/** * \file FileName.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Angus Leeming * * Full author contact details are available in file CREDITS. */ #include #include "support/FileName.h" #include "support/filetools.h" #include "support/lstrings.h" #include "support/os.h" #include "support/qstring_helpers.h" #include "debug.h" #include "lyxlib.h" #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_SYS_TYPES_H # include #endif #ifdef HAVE_SYS_STAT_H # include #endif #include #include using std::map; using std::string; using std::ifstream; using std::ostringstream; using std::endl; namespace lyx { namespace support { ///////////////////////////////////////////////////////////////////// // // FileName::Private // ///////////////////////////////////////////////////////////////////// struct FileName::Private { Private() {} Private(string const & abs_filename) : fi(toqstr(abs_filename)) {} /// QFileInfo fi; }; ///////////////////////////////////////////////////////////////////// // // FileName // ///////////////////////////////////////////////////////////////////// FileName::FileName() : d(new Private) { } FileName::FileName(string const & abs_filename) : d(abs_filename.empty() ? new Private : new Private(abs_filename)) { #if defined(_WIN32) BOOST_ASSERT(!contains(abs_filename, '\\')); #endif } FileName::FileName(FileName const & rhs) : d(new Private) { d->fi = rhs.d->fi; } FileName & FileName::operator=(FileName const & rhs) { d->fi = rhs.d->fi; return *this; } bool FileName::empty() const { return d->fi.absoluteFilePath().isEmpty(); } string FileName::absFilename() const { return fromqstr(d->fi.absoluteFilePath()); } void FileName::set(string const & name) { d->fi.setFile(toqstr(name)); BOOST_ASSERT(d->fi.isAbsolute()); #if defined(_WIN32) BOOST_ASSERT(!contains(name, '\\')); #endif } void FileName::erase() { d->fi = QFileInfo(); } bool FileName::copyTo(FileName const & name, bool overwrite) const { if (overwrite) QFile::remove(name.d->fi.absoluteFilePath()); bool success = QFile::copy(d->fi.absoluteFilePath(), name.d->fi.absoluteFilePath()); if (!success) lyxerr << "FileName::copyTo(): Could not copy file " << *this << " to " << name << endl; return success; } string FileName::toFilesystemEncoding() const { QByteArray const encoded = QFile::encodeName(d->fi.absoluteFilePath()); return string(encoded.begin(), encoded.end()); } FileName FileName::fromFilesystemEncoding(string const & name) { QByteArray const encoded(name.c_str(), name.length()); return FileName(fromqstr(QFile::decodeName(encoded))); } bool FileName::exists() const { return d->fi.exists(); } bool FileName::isSymLink() const { return d->fi.isSymLink(); } bool FileName::isFileEmpty() const { return d->fi.size() == 0; } bool FileName::isDirectory() const { return d->fi.isDir(); } bool FileName::isReadOnly() const { return d->fi.isReadable() && !d->fi.isWritable(); } bool FileName::isReadableDirectory() const { return d->fi.isDir() && d->fi.isReadable(); } std::string FileName::onlyFileName() const { return support::onlyFilename(absFilename()); } FileName FileName::onlyPath() const { return FileName(support::onlyPath(absFilename())); } bool FileName::isReadableFile() const { return d->fi.isFile() && d->fi.isReadable(); } bool FileName::isWritable() const { return d->fi.isWritable(); } bool FileName::isDirWritable() const { LYXERR(Debug::FILES, "isDirWriteable: " << *this); FileName const tmpfl(tempName(*this, "lyxwritetest")); if (tmpfl.empty()) return false; tmpfl.removeFile(); return true; } FileName FileName::tempName(FileName const & dir, std::string const & mask) { return support::tempName(dir, mask); } std::time_t FileName::lastModified() const { return d->fi.lastModified().toTime_t(); } bool FileName::removeFile() const { bool const success = QFile::remove(d->fi.absoluteFilePath()); if (!success) lyxerr << "FileName::removeFile(): Could not delete file " << *this << "." << endl; return success; } static bool rmdir(QFileInfo const & fi) { QDir dir(fi.absoluteFilePath()); QFileInfoList list = dir.entryInfoList(); bool global_success = true; for (int i = 0; i < list.size(); ++i) { if (list.at(i).fileName() == ".") continue; if (list.at(i).fileName() == "..") continue; bool success; if (list.at(i).isDir()) { LYXERR(Debug::FILES, "Erasing dir " << fromqstr(list.at(i).absoluteFilePath())); success = rmdir(list.at(i)); } else { LYXERR(Debug::FILES, "Erasing file " << fromqstr(list.at(i).absoluteFilePath())); success = dir.remove(list.at(i).fileName()); } if (!success) { global_success = false; lyxerr << "Could not delete " << fromqstr(list.at(i).absoluteFilePath()) << "." << endl; } } QDir parent = fi.absolutePath(); global_success |= parent.rmdir(fi.fileName()); return global_success; } bool FileName::destroyDirectory() const { bool const success = rmdir(d->fi); if (!success) lyxerr << "Could not delete " << *this << "." << endl; return success; } bool FileName::createDirectory(int permission) const { BOOST_ASSERT(!empty()); return mkdir(*this, permission) == 0; } std::vector FileName::dirList(std::string const & ext) { std::vector dirlist; if (!exists() || !isDirectory()) { lyxerr << "FileName::dirList(): Directory \"" << absFilename() << "\" does not exist!" << endl; return dirlist; } QDir dir(d->fi.absoluteFilePath()); if (!ext.empty()) { QString filter; switch (ext[0]) { case '.': filter = "*" + toqstr(ext); break; case '*': filter = toqstr(ext); break; default: filter = "*." + toqstr(ext); } dir.setNameFilters(QStringList(filter)); LYXERR(Debug::FILES, "FileName::dirList(): filtering on extension " << fromqstr(filter) << " is requested." << endl); } QFileInfoList list = dir.entryInfoList(); for (int i = 0; i < list.size(); ++i) { FileName fi; fi.d->fi = list.at(i); dirlist.push_back(fi); LYXERR(Debug::FILES, "FileName::dirList(): found file " << fi.absFilename() << endl); } return dirlist; } docstring FileName::displayName(int threshold) const { return makeDisplayPath(absFilename(), threshold); } string FileName::fileContents() const { if (exists()) { string const encodedname = toFilesystemEncoding(); ifstream ifs(encodedname.c_str()); ostringstream ofs; if (ifs && ofs) { ofs << ifs.rdbuf(); ifs.close(); return ofs.str(); } } lyxerr << "LyX was not able to read file '" << *this << '\'' << std::endl; return string(); } string FileName::guessFormatFromContents() const { // the different filetypes and what they contain in one of the first lines // (dots are any characters). (Herbert 20020131) // AGR Grace... // BMP BM... // EPS %!PS-Adobe-3.0 EPSF... // FIG #FIG... // FITS ...BITPIX... // GIF GIF... // JPG JFIF // PDF %PDF-... // PNG .PNG... // PBM P1... or P4 (B/W) // PGM P2... or P5 (Grayscale) // PPM P3... or P6 (color) // PS %!PS-Adobe-2.0 or 1.0, no "EPSF"! // SGI \001\332... (decimal 474) // TGIF %TGIF... // TIFF II... or MM... // XBM ..._bits[]... // XPM /* XPM */ sometimes missing (f.ex. tgif-export) // ...static char *... // XWD \000\000\000\151 (0x00006900) decimal 105 // // GZIP \037\213 http://www.ietf.org/rfc/rfc1952.txt // ZIP PK... http://www.halyava.ru/document/ind_arch.htm // Z \037\235 UNIX compress // paranoia check if (empty() || !isReadableFile()) return string(); ifstream ifs(toFilesystemEncoding().c_str()); if (!ifs) // Couldn't open file... return string(); // gnuzip static string const gzipStamp = "\037\213"; // PKZIP static string const zipStamp = "PK"; // compress static string const compressStamp = "\037\235"; // Maximum strings to read int const max_count = 50; int count = 0; string str; string format; bool firstLine = true; while ((count++ < max_count) && format.empty()) { if (ifs.eof()) { LYXERR(Debug::GRAPHICS, "filetools(getFormatFromContents)\n" << "\tFile type not recognised before EOF!"); break; } getline(ifs, str); string const stamp = str.substr(0, 2); if (firstLine && str.size() >= 2) { // at first we check for a zipped file, because this // information is saved in the first bytes of the file! // also some graphic formats which save the information // in the first line, too. if (prefixIs(str, gzipStamp)) { format = "gzip"; } else if (stamp == zipStamp) { format = "zip"; } else if (stamp == compressStamp) { format = "compress"; // the graphics part } else if (stamp == "BM") { format = "bmp"; } else if (stamp == "\001\332") { format = "sgi"; // PBM family // Don't need to use str.at(0), str.at(1) because // we already know that str.size() >= 2 } else if (str[0] == 'P') { switch (str[1]) { case '1': case '4': format = "pbm"; break; case '2': case '5': format = "pgm"; break; case '3': case '6': format = "ppm"; } break; } else if ((stamp == "II") || (stamp == "MM")) { format = "tiff"; } else if (prefixIs(str,"%TGIF")) { format = "tgif"; } else if (prefixIs(str,"#FIG")) { format = "fig"; } else if (prefixIs(str,"GIF")) { format = "gif"; } else if (str.size() > 3) { int const c = ((str[0] << 24) & (str[1] << 16) & (str[2] << 8) & str[3]); if (c == 105) { format = "xwd"; } } firstLine = false; } if (!format.empty()) break; else if (contains(str,"EPSF")) // dummy, if we have wrong file description like // %!PS-Adobe-2.0EPSF" format = "eps"; else if (contains(str, "Grace")) format = "agr"; else if (contains(str, "JFIF")) format = "jpg"; else if (contains(str, "%PDF")) format = "pdf"; else if (contains(str, "PNG")) format = "png"; else if (contains(str, "%!PS-Adobe")) { // eps or ps ifs >> str; if (contains(str,"EPSF")) format = "eps"; else format = "ps"; } else if (contains(str, "_bits[]")) format = "xbm"; else if (contains(str, "XPM") || contains(str, "static char *")) format = "xpm"; else if (contains(str, "BITPIX")) format = "fits"; } if (!format.empty()) { LYXERR(Debug::GRAPHICS, "Recognised Fileformat: " << format); return format; } LYXERR(Debug::GRAPHICS, "filetools(getFormatFromContents)\n" << "\tCouldn't find a known format!"); return string(); } bool FileName::isZippedFile() const { string const type = guessFormatFromContents(); return contains("gzip zip compress", type) && !type.empty(); } bool operator==(FileName const & lhs, FileName const & rhs) { return lhs.absFilename() == rhs.absFilename(); } bool operator!=(FileName const & lhs, FileName const & rhs) { return lhs.absFilename() != rhs.absFilename(); } bool operator<(FileName const & lhs, FileName const & rhs) { return lhs.absFilename() < rhs.absFilename(); } bool operator>(FileName const & lhs, FileName const & rhs) { return lhs.absFilename() > rhs.absFilename(); } std::ostream & operator<<(std::ostream & os, FileName const & filename) { return os << filename.absFilename(); } ///////////////////////////////////////////////////////////////////// // // DocFileName // ///////////////////////////////////////////////////////////////////// DocFileName::DocFileName() : save_abs_path_(true) {} DocFileName::DocFileName(string const & abs_filename, bool save_abs) : FileName(abs_filename), save_abs_path_(save_abs), zipped_valid_(false) {} DocFileName::DocFileName(FileName const & abs_filename, bool save_abs) : FileName(abs_filename), save_abs_path_(save_abs), zipped_valid_(false) {} void DocFileName::set(string const & name, string const & buffer_path) { save_abs_path_ = absolutePath(name); FileName::set(save_abs_path_ ? name : makeAbsPath(name, buffer_path).absFilename()); zipped_valid_ = false; } void DocFileName::erase() { FileName::erase(); zipped_valid_ = false; } string const DocFileName::relFilename(string const & path) const { // FIXME UNICODE return to_utf8(makeRelPath(qstring_to_ucs4(d->fi.absoluteFilePath()), from_utf8(path))); } string const DocFileName::outputFilename(string const & path) const { return save_abs_path_ ? absFilename() : relFilename(path); } string const DocFileName::mangledFilename(std::string const & dir) const { // We need to make sure that every DocFileName instance for a given // filename returns the same mangled name. typedef map MangledMap; static MangledMap mangledNames; MangledMap::const_iterator const it = mangledNames.find(absFilename()); if (it != mangledNames.end()) return (*it).second; string const name = absFilename(); // Now the real work string mname = os::internal_path(name); // Remove the extension. mname = changeExtension(name, string()); // The mangled name must be a valid LaTeX name. // The list of characters to keep is probably over-restrictive, // but it is not really a problem. // Apart from non-ASCII characters, at least the following characters // are forbidden: '/', '.', ' ', and ':'. // On windows it is not possible to create files with '<', '>' or '?' // in the name. static string const keep = "abcdefghijklmnopqrstuvwxyz" "ABCDEFGHIJKLMNOPQRSTUVWXYZ" "+,-0123456789;="; string::size_type pos = 0; while ((pos = mname.find_first_not_of(keep, pos)) != string::npos) mname[pos++] = '_'; // Add the extension back on mname = changeExtension(mname, getExtension(name)); // Prepend a counter to the filename. This is necessary to make // the mangled name unique. static int counter = 0; std::ostringstream s; s << counter++ << mname; mname = s.str(); // MiKTeX's YAP (version 2.4.1803) crashes if the file name // is longer than about 160 characters. MiKTeX's pdflatex // is even pickier. A maximum length of 100 has been proven to work. // If dir.size() > max length, all bets are off for YAP. We truncate // the filename nevertheless, keeping a minimum of 10 chars. string::size_type max_length = std::max(100 - ((int)dir.size() + 1), 10); // If the mangled file name is too long, hack it to fit. // We know we're guaranteed to have a unique file name because // of the counter. if (mname.size() > max_length) { int const half = (int(max_length) / 2) - 2; if (half > 0) { mname = mname.substr(0, half) + "___" + mname.substr(mname.size() - half); } } mangledNames[absFilename()] = mname; return mname; } bool DocFileName::isZipped() const { if (!zipped_valid_) { zipped_ = isZippedFile(); zipped_valid_ = true; } return zipped_; } string const DocFileName::unzippedFilename() const { return unzippedFileName(absFilename()); } bool operator==(DocFileName const & lhs, DocFileName const & rhs) { return lhs.absFilename() == rhs.absFilename() && lhs.saveAbsPath() == rhs.saveAbsPath(); } bool operator!=(DocFileName const & lhs, DocFileName const & rhs) { return !(lhs == rhs); } } // namespace support } // namespace lyx