/** * Generic tokenizer. * Splits source into tokens and tries to lexically cast them to TARGET. * If that fails, boost::bad_lexical_cast is thrown. * \param source the source string to be split up * \param separator regular expression to delimit the tokens (defaults to \\s+) * \param prefix regular expression for text to be removed from the string before it is split up * ("^" if not given, will be added at the beginning) * \param postfix regular expression for text to be removed from the string before it is split up * ("$" if not given, will be added at the end) * \returns a list of the casted tokens */ template<typename TARGET> std::list<TARGET> stringToList( std::string source, const boost::regex &separator, boost::regex prefix, boost::regex postfix ) { std::list<TARGET> ret; assert( ! separator.empty() ); if ( ! prefix.empty() ) { if ( prefix.str()[0] != '^' ) prefix = boost::regex( std::string( "^" ) + prefix.str(), prefix.flags() ); source = boost::regex_replace( source, prefix, "", boost::format_first_only | boost::match_default ); } if ( ! postfix.empty() ) { if ( postfix.str()[postfix.size() - 1] != '$' ) postfix = boost::regex( postfix.str() + "$", postfix.flags() ); source = boost::regex_replace( source, postfix, "", boost::format_first_only | boost::match_default ); } boost::sregex_token_iterator i = boost::make_regex_token_iterator( source, separator, -1 ); const boost::sregex_token_iterator token_end; while ( i != token_end ) { ret.push_back( boost::lexical_cast<TARGET>( ( i++ )->str() ) ); } return ret; }
bool operator()(const boost::regex& r) const { try { return !r.empty() && boost::regex_search(str, r); } catch(const std::runtime_error&) { // most likely a stack overflow, ignore... return false; } }
void bcp_implementation::copy_path(const fs::path& p) { assert(!fs::is_directory(m_boost_path / p)); if(fs::exists(m_dest_path / p)) { std::cout << "Copying (and overwriting) file: " << p.string() << "\n"; fs::remove(m_dest_path / p); } else std::cout << "Copying file: " << p.string() << "\n"; // // create the path to the new file if it doesn't already exist: // create_path(p.branch_path()); // // do text based copy if requested: // if(p.leaf() == "Jamroot") { static std::vector<char> v1, v2; v1.clear(); v2.clear(); std::ifstream is((m_boost_path / p).c_str()); std::copy(std::istreambuf_iterator<char>(is), std::istreambuf_iterator<char>(), std::back_inserter(v1)); static boost::regex libname_matcher; if(libname_matcher.empty()) { libname_matcher.assign("boost_"); } regex_replace(std::back_inserter(v2), v1.begin(), v1.end(), libname_matcher, m_namespace_name + "_"); std::swap(v1, v2); v2.clear(); std::ofstream os; if(m_unix_lines) os.open((m_dest_path / p).c_str(), std::ios_base::binary | std::ios_base::out); else os.open((m_dest_path / p).c_str(), std::ios_base::out); os.write(&*v1.begin(), v1.size()); os.close(); } else if(m_namespace_name.size() && m_lib_names.size() && is_jam_file(p)) { static std::vector<char> v1, v2; v1.clear(); v2.clear(); std::ifstream is((m_boost_path / p).c_str()); std::copy(std::istreambuf_iterator<char>(is), std::istreambuf_iterator<char>(), std::back_inserter(v1)); static boost::regex libname_matcher; if(libname_matcher.empty()) { std::string re = "\\<"; re += *m_lib_names.begin(); for(std::set<std::string>::const_iterator i = ++m_lib_names.begin(); i != m_lib_names.end(); ++i) { re += "|" + *i; } re += "\\>"; libname_matcher.assign(re); } regex_replace(std::back_inserter(v2), v1.begin(), v1.end(), libname_matcher, get_new_library_name(m_namespace_name)); std::swap(v1, v2); v2.clear(); std::ofstream os; if(m_unix_lines) os.open((m_dest_path / p).c_str(), std::ios_base::binary | std::ios_base::out); else os.open((m_dest_path / p).c_str(), std::ios_base::out); os.write(&*v1.begin(), v1.size()); os.close(); } else if(m_namespace_name.size() && is_source_file(p)) { // // v1 hold the current content, v2 is temp buffer. // Each time we do a search and replace the new content // ends up in v2: we then swap v1 and v2, and clear v2. // static std::vector<char> v1, v2; v1.clear(); v2.clear(); std::ifstream is((m_boost_path / p).c_str()); std::copy(std::istreambuf_iterator<char>(is), std::istreambuf_iterator<char>(), std::back_inserter(v1)); static const boost::regex namespace_matcher( "(?|" "(namespace\\s+)boost(_\\w+)?(?:(\\s*::\\s*)phoenix)?" "|" "(namespace\\s+)(adstl|phoenix|rapidxml)\\>" "|" "()\\<boost((?:_(?!intrusive_tags)\\w+)?\\s*(?:::))(?:(\\s*)phoenix)?" "|" "()\\<((?:adstl|phoenix|rapidxml)\\s*(?:::))" "|" "(namespace\\s+\\w+\\s*=\\s*(?:::\\s*)?)boost(_\\w+)?(?:(\\s*::\\s*)phoenix)?" "|" "(namespace\\s+\\w+\\s*=\\s*(?:::\\s*)?(?:\\w+\\s*::\\s*)?)(adstl|phoenix|rapidxml)\\>" "|" "(^\\s*#\\s*define\\s+\\w+\\s+)boost((?:_\\w+)?\\s*)$" "|" "(^\\s*#\\s*define[^\\n]+)((?:adstl|phoenix|rapidxml)\\s*)$" "|" "()boost(_asio_detail_posix_thread_function|_regex_free_static_mutex)" "|" "()(lw_thread_routine|at_thread_exit|on_process_enter|on_process_exit|on_thread_enter|on_thread_exit|tss_cleanup_implemented)" "|" "(BOOST_CLASS_REQUIRE4?[^;]*)boost((?:_\\w+)?\\s*,)" "|" "(\\(\\s*)boost(\\s*\\))" ")" ); regex_replace(std::back_inserter(v2), v1.begin(), v1.end(), namespace_matcher, "$1" + m_namespace_name + "$2(?3$3" + m_namespace_name + "phoenix)", boost::regex_constants::format_all); std::swap(v1, v2); v2.clear(); if(m_namespace_alias) { static const boost::regex namespace_alias( /* "namespace\\s+" + m_namespace_name + "\\s*" "(" "\\{" "(?:" "(?>[^\\{\\}/]+)" "(?>" "(?:" "(?1)" "|//[^\\n]+$" "|/[^/]" "|(?:^\\s*#[^\\n]*" "(?:(?<=\\\\)\\n[^\\n]*)*)" ")" "[^\\{\\}]+" ")*" ")*" "\\}" ")" */ /* "(namespace\\s+" + m_namespace_name + "\\s*\\{.*" "\\})([^\\{\\};]*)\\z" */ "namespace\\s+" + m_namespace_name + "\\s*\\{" ); regex_replace(std::back_inserter(v2), v1.begin(), v1.end(), namespace_alias, "namespace " + m_namespace_name + "{} namespace boost = " + m_namespace_name + "; namespace " + m_namespace_name + "{"); std::swap(v1, v2); v2.clear(); } std::ofstream os; if(m_unix_lines) os.open((m_dest_path / p).c_str(), std::ios_base::binary | std::ios_base::out); else os.open((m_dest_path / p).c_str(), std::ios_base::out); if(v1.size()) os.write(&*v1.begin(), v1.size()); os.close(); } else if(m_unix_lines && !is_binary_file(p)) { std::ifstream is((m_boost_path / p).c_str()); std::istreambuf_iterator<char> isi(is); std::istreambuf_iterator<char> end; std::ofstream os((m_dest_path / p).c_str(), std::ios_base::binary | std::ios_base::out); std::ostreambuf_iterator<char> osi(os); std::copy(isi, end, osi); } else { // binary copy: fs::copy_file(m_boost_path / p, m_dest_path / p); } }