/* * Copyright (C) 1999-2009 Lorenzo Bettini * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * */ #ifdef HAVE_CONFIG_H #include "config.h" // this is glib related so don't use it when compiling with qmake #include "progname.h" #else #define set_program_name(x) ; #endif #include #include #include #include #include "srchilite/sourcehighlight.h" #include "srchilite/fileutil.h" #include "srchilite/verbosity.h" #include "srchilite/langmap.h" #include "srchilite/languageinfer.h" #include "srchilite/utils.h" #include "srchilite/highlightbuilderexception.h" #include "srchilite/parserexception.h" #include "srchilite/debuglistener.h" #include "srchilite/ctagsmanager.h" #include "srchilite/stopwatch.h" #include "srchilite/lineranges.h" #include "srchilite/regexranges.h" #include "srchilite/versions.h" #include "srchilite/settings.h" #include "cmdline.h" using namespace std; using namespace srchilite; /** * how language inference should be made: NOINFERENCE = no inference at all, * INFERFIRST = inference has priority (e.g., if --infer-lang is specified), * INFERATLAST = try inference as the last chance */ enum InferPolicy { NOINFERENCE = 0, INFERFIRST, INFERATLAST }; static void print_copyright(); static void print_reportbugs(); static void print_version(); static string inferLang(const string &inputFileName); static string getMappedLang(const string &s, LangMap &langmap); static void printError(const string &s); static void print_cgi_header(); /** * Exits for a generic error (i.e., file not found) */ static void exitError(const string &s); static string getLangFileName(InferPolicy infer, const string &inputFileName, const string &langFileName, const string &langName, LangMap &langMap); static bool verbose = false; static bool failsafe = false; #ifdef BUILD_AS_CGI #include "envmapper.h" #endif // BUILD_AS_CGI /** * Print progress status information (provided --quiet is not specified) * @param message */ #define PROGRESSINFO(message) if (!args_info.quiet_given) cerr << message; int main(int argc, char * argv[]) { set_program_name(argv[0]); gengetopt_args_info args_info; // command line structure bool is_cgi = false; #ifdef BUILD_AS_CGI // map environment to parameters if used as CGI char **temp_argv; temp_argv = map_environment(&argc, argv); is_cgi = temp_argv != argv; argv = temp_argv; #endif // BUILD_AS_CGI if (cmdline_parser(argc, argv, &args_info) != 0) { // calls cmdline parser. The user gived bag args if it doesn't return -1 return EXIT_FAILURE; } if (args_info.version_given) { print_version(); print_copyright(); cmdline_parser_free(&args_info); return EXIT_SUCCESS; } if (args_info.help_given || args_info.detailed_help_given) { cout << "GNU "; if (args_info.detailed_help_given) { cmdline_parser_print_detailed_help(); } else { cmdline_parser_print_help(); } print_reportbugs(); cmdline_parser_free(&args_info); return EXIT_SUCCESS; } // set possible line ranges boost::shared_ptr lineRanges; if (args_info.line_range_given) { lineRanges = boost::shared_ptr(new LineRanges); for (unsigned int i = 0; i < args_info.line_range_given; ++i) { if (lineRanges->addRange(args_info.line_range_arg[i]) != NO_ERROR) { string invalid_range = args_info.line_range_arg[i]; cmdline_parser_free(&args_info); exitError("invalid line range: " + invalid_range); } } } // set possible regex ranges boost::shared_ptr regexRanges; if (args_info.regex_range_given) { regexRanges = boost::shared_ptr(new RegexRanges); for (unsigned int i = 0; i < args_info.regex_range_given; ++i) { if (!regexRanges->addRegexRange(args_info.regex_range_arg[i])) { string invalid_range = args_info.regex_range_arg[i]; cmdline_parser_free(&args_info); exitError("invalid regex range: " + invalid_range); } } } if (args_info.range_context_given) { lineRanges->setContextLines(args_info.range_context_arg); } // if a stopwatch is created, when it is deleted (automatically // since we're using a shared pointer, it will print the // elapsed seconds. boost::shared_ptr stopwatch; if (args_info.statistics_given) { stopwatch = boost::shared_ptr(new StopWatch); } verbose = args_info.verbose_given; failsafe = args_info.failsafe_given; string inputFile; string outputFile; string srcLang; string outputFormat; string langFile; string outLangFile; string dataDir; string outputDir; Verbosity::setVerbosity(verbose); if (args_info.input_given) inputFile = args_info.input_arg; if (args_info.output_given) outputFile = args_info.output_arg; // for cgi force output to standard output if (is_cgi) outputFile = "STDOUT"; if (args_info.src_lang_given) srcLang = args_info.src_lang_arg; if (args_info.lang_def_given) langFile = args_info.lang_def_arg; if (args_info.outlang_def_given) outLangFile = args_info.outlang_def_arg; // the default for output format is html outputFormat = args_info.out_format_arg; if (args_info.data_dir_given) { dataDir = args_info.data_dir_arg; } if (args_info.output_dir_given) { outputDir = args_info.output_dir_arg; } /* the starting default path to search for files is computed at run-time: it is the path of the binary + ".." + RELATIVEDATADIR this should make the package relocable (i.e., not stuck with a fixed installation directory). Of course, the GNU standards for installation directories should be followed, but this is not a problem if you use configure and make install features. If no path is specified in the running program we go back to the absolute datadir. */ // this is defined in fileutil.cc string prefix_dir = get_file_path(argv[0]); if (prefix_dir.size()) start_path = get_file_path(argv[0]) + RELATIVEDATADIR; else start_path = Settings::retrieveDataDir(); // if datadir is not specified, we rely on start_path? try { // initialize map files LangMap langmap(dataDir, args_info.lang_map_arg); // just print the input language list and associations if (args_info.lang_list_given) { langmap.open(); langmap.print(); return (EXIT_SUCCESS); } LangMap outlangmap(dataDir, args_info.outlang_map_arg); // just print the input language list and associations if (args_info.outlang_list_given) { outlangmap.open(); outlangmap.print(); return (EXIT_SUCCESS); } string cssUrl; if (args_info.css_given) cssUrl = args_info.css_arg; string docTitle; if (args_info.title_given) docTitle = args_info.title_arg; if (args_info.check_lang_given || args_info.check_outlang_given || args_info.show_regex_given || args_info.show_lang_elements_given || args_info.lang_list_given || args_info.outlang_list_given) { // FIXME just a bogus outlang file specification not to search in outlang.map outLangFile = "html.outlang"; } // initialize the main source highlight object SourceHighlight sourcehighlight(getLangFileName(NOINFERENCE, outputFile, outLangFile, outputFormat + (cssUrl.size() ? +"-css" : ""), outlangmap)); // and sets all its properties according to the command line args sourcehighlight.setDataDir(dataDir); boost::shared_ptr debugListener; // if a simple check is required... if (args_info.check_lang_given) { cout << "checking " << args_info.check_lang_arg << "... "; sourcehighlight.checkLangDef(args_info.check_lang_arg); // if we're here, everything went fine! cout << "OK" << endl; // otherwise an exception has already been thrown return (EXIT_SUCCESS); } if (args_info.check_outlang_given) { cout << "checking " << args_info.check_outlang_arg << "... "; sourcehighlight.checkOutLangDef(args_info.check_outlang_arg); // if we're here, everything went fine! cout << "OK" << endl; // otherwise an exception has already been thrown return (EXIT_SUCCESS); } // just print the highlightstate if show-regex is specified if (args_info.show_regex_given) { sourcehighlight.printHighlightState(args_info.show_regex_arg, cout); return (EXIT_SUCCESS); } // just print the lang elems if show-lang-elements is specified if (args_info.show_lang_elements_given) { sourcehighlight.printLangElems(args_info.show_lang_elements_arg, cout); return (EXIT_SUCCESS); } sourcehighlight.setGenerateEntireDoc((!args_info.no_doc_given) && (args_info.doc_given || (docTitle.size()) || cssUrl.size())); sourcehighlight.setStyleDefaultFile(args_info.style_defaults_arg); sourcehighlight.setStyleFile(args_info.style_file_arg); if (args_info.style_css_file_given) sourcehighlight.setStyleCssFile(args_info.style_css_file_arg); sourcehighlight.setGenerateVersion(args_info.gen_version_flag != 0); sourcehighlight.setCss(cssUrl); sourcehighlight.setTitle(docTitle); sourcehighlight.setOutputDir(outputDir); sourcehighlight.setLineRanges(lineRanges.get()); sourcehighlight.setRegexRanges(regexRanges.get()); sourcehighlight.setBinaryOutput(args_info.binary_output_given); if (args_info.debug_langdef_given) { debugListener = boost::shared_ptr(new DebugListener); const string debugType = args_info.debug_langdef_arg; if (debugType == "interactive") debugListener->setInteractive(true); sourcehighlight.setHighlightEventListener(debugListener.get()); // during debugging disable optimizations sourcehighlight.setOptimize(false); } int tabs = 0; if (args_info.tab_given) { tabs = args_info.tab_arg; } if (args_info.header_given) sourcehighlight.setHeaderFileName(args_info.header_arg); if (args_info.footer_given) sourcehighlight.setFooterFileName(args_info.footer_arg); bool generateLineNumbers = args_info.line_number_given || args_info.line_number_ref_given; sourcehighlight.setGenerateLineNumbers(generateLineNumbers); if (args_info.line_number_given) { // set the line number padding char (default is always '0') sourcehighlight.setLineNumberPad(args_info.line_number_arg[0]); } if (args_info.line_number_ref_given) { sourcehighlight.setGenerateLineNumberRefs(true); sourcehighlight.setLineNumberAnchorPrefix( args_info.line_number_ref_arg); } if (generateLineNumbers) { // when generating line numbers tabs must be translated // otherwise the output line will not be aligned // due to the presence of line numbers sourcehighlight.setTabSpaces(tabs ? tabs : 8); } if (tabs) { sourcehighlight.setTabSpaces(tabs); } // whether to give precedence to language inference InferPolicy inferPolicy = (args_info.infer_lang_given ? INFERFIRST : INFERATLAST); RefPosition refposition = INLINE; string gen_references_arg = args_info.gen_references_arg; if (gen_references_arg == "inline") refposition = INLINE; else if (gen_references_arg == "postline") refposition = POSTLINE; else if (gen_references_arg == "postdoc") refposition = POSTDOC; boost::shared_ptr ctagsManager; if (args_info.gen_references_given) { string ctags = args_info.ctags_arg; string ctags_file = args_info.ctags_file_arg; // build the additional arguments for the ctags command if (args_info.gen_references_given && ctags != "") { if (inputFile.size()) { ctags += " "; ctags += inputFile; } else if (args_info.inputs_num) { for (unsigned int i = 0; i < (args_info.inputs_num); ++i) { ctags += " "; ctags += args_info.inputs[i]; } } } // the ctags command must be executed if --ctags is specified with an empty string ctagsManager = boost::shared_ptr(new CTagsManager( ctags_file, ctags, ctags != "", refposition)); sourcehighlight.setCTagsManager(ctagsManager.get()); } if (args_info.range_separator_given) { sourcehighlight.setRangeSeparator(args_info.range_separator_arg); } // OK, let's highlight! if (args_info.inputs_num && (args_info.input_given || args_info.output_given)) { // do not mix command line invocation modes cerr << "Please, use one of the two syntaxes for invocation: " << endl; cerr << "source-highlight [OPTIONS]... -i input_file -o output_file" << endl; cerr << "source-highlight [OPTIONS]... [FILES]..." << endl; exit(EXIT_FAILURE); } // for cgi we can only process one file specified with --input if (args_info.inputs_num && !is_cgi) { // the output file name is empty, but we don't want to generate to stdout sourcehighlight.setCanUseStdOut(false); // in case multiple input files were specified (without --input) for (unsigned int i = 0; i < (args_info.inputs_num); ++i) { PROGRESSINFO(string("Processing ")+ args_info.inputs[i] + " ... "); sourcehighlight.highlight(args_info.inputs[i], "", getLangFileName(inferPolicy, args_info.inputs[i], langFile, srcLang, langmap)); PROGRESSINFO("created " + sourcehighlight.createOutputFileName(args_info.inputs[i]) + "\n"); } } else { if (is_cgi) print_cgi_header(); // in case only one input file was specified with --input sourcehighlight.highlight(inputFile, outputFile, getLangFileName( inferPolicy, inputFile, langFile, srcLang, langmap)); } } catch (const HighlightBuilderException &e) { cerr << e << endl; exit(EXIT_FAILURE); } catch (const ParserException &e) { cerr << e << endl; exit(EXIT_FAILURE); } catch (const exception &e) { exitError(e.what()); } cmdline_parser_free(&args_info); return 0; } void print_copyright() { int i; int copyright_text_length = 5; const char *copyright_text[] = { "copyright.text", "Copyright (C) 1999-2008 Lorenzo Bettini ", "This program comes with ABSOLUTELY NO WARRANTY.", "This is free software; you may redistribute copies of the program", "under the terms of the GNU General Public License.", "For more information about these matters, see the file named COPYING.", 0 }; for (i = 1; i <= copyright_text_length; ++i) cout << copyright_text[i] << endl;; } void print_reportbugs() { int i; int reportbugs_text_length = 3; const char *reportbugs_text[] = { "reportbugs.text", "", "Maintained by Lorenzo Bettini ", "Report bugs to ", 0 }; for (i = 1; i <= reportbugs_text_length; ++i) cout << reportbugs_text[i] << endl; } void print_version() { cout << Versions::getCompleteVersion() << endl; } string inferLang(const string &inputFileName) { VERBOSELN("inferring input language..."); if (!inputFileName.size()) { printError("missing feature: language inference requires input file"); return ""; } LanguageInfer languageInfer; const string &result = languageInfer.infer(inputFileName); if (result.size()) { VERBOSELN("inferred input language: " + result); } else { VERBOSELN("couldn't infer input language"); } return result; } string getMappedLang(const string &s, LangMap &langmap) { // OK now map it into a .lang file string mapped_lang = langmap.getMappedFileName(s); if (!mapped_lang.size()) { // try the lower version mapped_lang = langmap.getFileName(Utils::tolower(s)); } return mapped_lang; } string getLangFileName(InferPolicy infer, const string &inputFileName, const string &langFileName, const string &langName, LangMap &langMap) { string langFile; // language inference has the precedence if (infer == INFERFIRST) { langFile = inferLang(inputFileName); langFile = getMappedLang(langFile, langMap); if (langFile.size()) return langFile; } // then if a lang file name was specified we're done if (langFileName.size()) return langFileName; // now try with the langName langFile = getMappedLang(langName, langMap); if (langFile.size()) return langFile; // otherwise try with the inputFileName (its file extension // and its name) langFile = langMap.getMappedFileNameFromFileName(inputFileName); if (langFile.size()) return langFile; // OK, as a last chance let's try with language infer if (infer == INFERATLAST) { langFile = getMappedLang(inferLang(inputFileName), langMap); if (langFile.size()) return langFile; } // if we're here we failed all checks // if failsafe is specified we default to default.lang if (failsafe) langFile = "default.lang"; if (!langFile.size()) { // if we're here we must exit with failure if (langName.size()) exitError("could not find a language definition for " + langName); else exitError("could not find a language definition for input file " + inputFileName); } return langFile; } void printError(const string &s) { cerr << PACKAGE << ": " << s << endl; } void exitError(const string &s) { printError(s); exit(EXIT_FAILURE); } void print_cgi_header() { cout << "Content-type: text/html\n"; cout << "\n"; }