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// generate_re2c.hpp
// Copyright (c) 2009 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_GENERATE_RE2C_HPP
#define LEXERTL_GENERATE_RE2C_HPP
#include "char_traits.hpp"
#include "consts.hpp"
#include "internals.hpp"
#include <iostream>
#include "runtime_error.hpp"
#include "size_t.hpp"
#include "state_machine.hpp"
#include <vector>
namespace boost
{
namespace lexer
{
// check whether state0_0 is referenced from any of the other states
template <typename Char>
bool need_label0_0(boost::lexer::basic_state_machine<Char> const &sm_)
{
typedef typename boost::lexer::basic_state_machine<Char>::iterator
iterator_type;
iterator_type iter_ = sm_.begin();
std::size_t states_ = iter_->states;
for (std::size_t state_ = 0; state_ < states_; ++state_)
{
if (0 == iter_->bol_index || 0 == iter_->eol_index)
{
return true;
}
std::size_t const transitions_ = iter_->transitions;
for (std::size_t t_ = 0; t_ < transitions_; ++t_)
{
if (0 == iter_->goto_state)
{
return true;
}
++iter_;
}
if (transitions_ == 0) ++iter_;
}
return false;
}
template<typename CharT>
void generate_re2c (const basic_state_machine<CharT> &state_machine_,
std::ostream &os_, const bool use_pointers_ = false,
const bool skip_unknown_ = true, const bool optimise_parameters_ = true,
const char *name_ = "next_token")
{
typedef typename boost::lexer::basic_string_token<CharT> string_token;
const detail::internals &sm_ = state_machine_.data ();
if (sm_._lookup->size () == 0)
{
throw runtime_error ("Cannot generate code from an empty "
"state machine");
}
std::string upper_name_ (__DATE__);
const std::size_t lookups_ = sm_._lookup->front ()->size ();
typename boost::lexer::basic_state_machine<CharT>::iterator iter_ =
state_machine_.begin();
typename boost::lexer::basic_state_machine<CharT>::iterator end_ =
state_machine_.end();
const std::size_t dfas_ = sm_._dfa->size ();
std::string::size_type pos_ = upper_name_.find (' ');
const char *iterator_ = 0;
if (use_pointers_)
{
if (lookups_ == 256)
{
iterator_ = "const char *";
}
else
{
iterator_ = "const wchar_t *";
}
}
else
{
iterator_ = "Iterator &";
}
while (pos_ != std::string::npos)
{
upper_name_.replace (pos_, 1, "_");
pos_ = upper_name_.find (' ', pos_);
}
upper_name_ += '_';
upper_name_ += __TIME__;
pos_ = upper_name_.find (':');
while (pos_ != std::string::npos)
{
upper_name_.erase (pos_, 1);
pos_ = upper_name_.find (':', pos_);
}
upper_name_ = '_' + upper_name_;
upper_name_ = name_ + upper_name_;
std::transform (upper_name_.begin (), upper_name_.end (),
upper_name_.begin (), ::toupper);
os_ << "#ifndef " << upper_name_ + '\n';
os_ << "#define " << upper_name_ + '\n';
os_ << "// Copyright (c) 2008-2009 Ben Hanson\n";
os_ << "//\n";
os_ << "// Distributed under the Boost Software License, "
"Version 1.0. (See accompanying\n";
os_ << "// file licence_1_0.txt or copy at "
"http://www.boost.org/LICENSE_1_0.txt)\n\n";
os_ << "// Auto-generated by boost::lexer\n";
os_ << "template<typename Iterator>\n";
os_ << "std::size_t " << name_ << " (";
if (dfas_ > 1 || !optimise_parameters_)
{
os_ << "std::size_t &start_state_, ";
}
if (use_pointers_)
{
os_ << iterator_ << " &";
}
else
{
os_ << iterator_;
}
os_ << "start_token_, ";
if (use_pointers_)
{
os_ << iterator_ << " const ";
}
else
{
os_ << "const " << iterator_;
}
os_ << "end_, \n";
os_ << " std::size_t &unique_id_";
if (sm_._seen_BOL_assertion || !optimise_parameters_)
{
os_ << ", bool &beg_of_line_";
}
os_ << ")\n";
os_ << "{\n";
os_ << " static const std::size_t npos = static_cast"
"<std::size_t>(~0);\n";
os_ << "\n if (start_token_ == end_)\n";
os_ << " {\n";
os_ << " unique_id_ = npos;\n";
os_ << " return 0;\n";
os_ << " }\n\n";
if (dfas_ > 1)
{
os_ << "again:\n";
}
os_ << " Iterator curr_ = start_token_;\n";
os_ << " bool end_state_ = false;\n";
os_ << " std::size_t id_ = npos;\n";
os_ << " std::size_t uid_ = npos;\n";
if (dfas_ > 1)
{
os_ << " std::size_t end_start_state_ = start_state_;\n";
}
if (sm_._seen_BOL_assertion)
{
os_ << " bool bol_ = beg_of_line_;\n";
os_ << " bool end_bol_ = bol_;\n";
}
os_ << " Iterator end_token_ = start_token_;\n";
os_ << '\n';
if (dfas_ > 1)
{
os_ << " switch (start_state_)\n";
os_ << " {\n";
for (std::size_t i_ = 0; i_ < dfas_; ++i_)
{
os_ << " case " << i_ << ":\n";
os_ << " goto " << i_ << "_0;\n";
os_ << " // Not needed, but to prevent warnings\n";
os_ << " break;\n";
}
os_ << " default:\n";
os_ << " throw std::runtime_error (\"Invalid start state!\")\n";
os_ << " break;\n";
os_ << " }\n\n";
}
os_ << " ";
if (lookups_ == 256)
{
os_ << "char";
}
else
{
os_ << "wchar_t";
}
os_ << " ch_ = 0;\n\n";
bool need_state0_0_label = need_label0_0(state_machine_);
for (std::size_t dfa_ = 0; dfa_ < dfas_; ++dfa_)
{
const std::size_t states_ = iter_->states;
for (std::size_t state_ = 0; state_ < states_; ++state_)
{
const std::size_t transitions_ = iter_->transitions;
std::size_t t_ = 0;
if (dfas_ > 1 || dfa_ != 0 || state_ != 0 || need_state0_0_label)
{
os_ << "state" << dfa_ << '_' << state_ << ":\n";
}
if (iter_->end_state)
{
os_ << " end_state_ = true;\n";
os_ << " id_ = " << iter_->id << ";\n";
os_ << " uid_ = " << iter_->unique_id << ";\n";
os_ << " end_token_ = curr_;\n";
if (dfas_ > 1)
{
os_ << " end_start_state_ = " << iter_->goto_dfa <<
";\n";
}
if (sm_._seen_BOL_assertion)
{
os_ << " end_bol_ = bol_;\n";
}
if (transitions_) os_ << '\n';
}
if (t_ < transitions_ || iter_->bol_index != boost::lexer::npos ||
iter_->eol_index != boost::lexer::npos)
{
os_ << " if (curr_ == end_) goto end;\n\n";
os_ << " ch_ = *curr_;\n";
if (iter_->bol_index != boost::lexer::npos)
{
os_ << "\n if (bol_) goto state" << dfa_ << '_' <<
iter_->bol_index << ";\n\n";
}
if (iter_->eol_index != boost::lexer::npos)
{
os_ << "\n if (ch_ == '\n') goto state" << dfa_ << '_' <<
iter_->eol_index << ";\n\n";
}
os_ << " ++curr_;\n";
}
for (; t_ < transitions_; ++t_)
{
const char *ptr_ = iter_->token._charset.c_str();
const char *end_ = ptr_ + iter_->token._charset.size();
char start_char_ = 0;
char curr_char_ = 0;
bool range_ = false;
bool first_char_ = true;
os_ << "\n if (";
while (ptr_ != end_)
{
curr_char_ = *ptr_++;
if (*ptr_ == curr_char_ + 1)
{
if (!range_)
{
start_char_ = curr_char_;
}
range_ = true;
}
else
{
if (!first_char_)
{
if (iter_->token._negated)
{
os_ << " && ";
}
else
{
os_ << " || ";
}
}
first_char_ = false;
if (range_)
{
typename string_token::string temp_;
if (iter_->token._negated)
{
os_ << "!";
}
string_token::escape_char (start_char_, temp_);
os_ << "(ch_ >= '" << temp_;
#if defined _MSC_VER && _MSC_VER <= 1200
temp_.erase ();
#else
temp_.clear ();
#endif
string_token::escape_char (curr_char_, temp_);
os_ << "' && ch_ <= '" << temp_ << "')";
range_ = false;
}
else
{
typename string_token::string temp_;
os_ << "ch_ ";
if (iter_->token._negated)
{
os_ << "!=";
}
else
{
os_ << "==";
}
string_token::escape_char (curr_char_, temp_);
os_ << " '" << temp_ << "'";
}
}
}
os_ << ") goto state" << dfa_ << '_' << iter_->goto_state <<
";\n\n";
++iter_;
}
if (!(dfa_ == dfas_ - 1 && state_ == states_ - 1))
{
os_ << " goto end;\n";
}
if (transitions_ == 0) ++iter_;
}
}
os_ << "end:\n";
os_ << " if (end_state_)\n";
os_ << " {\n";
os_ << " // return longest match\n";
if (dfas_ > 1)
{
os_ << " start_state_ = end_start_state_;\n";
}
if (sm_._seen_BOL_assertion && dfas_ < 2)
{
os_ << " beg_of_line_ = end_bol_;\n";
}
os_ << " start_token_ = end_token_;\n";
if (dfas_ > 1)
{
os_ << '\n';
os_ << " if (id_ == 0)\n";
os_ << " {\n";
if (sm_._seen_BOL_assertion)
{
os_ << " bol_ = end_bol_;\n";
}
os_ << " goto again;\n";
os_ << " }\n";
if (sm_._seen_BOL_assertion)
{
os_ << " else\n";
os_ << " {\n";
os_ << " beg_of_line_ = end_bol_;\n";
os_ << " }\n";
}
}
os_ << " }\n";
os_ << " else\n";
os_ << " {\n";
if (sm_._seen_BOL_assertion)
{
os_ << " beg_of_line_ = *start_token_ == '\\n';\n";
}
if (skip_unknown_)
{
os_ << " // No match causes char to be skipped\n";
os_ << " ++start_token_;\n";
}
os_ << " id_ = npos;\n";
os_ << " uid_ = npos;\n";
os_ << " }\n";
os_ << '\n';
os_ << " unique_id_ = uid_;\n";
os_ << " return id_;\n";
os_ << "}\n";
os_ << "\n#endif\n";
}
}
}
#endif