/** * \file tex2lyx.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author André Pönitz * * Full author contact details are available in file CREDITS. */ // {[( #include #include "tex2lyx.h" #include "Context.h" #include "Encoding.h" #include "Layout.h" #include "TextClass.h" #include "support/convert.h" #include "support/debug.h" #include "support/ExceptionMessage.h" #include "support/filetools.h" #include "support/lassert.h" #include "support/lstrings.h" #include "support/Messages.h" #include "support/os.h" #include "support/Package.h" #include #include #include #include #include #include using namespace std; using namespace lyx::support; using namespace lyx::support::os; namespace lyx { namespace frontend { namespace Alert { void warning(docstring const & title, docstring const & message, bool const &) { LYXERR0(title); LYXERR0(message); } } } // Dummy translation support Messages messages_; Messages const & getMessages(std::string const &) { return messages_; } Messages const & getGuiMessages() { return messages_; } // Keep the linker happy on Windows void lyx_exit(int) {} string const trim(string const & a, char const * p) { // LASSERT(p, /**/); if (a.empty() || !*p) return a; size_t r = a.find_last_not_of(p); size_t l = a.find_first_not_of(p); // Is this the minimal test? (lgb) if (r == string::npos && l == string::npos) return string(); return a.substr(l, r - l + 1); } void split(string const & s, vector & result, char delim) { //cerr << "split 1: '" << s << "'\n"; istringstream is(s); string t; while (getline(is, t, delim)) result.push_back(t); //cerr << "split 2\n"; } string join(vector const & input, char const * delim) { ostringstream os; for (size_t i = 0; i != input.size(); ++i) { if (i) os << delim; os << input[i]; } return os.str(); } char const * const * is_known(string const & str, char const * const * what) { for ( ; *what; ++what) if (str == *what) return what; return 0; } // current stack of nested environments vector active_environments; string active_environment() { return active_environments.empty() ? string() : active_environments.back(); } CommandMap known_commands; CommandMap known_environments; CommandMap known_math_environments; void add_known_command(string const & command, string const & o1, bool o2) { // We have to handle the following cases: // definition o1 o2 invocation result // \newcommand{\foo}{bar} "" false \foo bar // \newcommand{\foo}[1]{bar #1} "[1]" false \foo{x} bar x // \newcommand{\foo}[1][]{bar #1} "[1]" true \foo bar // \newcommand{\foo}[1][]{bar #1} "[1]" true \foo[x] bar x // \newcommand{\foo}[1][x]{bar #1} "[1]" true \foo[x] bar x unsigned int nargs = 0; vector arguments; string const opt1 = rtrim(ltrim(o1, "["), "]"); if (isStrUnsignedInt(opt1)) { // The command has arguments nargs = convert(opt1); if (nargs > 0 && o2) { // The first argument is optional arguments.push_back(optional); --nargs; } } for (unsigned int i = 0; i < nargs; ++i) arguments.push_back(required); known_commands[command] = arguments; } bool noweb_mode = false; namespace { /*! * Read one command definition from the syntax file */ void read_command(Parser & p, string command, CommandMap & commands) { if (p.next_token().asInput() == "*") { p.get_token(); command += '*'; } vector arguments; while (p.next_token().cat() == catBegin || p.next_token().asInput() == "[") { if (p.next_token().cat() == catBegin) { string const arg = p.getArg('{', '}'); if (arg == "translate") arguments.push_back(required); else if (arg == "item") arguments.push_back(item); else arguments.push_back(verbatim); } else { p.getArg('[', ']'); arguments.push_back(optional); } } commands[command] = arguments; } /*! * Read a class of environments from the syntax file */ void read_environment(Parser & p, string const & begin, CommandMap & environments) { string environment; while (p.good()) { Token const & t = p.get_token(); if (t.cat() == catLetter) environment += t.asInput(); else if (!environment.empty()) { p.putback(); read_command(p, environment, environments); environment.erase(); } if (t.cat() == catEscape && t.asInput() == "\\end") { string const end = p.getArg('{', '}'); if (end == begin) return; } } } /*! * Read a list of TeX commands from a reLyX compatible syntax file. * Since this list is used after all commands that have a LyX counterpart * are handled, it does not matter that the "syntax.default" file * has almost all of them listed. For the same reason the reLyX-specific * reLyXre environment is ignored. */ void read_syntaxfile(FileName const & file_name) { ifdocstream is(file_name.toFilesystemEncoding().c_str()); if (!is.good()) { cerr << "Could not open syntax file \"" << file_name << "\" for reading." << endl; exit(2); } // We can use our TeX parser, since the syntax of the layout file is // modeled after TeX. // Unknown tokens are just silently ignored, this helps us to skip some // reLyX specific things. Parser p(is); while (p.good()) { Token const & t = p.get_token(); if (t.cat() == catEscape) { string const command = t.asInput(); if (command == "\\begin") { string const name = p.getArg('{', '}'); if (name == "environments" || name == "reLyXre") // We understand "reLyXre", but it is // not as powerful as "environments". read_environment(p, name, known_environments); else if (name == "mathenvironments") read_environment(p, name, known_math_environments); } else { read_command(p, command, known_commands); } } } } string documentclass; string default_encoding; string syntaxfile; bool overwrite_files = false; int error_code = 0; /// return the number of arguments consumed typedef int (*cmd_helper)(string const &, string const &); int parse_help(string const &, string const &) { cerr << "Usage: tex2lyx [options] infile.tex [outfile.lyx]\n" "Options:\n" "\t-c textclass Declare the textclass.\n" "\t-e encoding Set the default encoding (latex name).\n" "\t-f Force overwrite of .lyx files.\n" "\t-help Print this message and quit.\n" "\t-n translate a noweb (aka literate programming) file.\n" "\t-s syntaxfile read additional syntax file.\n" "\t-sysdir dir Set system directory to DIR.\n" "\t-userdir DIR Set user directory to DIR." << endl; exit(error_code); } void error_message(string const & message) { cerr << "tex2lyx: " << message << "\n\n"; error_code = 1; parse_help(string(), string()); } int parse_class(string const & arg, string const &) { if (arg.empty()) error_message("Missing textclass string after -c switch"); documentclass = arg; return 1; } int parse_encoding(string const & arg, string const &) { if (arg.empty()) error_message("Missing encoding string after -e switch"); default_encoding = arg; return 1; } int parse_syntaxfile(string const & arg, string const &) { if (arg.empty()) error_message("Missing syntaxfile string after -s switch"); syntaxfile = internal_path(arg); return 1; } // Filled with the command line arguments "foo" of "-sysdir foo" or // "-userdir foo". string cl_system_support; string cl_user_support; int parse_sysdir(string const & arg, string const &) { if (arg.empty()) error_message("Missing directory for -sysdir switch"); cl_system_support = internal_path(arg); return 1; } int parse_userdir(string const & arg, string const &) { if (arg.empty()) error_message("Missing directory for -userdir switch"); cl_user_support = internal_path(arg); return 1; } int parse_force(string const &, string const &) { overwrite_files = true; return 0; } int parse_noweb(string const &, string const &) { noweb_mode = true; return 0; } void easyParse(int & argc, char * argv[]) { map cmdmap; cmdmap["-c"] = parse_class; cmdmap["-e"] = parse_encoding; cmdmap["-f"] = parse_force; cmdmap["-s"] = parse_syntaxfile; cmdmap["-help"] = parse_help; cmdmap["--help"] = parse_help; cmdmap["-n"] = parse_noweb; cmdmap["-sysdir"] = parse_sysdir; cmdmap["-userdir"] = parse_userdir; for (int i = 1; i < argc; ++i) { map::const_iterator it = cmdmap.find(argv[i]); // don't complain if not found - may be parsed later if (it == cmdmap.end()) { if (argv[i][0] == '-') error_message(string("Unknown option `") + argv[i] + "'."); else continue; } string arg = (i + 1 < argc) ? os::utf8_argv(i + 1) : string(); string arg2 = (i + 2 < argc) ? os::utf8_argv(i + 2) : string(); int const remove = 1 + it->second(arg, arg2); // Now, remove used arguments by shifting // the following ones remove places down. os::remove_internal_args(i, remove); argc -= remove; for (int j = i; j < argc; ++j) argv[j] = argv[j + remove]; --i; } } // path of the first parsed file string masterFilePath; // path of the currently parsed file string parentFilePath; } // anonymous namespace string getMasterFilePath() { return masterFilePath; } string getParentFilePath() { return parentFilePath; } namespace { /*! * Reads tex input from \a is and writes lyx output to \a os. * Uses some common settings for the preamble, so this should only * be used more than once for included documents. * Caution: Overwrites the existing preamble settings if the new document * contains a preamble. * You must ensure that \p parentFilePath is properly set before calling * this function! */ void tex2lyx(idocstream & is, ostream & os, string const & encoding) { Parser p(is); if (!encoding.empty()) p.setEncoding(encoding); //p.dump(); stringstream ss; TeX2LyXDocClass textclass; parse_preamble(p, ss, documentclass, textclass); active_environments.push_back("document"); Context context(true, textclass); parse_text(p, ss, FLAG_END, true, context); if (Context::empty) // Empty document body. LyX needs at least one paragraph. context.check_layout(ss); context.check_end_layout(ss); ss << "\n\\end_body\n\\end_document\n"; active_environments.pop_back(); ss.seekg(0); os << ss.str(); #ifdef TEST_PARSER p.reset(); ofdocstream parsertest("parsertest.tex"); while (p.good()) parsertest << p.get_token().asInput(); // and parsertest.tex should now have identical content #endif } /// convert TeX from \p infilename to LyX and write it to \p os bool tex2lyx(FileName const & infilename, ostream & os, string const & encoding) { ifdocstream is; // forbid buffering on this stream is.rdbuf()->pubsetbuf(0,0); is.open(infilename.toFilesystemEncoding().c_str()); if (!is.good()) { cerr << "Could not open input file \"" << infilename << "\" for reading." << endl; return false; } string const oldParentFilePath = parentFilePath; parentFilePath = onlyPath(infilename.absFileName()); tex2lyx(is, os, encoding); parentFilePath = oldParentFilePath; return true; } } // anonymous namespace bool tex2lyx(string const & infilename, FileName const & outfilename, string const & encoding) { if (outfilename.isReadableFile()) { if (overwrite_files) { cerr << "Overwriting existing file " << outfilename << endl; } else { cerr << "Not overwriting existing file " << outfilename << endl; return false; } } else { cerr << "Creating file " << outfilename << endl; } ofstream os(outfilename.toFilesystemEncoding().c_str()); if (!os.good()) { cerr << "Could not open output file \"" << outfilename << "\" for writing." << endl; return false; } #ifdef FILEDEBUG cerr << "Input file: " << infilename << "\n"; cerr << "Output file: " << outfilename << "\n"; #endif return tex2lyx(FileName(infilename), os, encoding); } } // namespace lyx int main(int argc, char * argv[]) { using namespace lyx; //setlocale(LC_CTYPE, ""); lyxerr.setStream(cerr); os::init(argc, argv); easyParse(argc, argv); if (argc <= 1) error_message("Not enough arguments."); try { init_package(internal_path(os::utf8_argv(0)), cl_system_support, cl_user_support, top_build_dir_is_two_levels_up); } catch (ExceptionMessage const & message) { cerr << to_utf8(message.title_) << ":\n" << to_utf8(message.details_) << endl; if (message.type_ == ErrorException) exit(1); } // Now every known option is parsed. Look for input and output // file name (the latter is optional). string infilename = internal_path(os::utf8_argv(1)); infilename = makeAbsPath(infilename).absFileName(); string outfilename; if (argc > 2) { outfilename = internal_path(os::utf8_argv(2)); if (outfilename != "-") outfilename = makeAbsPath(outfilename).absFileName(); } else outfilename = changeExtension(infilename, ".lyx"); // Read the syntax tables FileName const system_syntaxfile = libFileSearch("", "syntax.default"); if (system_syntaxfile.empty()) { cerr << "Error: Could not find syntax file \"syntax.default\"." << endl; exit(1); } read_syntaxfile(system_syntaxfile); if (!syntaxfile.empty()) read_syntaxfile(makeAbsPath(syntaxfile)); // Read the encodings table. FileName const symbols_path = libFileSearch(string(), "unicodesymbols"); if (symbols_path.empty()) { cerr << "Error: Could not find file \"unicodesymbols\"." << endl; exit(1); } FileName const enc_path = libFileSearch(string(), "encodings"); if (enc_path.empty()) { cerr << "Error: Could not find file \"encodings\"." << endl; exit(1); } encodings.read(enc_path, symbols_path); if (!default_encoding.empty() && !encodings.fromLaTeXName(default_encoding)) error_message("Unknown LaTeX encoding `" + default_encoding + "'"); // The real work now. masterFilePath = onlyPath(infilename); parentFilePath = masterFilePath; if (outfilename == "-") { if (tex2lyx(FileName(infilename), cout, default_encoding)) return EXIT_SUCCESS; else return EXIT_FAILURE; } else { if (tex2lyx(infilename, FileName(outfilename), default_encoding)) return EXIT_SUCCESS; else return EXIT_FAILURE; } } // }])