/** * \file converter.C * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Dekel Tsur * * Full author contact details are available in file CREDITS. */ #include #include "converter.h" #include "buffer.h" #include "buffer_funcs.h" #include "bufferparams.h" #include "debug.h" #include "format.h" #include "gettext.h" #include "language.h" #include "LaTeX.h" #include "mover.h" #include "frontends/Alert.h" #include "support/filetools.h" #include "support/lyxlib.h" #include "support/path.h" #include "support/systemcall.h" using lyx::support::AddName; using lyx::support::bformat; using lyx::support::ChangeExtension; using lyx::support::compare_ascii_no_case; using lyx::support::contains; using lyx::support::DirList; using lyx::support::GetExtension; using lyx::support::IsFileReadable; using lyx::support::LibFileSearch; using lyx::support::LibScriptSearch; using lyx::support::MakeRelPath; using lyx::support::OnlyFilename; using lyx::support::OnlyPath; using lyx::support::Path; using lyx::support::prefixIs; using lyx::support::QuoteName; using lyx::support::split; using lyx::support::subst; using lyx::support::Systemcall; using std::endl; using std::find_if; using std::string; using std::vector; using std::distance; namespace { string const token_from("$$i"); string const token_base("$$b"); string const token_to("$$o"); string const token_path("$$p"); string const add_options(string const & command, string const & options) { string head; string const tail = split(command, head, ' '); return head + ' ' + options + ' ' + tail; } string const dvipdfm_options(BufferParams const & bp) { string result; if (bp.papersize != PAPER_CUSTOM) { string const paper_size = bp.paperSizeName(); if (paper_size != "b5" && paper_size != "foolscap") result = "-p "+ paper_size; if (bp.orientation == ORIENTATION_LANDSCAPE) result += " -l"; } return result; } class ConverterEqual : public std::binary_function { public: ConverterEqual(string const & from, string const & to) : from_(from), to_(to) {} bool operator()(Converter const & c) const { return c.from == from_ && c.to == to_; } private: string const from_; string const to_; }; } // namespace anon Converter::Converter(string const & f, string const & t, string const & c, string const & l) : from(f), to(t), command(c), flags(l), From(0), To(0), latex(false), xml(false), original_dir(false), need_aux(false) {} void Converter::readFlags() { string flag_list(flags); while (!flag_list.empty()) { string flag_name, flag_value; flag_list = split(flag_list, flag_value, ','); flag_value = split(flag_value, flag_name, '='); if (flag_name == "latex") latex = true; else if (flag_name == "xml") xml = true; else if (flag_name == "originaldir") original_dir = true; else if (flag_name == "needaux") need_aux = true; else if (flag_name == "resultdir") result_dir = (flag_value.empty()) ? token_base : flag_value; else if (flag_name == "resultfile") result_file = flag_value; else if (flag_name == "parselog") parselog = flag_value; } if (!result_dir.empty() && result_file.empty()) result_file = "index." + formats.extension(to); //if (!contains(command, token_from)) // latex = true; } bool operator<(Converter const & a, Converter const & b) { // use the compare_ascii_no_case instead of compare_no_case, // because in turkish, 'i' is not the lowercase version of 'I', // and thus turkish locale breaks parsing of tags. int const i = compare_ascii_no_case(a.From->prettyname(), b.From->prettyname()); if (i == 0) return compare_ascii_no_case(a.To->prettyname(), b.To->prettyname()) < 0; else return i < 0; } Converter const * Converters::getConverter(string const & from, string const & to) const { ConverterList::const_iterator const cit = find_if(converterlist_.begin(), converterlist_.end(), ConverterEqual(from, to)); if (cit != converterlist_.end()) return &(*cit); else return 0; } int Converters::getNumber(string const & from, string const & to) const { ConverterList::const_iterator const cit = find_if(converterlist_.begin(), converterlist_.end(), ConverterEqual(from, to)); if (cit != converterlist_.end()) return distance(converterlist_.begin(), cit); else return -1; } void Converters::add(string const & from, string const & to, string const & command, string const & flags) { formats.add(from); formats.add(to); ConverterList::iterator it = find_if(converterlist_.begin(), converterlist_.end(), ConverterEqual(from , to)); Converter converter(from, to, command, flags); if (it != converterlist_.end() && !flags.empty() && flags[0] == '*') { converter = *it; converter.command = command; converter.flags = flags; } converter.readFlags(); if (converter.latex && (latex_command_.empty() || to == "dvi")) latex_command_ = subst(command, token_from, ""); // If we have both latex & pdflatex, we set latex_command to latex. // The latex_command is used to update the .aux file when running // a converter that uses it. if (it == converterlist_.end()) { converterlist_.push_back(converter); } else { converter.From = it->From; converter.To = it->To; *it = converter; } } void Converters::erase(string const & from, string const & to) { ConverterList::iterator const it = find_if(converterlist_.begin(), converterlist_.end(), ConverterEqual(from, to)); if (it != converterlist_.end()) converterlist_.erase(it); } // This method updates the pointers From and To in all the converters. // The code is not very efficient, but it doesn't matter as the number // of formats and converters is small. // Furthermore, this method is called only on startup, or after // adding/deleting a format in FormPreferences (the latter calls can be // eliminated if the formats in the Formats class are stored using a map or // a list (instead of a vector), but this will cause other problems). void Converters::update(Formats const & formats) { ConverterList::iterator it = converterlist_.begin(); ConverterList::iterator end = converterlist_.end(); for (; it != end; ++it) { it->From = formats.getFormat(it->from); it->To = formats.getFormat(it->to); } } // This method updates the pointers From and To in the last converter. // It is called when adding a new converter in FormPreferences void Converters::updateLast(Formats const & formats) { if (converterlist_.begin() != converterlist_.end()) { ConverterList::iterator it = converterlist_.end() - 1; it->From = formats.getFormat(it->from); it->To = formats.getFormat(it->to); } } void Converters::sort() { std::sort(converterlist_.begin(), converterlist_.end()); } OutputParams::FLAVOR Converters::getFlavor(Graph::EdgePath const & path) { for (Graph::EdgePath::const_iterator cit = path.begin(); cit != path.end(); ++cit) { Converter const & conv = converterlist_[*cit]; if (conv.latex) if (contains(conv.to, "pdf")) return OutputParams::PDFLATEX; if (conv.xml) return OutputParams::XML; } return OutputParams::LATEX; } bool Converters::convert(Buffer const * buffer, string const & from_file, string const & to_file_base, string const & from_format, string const & to_format, string & to_file, bool try_default) { string const to_ext = formats.extension(to_format); to_file = ChangeExtension(to_file_base, to_ext); if (from_format == to_format) return move(from_format, from_file, to_file, false); Graph::EdgePath edgepath = getPath(from_format, to_format); if (edgepath.empty()) { if (try_default) { // if no special converter defined, then we take the // default one from ImageMagic. string const from_ext = from_format.empty() ? GetExtension(from_file) : formats.extension(from_format); string const command = "python " + QuoteName(LibFileSearch("scripts", "convertDefault.py")) + ' ' + QuoteName(from_ext + ':' + from_file) + ' ' + QuoteName(to_ext + ':' + to_file); lyxerr[Debug::FILES] << "No converter defined! " "I use convertDefault.py:\n\t" << command << endl; Systemcall one; one.startscript(Systemcall::Wait, command); if (IsFileReadable(to_file)) { return true; } } Alert::error(_("Cannot convert file"), bformat(_("No information for converting %1$s " "format files to %2$s.\n" "Define a convertor in the preferences."), from_format, to_format)); return false; } OutputParams runparams; runparams.flavor = getFlavor(edgepath); string path = OnlyPath(from_file); Path p(path); bool run_latex = false; string from_base = ChangeExtension(from_file, ""); string to_base = ChangeExtension(to_file, ""); string infile; string outfile = from_file; for (Graph::EdgePath::const_iterator cit = edgepath.begin(); cit != edgepath.end(); ++cit) { Converter const & conv = converterlist_[*cit]; bool dummy = conv.To->dummy() && conv.to != "program"; if (!dummy) lyxerr[Debug::FILES] << "Converting from " << conv.from << " to " << conv.to << endl; infile = outfile; outfile = conv.result_dir.empty() ? ChangeExtension(from_file, conv.To->extension()) : AddName(subst(conv.result_dir, token_base, from_base), subst(conv.result_file, token_base, OnlyFilename(from_base))); // if input and output files are equal, we use a // temporary file as intermediary (JMarc) string real_outfile; if (outfile == infile) { real_outfile = infile; outfile = AddName(buffer->temppath(), "tmpfile.out"); } if (conv.latex) { run_latex = true; string const command = subst(conv.command, token_from, ""); lyxerr[Debug::FILES] << "Running " << command << endl; if (!runLaTeX(*buffer, command, runparams)) return false; } else { if (conv.need_aux && !run_latex && !latex_command_.empty()) { lyxerr[Debug::FILES] << "Running " << latex_command_ << " to update aux file"<< endl; runLaTeX(*buffer, latex_command_, runparams); } string const infile2 = (conv.original_dir) ? infile : MakeRelPath(infile, path); string const outfile2 = (conv.original_dir) ? outfile : MakeRelPath(outfile, path); string command = conv.command; command = subst(command, token_from, QuoteName(infile2)); command = subst(command, token_base, QuoteName(from_base)); command = subst(command, token_to, QuoteName(outfile2)); command = LibScriptSearch(command); if (!conv.parselog.empty()) command += " 2> " + QuoteName(infile2 + ".out"); if (conv.from == "dvi" && conv.to == "ps") command = add_options(command, buffer->params().dvips_options()); else if (conv.from == "dvi" && prefixIs(conv.to, "pdf")) command = add_options(command, dvipdfm_options(buffer->params())); lyxerr[Debug::FILES] << "Calling " << command << endl; if (buffer) buffer->message(_("Executing command: ") + command); Systemcall::Starttype const type = (dummy) ? Systemcall::DontWait : Systemcall::Wait; Systemcall one; int res; if (conv.original_dir) { Path p(buffer->filePath()); res = one.startscript(type, command); } else res = one.startscript(type, command); if (!real_outfile.empty()) { Mover const & mover = movers(conv.to); if (!mover.rename(outfile, real_outfile)) res = -1; else lyxerr[Debug::FILES] << "renaming file " << outfile << " to " << real_outfile << endl; // Finally, don't forget to tell any future // converters to use the renamed file... outfile = real_outfile; } if (!conv.parselog.empty()) { string const logfile = infile2 + ".log"; string const script = LibScriptSearch(conv.parselog); string const command2 = script + " < " + QuoteName(infile2 + ".out") + " > " + QuoteName(logfile); one.startscript(Systemcall::Wait, command2); if (!scanLog(*buffer, command, logfile)) return false; } if (res) { if (conv.to == "program") { Alert::error(_("Build errors"), _("There were errors during the build process.")); } else { // FIXME: this should go out of here. For example, here we cannot say if // it is a document (.lyx) or something else. Same goes for elsewhere. Alert::error(_("Cannot convert file"), bformat(_("An error occurred whilst running %1$s"), command.substr(0, 50))); } return false; } } } Converter const & conv = converterlist_[edgepath.back()]; if (conv.To->dummy()) return true; if (!conv.result_dir.empty()) { to_file = AddName(subst(conv.result_dir, token_base, to_base), subst(conv.result_file, token_base, OnlyFilename(to_base))); if (from_base != to_base) { string const from = subst(conv.result_dir, token_base, from_base); string const to = subst(conv.result_dir, token_base, to_base); Mover const & mover = movers(conv.from); if (!mover.rename(from, to)) { Alert::error(_("Cannot convert file"), bformat(_("Could not move a temporary file from %1$s to %2$s."), from, to)); return false; } } return true; } else return move(conv.to, outfile, to_file, conv.latex); } bool Converters::move(string const & fmt, string const & from, string const & to, bool copy) { if (from == to) return true; bool no_errors = true; string const path = OnlyPath(from); string const base = OnlyFilename(ChangeExtension(from, "")); string const to_base = ChangeExtension(to, ""); string const to_extension = GetExtension(to); vector files = DirList(OnlyPath(from), GetExtension(from)); for (vector::const_iterator it = files.begin(); it != files.end(); ++it) if (prefixIs(*it, base)) { string const from2 = path + *it; string to2 = to_base + it->substr(base.length()); to2 = ChangeExtension(to2, to_extension); lyxerr[Debug::FILES] << "moving " << from2 << " to " << to2 << endl; Mover const & mover = movers(fmt); bool const moved = copy ? mover.copy(from2, to2) : mover.rename(from2, to2); if (!moved && no_errors) { Alert::error(_("Cannot convert file"), bformat(copy ? _("Could not copy a temporary file from %1$s to %2$s.") : _("Could not move a temporary file from %1$s to %2$s."), from2, to2)); no_errors = false; } } return no_errors; } bool Converters::convert(Buffer const * buffer, string const & from_file, string const & to_file_base, string const & from_format, string const & to_format, bool try_default) { string to_file; return convert(buffer, from_file, to_file_base, from_format, to_format, to_file, try_default); } bool Converters::formatIsUsed(string const & format) { ConverterList::const_iterator cit = converterlist_.begin(); ConverterList::const_iterator end = converterlist_.end(); for (; cit != end; ++cit) { if (cit->from == format || cit->to == format) return true; } return false; } bool Converters::scanLog(Buffer const & buffer, string const & /*command*/, string const & filename) { OutputParams runparams; runparams.flavor = OutputParams::LATEX; LaTeX latex("", runparams, filename, ""); TeXErrors terr; int const result = latex.scanLogFile(terr); if (result & LaTeX::ERRORS) bufferErrors(buffer, terr); return true; } namespace { class showMessage : public std::unary_function, public boost::signals::trackable { public: showMessage(Buffer const & b) : buffer_(b) {}; void operator()(string const & m) const { buffer_.message(m); } private: Buffer const & buffer_; }; } bool Converters::runLaTeX(Buffer const & buffer, string const & command, OutputParams const & runparams) { buffer.busy(true); buffer.message(_("Running LaTeX...")); runparams.document_language = buffer.params().language->babel(); // do the LaTeX run(s) string const name = buffer.getLatexName(); LaTeX latex(command, runparams, name, buffer.filePath()); TeXErrors terr; showMessage show(buffer); latex.message.connect(show); int const result = latex.run(terr); if (result & LaTeX::ERRORS) bufferErrors(buffer, terr); // check return value from latex.run(). if ((result & LaTeX::NO_LOGFILE)) { string const str = bformat(_("LaTeX did not run successfully. " "Additionally, LyX could not locate " "the LaTeX log %1$s."), name); Alert::error(_("LaTeX failed"), str); } else if (result & LaTeX::NO_OUTPUT) { Alert::warning(_("Output is empty"), _("An empty output file was generated.")); } buffer.busy(false); int const ERROR_MASK = LaTeX::NO_LOGFILE | LaTeX::ERRORS | LaTeX::NO_OUTPUT; return (result & ERROR_MASK) == 0; } void Converters::buildGraph() { G_.init(formats.size()); ConverterList::iterator beg = converterlist_.begin(); ConverterList::iterator const end = converterlist_.end(); for (ConverterList::iterator it = beg; it != end ; ++it) { int const s = formats.getNumber(it->from); int const t = formats.getNumber(it->to); G_.addEdge(s,t); } } std::vector const Converters::intToFormat(std::vector const & input) { vector result(input.size()); vector::const_iterator it = input.begin(); vector::const_iterator const end = input.end(); vector::iterator rit = result.begin(); for ( ; it != end; ++it, ++rit) { *rit = &formats.get(*it); } return result; } vector const Converters::getReachableTo(string const & target, bool const clear_visited) { vector const & reachablesto = G_.getReachableTo(formats.getNumber(target), clear_visited); return intToFormat(reachablesto); } vector const Converters::getReachable(string const & from, bool const only_viewable, bool const clear_visited) { vector const & reachables = G_.getReachable(formats.getNumber(from), only_viewable, clear_visited); return intToFormat(reachables); } bool Converters::isReachable(string const & from, string const & to) { return G_.isReachable(formats.getNumber(from), formats.getNumber(to)); } Graph::EdgePath const Converters::getPath(string const & from, string const & to) { return G_.getPath(formats.getNumber(from), formats.getNumber(to)); } /// The global instance Converters converters; // The global copy after reading lyxrc.defaults Converters system_converters;