ << L", POP";
}
static void user_id (std::ostream &stream_)
{
stream_ << ", User Id = ";
}
static void user_id (std::wostream &stream_)
{
stream_ << L", User Id = ";
}
static void any (std::ostream &stream_)
{
stream_ << " . -> ";
}
static void any (std::wostream &stream_)
{
stream_ << L" . -> ";
}
static void open_bracket (std::ostream &stream_)
{
stream_ << " [";
}
static void open_bracket (std::wostream &stream_)
{
stream_ << L" [";
}
static void negated (std::ostream &stream_)
{
stream_ << "^";
}
static void negated (std::wostream &stream_)
{
stream_ << L"^";
}
static void close_bracket (std::ostream &stream_)
{
stream_ << "] -> ";
}
static void close_bracket (std::wostream &stream_)
{
stream_ << L"] -> ";
}
static void dfa (std::ostream &stream_)
{
stream_ << ", dfa = ";
}
static void dfa (std::wostream &stream_)
{
stream_ << L", dfa = ";
}
};
typedef basic_debug<basic_state_machine<char>, char> debug;
typedef basic_debug<basic_state_machine<wchar_t>, wchar_t> wdebug;
}
#endif
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