/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2014-2020 Jean-Pierre Charras, jp.charras at wanadoo.fr * Copyright (C) 2008 Wayne Stambaugh * Copyright (C) 1992-2020 KiCad Developers, see AUTHORS.txt for contributors. * * 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 2 * 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, you may find one here: * http://www.gnu.org/licenses/old-licenses/gpl-2.0.html * or you may search the http://www.gnu.org website for the version 2 license, * or you may write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // Create only once, as seeding is *very* expensive static boost::uuids::random_generator randomGenerator; // These don't have the same performance penalty, but might as well be consistent static boost::uuids::string_generator stringGenerator; static boost::uuids::nil_generator nilGenerator; // Global nil reference KIID niluuid( 0 ); // For static initialization KIID& NilUuid() { static KIID nil( 0 ); return nil; } KIID::KIID() : m_uuid( randomGenerator() ), m_cached_timestamp( 0 ) { } KIID::KIID( int null ) : m_uuid( nilGenerator() ), m_cached_timestamp( 0 ) { wxASSERT( null == 0 ); } KIID::KIID( const wxString& aString ) : m_uuid(), m_cached_timestamp( 0 ) { if( aString.length() == 8 ) { // A legacy-timestamp-based UUID has only the last 4 octets filled in. // Convert them individually to avoid stepping in the little-endian/big-endian // doo-doo. for( int i = 0; i < 4; ++i ) { wxString octet = aString.substr( i * 2, 2 ); m_uuid.data[ i + 12 ] = strtol( octet.data(), NULL, 16 ); } m_cached_timestamp = strtol( aString.c_str(), NULL, 16 ); } else { try { m_uuid = stringGenerator( aString.wc_str() ); if( IsLegacyTimestamp() ) m_cached_timestamp = strtol( aString.substr( 28 ).c_str(), NULL, 16 ); } catch( ... ) { // Failed to parse string representation; best we can do is assign a new // random one. m_uuid = randomGenerator(); } } } KIID::KIID( timestamp_t aTimestamp ) { m_cached_timestamp = aTimestamp; // A legacy-timestamp-based UUID has only the last 4 octets filled in. // Convert them individually to avoid stepping in the little-endian/big-endian // doo-doo. wxString str = AsLegacyTimestampString(); for( int i = 0; i < 4; ++i ) { wxString octet = str.substr( i * 2, 2 ); m_uuid.data[ i + 12 ] = strtol( octet.data(), NULL, 16 ); } } bool KIID::IsLegacyTimestamp() const { return !m_uuid.data[8] && !m_uuid.data[9] && !m_uuid.data[10] && !m_uuid.data[11]; } timestamp_t KIID::AsLegacyTimestamp() const { return m_cached_timestamp; } size_t KIID::Hash() const { size_t hash = 0; // Note: this is NOT little-endian/big-endian safe, but as long as it's just used // at runtime it won't matter. for( int i = 0; i < 4; ++i ) boost::hash_combine( hash, reinterpret_cast( m_uuid.data )[i] ); return hash; } void KIID::Clone( const KIID& aUUID ) { m_uuid = aUUID.m_uuid; m_cached_timestamp = aUUID.m_cached_timestamp; } wxString KIID::AsString() const { return boost::uuids::to_string( m_uuid ); } wxString KIID::AsLegacyTimestampString() const { return wxString::Format( "%8.8lX", (unsigned long) AsLegacyTimestamp() ); } void KIID::ConvertTimestampToUuid() { if( !IsLegacyTimestamp() ) return; m_cached_timestamp = 0; m_uuid = randomGenerator(); } bool IsImperialUnit( EDA_UNITS aUnit ) { switch( aUnit ) { case EDA_UNITS::INCHES: case EDA_UNITS::MILS: return true; default: return false; } return false; } bool IsMetricUnit( EDA_UNITS aUnit ) { switch( aUnit ) { case EDA_UNITS::MILLIMETRES: return true; default: return false; } return false; } /** * Global variables definitions. * * TODO: All of these variables should be moved into the class were they * are defined and used. Most of them probably belong in the * application class. */ // When reading/writing files, we need to swtich to setlocale( LC_NUMERIC, "C" ). // Works fine to read/write files with floating point numbers. // We can call setlocale( LC_NUMERIC, "C" ) of wxLocale( "C", "C", "C", false ) // wxWidgets discourage a direct call to setlocale // However, for us, calling wxLocale( "C", "C", "C", false ) has a unwanted effect: // The I18N translations are no longer active, because the English dixtionary is selected. // To read files, this is not a major issues, but the resul can differ // from using setlocale(xx, "C"). // Previouly, we called setlocale( LC_NUMERIC, "C" ) // The old code will be removed when calling wxLocale( "C", "C", "C", false ) // is fully tested, and all issues fixed #define USE_WXLOCALE 1 /* 0 to call setlocale, 1 to call wxLocale */ // On Windows, when using setlocale, a wx alert is generated // in some cases (reading a bitmap for instance) // So we disable alerts during the time a file is read or written #if !USE_WXLOCALE #if defined( _WIN32 ) && defined( DEBUG ) // a wxAssertHandler_t function to filter wxWidgets alert messages when reading/writing a file // when switching the locale to LC_NUMERIC, "C" // It is used in class LOCALE_IO to hide a useless (in kicad) wxWidgets alert message void KiAssertFilter( const wxString &file, int line, const wxString &func, const wxString &cond, const wxString &msg) { if( !msg.Contains( "Decimal separator mismatch" ) ) wxTheApp->OnAssertFailure( file.c_str(), line, func.c_str(), cond.c_str(), msg.c_str() ); } #endif #endif std::atomic LOCALE_IO::m_c_count( 0 ); LOCALE_IO::LOCALE_IO() : m_wxLocale( nullptr ) { // use thread safe, atomic operation if( m_c_count++ == 0 ) { #if USE_WXLOCALE m_wxLocale = new wxLocale( "C", "C", "C", false ); #else // Store the user locale name, to restore this locale later, in dtor m_user_locale = setlocale( LC_NUMERIC, nullptr ); #if defined( _WIN32 ) && defined( DEBUG ) // Disable wxWidgets alerts wxSetAssertHandler( KiAssertFilter ); #endif // Switch the locale to C locale, to read/write files with fp numbers setlocale( LC_NUMERIC, "C" ); #endif } } LOCALE_IO::~LOCALE_IO() { // use thread safe, atomic operation if( --m_c_count == 0 ) { // revert to the user locale #if USE_WXLOCALE delete m_wxLocale; // Deleting m_wxLocale restored previous locale m_wxLocale = nullptr; #else setlocale( LC_NUMERIC, m_user_locale.c_str() ); #if defined( _WIN32 ) && defined( DEBUG ) // Enable wxWidgets alerts wxSetDefaultAssertHandler(); #endif #endif } } wxSize GetTextSize( const wxString& aSingleLine, wxWindow* aWindow ) { wxCoord width; wxCoord height; { wxClientDC dc( aWindow ); dc.SetFont( aWindow->GetFont() ); dc.GetTextExtent( aSingleLine, &width, &height ); } return wxSize( width, height ); } bool EnsureTextCtrlWidth( wxTextCtrl* aCtrl, const wxString* aString ) { wxWindow* window = aCtrl->GetParent(); if( !window ) window = aCtrl; wxString ctrlText; if( !aString ) { ctrlText = aCtrl->GetValue(); aString = &ctrlText; } wxSize textz = GetTextSize( *aString, window ); wxSize ctrlz = aCtrl->GetSize(); if( ctrlz.GetWidth() < textz.GetWidth() + 10 ) { ctrlz.SetWidth( textz.GetWidth() + 10 ); aCtrl->SetSizeHints( ctrlz ); return true; } return false; } void SelectReferenceNumber( wxTextEntry* aTextEntry ) { wxString ref = aTextEntry->GetValue(); if( ref.find_first_of( '?' ) != ref.npos ) { aTextEntry->SetSelection( ref.find_first_of( '?' ), ref.find_last_of( '?' ) + 1 ); } else { wxString num = ref; while( !num.IsEmpty() && ( !isdigit( num.Last() ) || !isdigit( num.GetChar( 0 ) ) ) ) { // Trim non-digit from end if( !isdigit( num.Last() ) ) num.RemoveLast(); // Trim non-digit from the start if( !num.IsEmpty() && !isdigit( num.GetChar( 0 ) ) ) num = num.Right( num.Length() - 1 ); } aTextEntry->SetSelection( ref.Find( num ), ref.Find( num ) + num.Length() ); if( num.IsEmpty() ) aTextEntry->SetSelection( -1, -1 ); } } void wxStringSplit( const wxString& aText, wxArrayString& aStrings, wxChar aSplitter ) { wxString tmp; for( unsigned ii = 0; ii < aText.Length(); ii++ ) { if( aText[ii] == aSplitter ) { aStrings.Add( tmp ); tmp.Clear(); } else tmp << aText[ii]; } if( !tmp.IsEmpty() ) { aStrings.Add( tmp ); } } int ProcessExecute( const wxString& aCommandLine, int aFlags, wxProcess *callback ) { return (int) wxExecute( aCommandLine, aFlags, callback ); } enum Bracket { Bracket_None, Bracket_Normal = ')', Bracket_Curly = '}', #ifdef __WINDOWS__ Bracket_Windows = '%', // yeah, Windows people are a bit strange ;-) #endif Bracket_Max }; wxString ExpandTextVars( const wxString& aSource, const std::function* aLocalResolver, const PROJECT* aProject, const std::function* aFallbackResolver ) { wxString newbuf; size_t sourceLen = aSource.length(); newbuf.Alloc( sourceLen ); // best guess (improves performance) for( size_t i = 0; i < sourceLen; ++i ) { if( aSource[i] == '$' && i + 1 < sourceLen && aSource[i+1] == '{' ) { wxString token; for( i = i + 2; i < sourceLen; ++i ) { if( aSource[i] == '}' ) break; else token.append( aSource[i] ); } if( token.IsEmpty() ) continue; if( aLocalResolver && (*aLocalResolver)( &token ) ) { newbuf.append( token ); } else if( aProject && aProject->TextVarResolver( &token ) ) { newbuf.append( token ); } else if( aFallbackResolver && (*aFallbackResolver)( &token ) ) { newbuf.append( token ); } else { // Token not resolved: leave the reference unchanged newbuf.append( "${" + token + "}" ); } } else { newbuf.append( aSource[i] ); } } return newbuf; } // // Stolen from wxExpandEnvVars and then heavily optimized // wxString KIwxExpandEnvVars( const wxString& str, const PROJECT* aProject ) { size_t strlen = str.length(); wxString strResult; strResult.Alloc( strlen ); // best guess (improves performance) for( size_t n = 0; n < strlen; n++ ) { wxUniChar str_n = str[n]; switch( str_n.GetValue() ) { #ifdef __WINDOWS__ case wxT( '%' ): #endif // __WINDOWS__ case wxT( '$' ): { Bracket bracket; #ifdef __WINDOWS__ if( str_n == wxT( '%' ) ) bracket = Bracket_Windows; else #endif // __WINDOWS__ if( n == strlen - 1 ) { bracket = Bracket_None; } else { switch( str[n + 1].GetValue() ) { case wxT( '(' ): bracket = Bracket_Normal; str_n = str[++n]; // skip the bracket break; case wxT( '{' ): bracket = Bracket_Curly; str_n = str[++n]; // skip the bracket break; default: bracket = Bracket_None; } } size_t m = n + 1; wxUniChar str_m = str[m]; while( m < strlen && ( wxIsalnum( str_m ) || str_m == wxT( '_' ) || str_m == wxT( ':' ) ) ) str_m = str[++m]; wxString strVarName( str.c_str() + n + 1, m - n - 1 ); // NB: use wxGetEnv instead of wxGetenv as otherwise variables // set through wxSetEnv may not be read correctly! bool expanded = false; wxString tmp = strVarName; if( aProject && aProject->TextVarResolver( &tmp ) ) { strResult += tmp; expanded = true; } else if( wxGetEnv( strVarName, &tmp ) ) { strResult += tmp; expanded = true; } else { // variable doesn't exist => don't change anything #ifdef __WINDOWS__ if ( bracket != Bracket_Windows ) #endif if ( bracket != Bracket_None ) strResult << str[n - 1]; strResult << str_n << strVarName; } // check the closing bracket if( bracket != Bracket_None ) { if( m == strlen || str_m != (wxChar)bracket ) { // under MSW it's common to have '%' characters in the registry // and it's annoying to have warnings about them each time, so // ignore them silently if they are not used for env vars // // under Unix, OTOH, this warning could be useful for the user to // understand why isn't the variable expanded as intended #ifndef __WINDOWS__ wxLogWarning( _( "Environment variables expansion failed: missing '%c' " "at position %u in '%s'." ), (char)bracket, (unsigned int) (m + 1), str.c_str() ); #endif // __WINDOWS__ } else { // skip closing bracket unless the variables wasn't expanded if( !expanded ) strResult << (wxChar)bracket; m++; } } n = m - 1; // skip variable name str_n = str[n]; } break; case wxT( '\\' ): // backslash can be used to suppress special meaning of % and $ if( n != strlen - 1 && (str[n + 1] == wxT( '%' ) || str[n + 1] == wxT( '$' )) ) { str_n = str[++n]; strResult += str_n; break; } KI_FALLTHROUGH; default: strResult += str_n; } } #ifndef __WINDOWS__ if( strResult.StartsWith( "~" ) ) strResult.Replace( "~", wxGetHomeDir(), false ); #endif // __WINDOWS__ return strResult; } const wxString ExpandEnvVarSubstitutions( const wxString& aString, PROJECT* aProject ) { // wxGetenv( wchar_t* ) is not re-entrant on linux. // Put a lock on multithreaded use of wxGetenv( wchar_t* ), called from wxEpandEnvVars(), static std::mutex getenv_mutex; std::lock_guard lock( getenv_mutex ); // We reserve the right to do this another way, by providing our own member function. return KIwxExpandEnvVars( aString, aProject ); } const wxString ResolveUriByEnvVars( const wxString& aUri, PROJECT* aProject ) { wxString uri = ExpandTextVars( aUri, nullptr, aProject ); // URL-like URI: return as is. wxURL url( uri ); if( url.GetError() == wxURL_NOERR ) return uri; // Otherwise, the path points to a local file. Resolve environment variables if any. return ExpandEnvVarSubstitutions( aUri, aProject ); } bool EnsureFileDirectoryExists( wxFileName* aTargetFullFileName, const wxString& aBaseFilename, REPORTER* aReporter ) { wxString msg; wxString baseFilePath = wxFileName( aBaseFilename ).GetPath(); // make aTargetFullFileName path, which is relative to aBaseFilename path (if it is not // already an absolute path) absolute: if( !aTargetFullFileName->MakeAbsolute( baseFilePath ) ) { if( aReporter ) { msg.Printf( _( "Cannot make path \"%s\" absolute with respect to \"%s\"." ), aTargetFullFileName->GetPath(), baseFilePath ); aReporter->Report( msg, RPT_SEVERITY_ERROR ); } return false; } // Ensure the path of aTargetFullFileName exists, and create it if needed: wxString outputPath( aTargetFullFileName->GetPath() ); if( !wxFileName::DirExists( outputPath ) ) { if( wxMkdir( outputPath ) ) { if( aReporter ) { msg.Printf( _( "Output directory \"%s\" created.\n" ), outputPath ); aReporter->Report( msg, RPT_SEVERITY_INFO ); return true; } } else { if( aReporter ) { msg.Printf( _( "Cannot create output directory \"%s\".\n" ), outputPath ); aReporter->Report( msg, RPT_SEVERITY_ERROR ); } return false; } } return true; } #ifdef __WXMAC__ wxString GetOSXKicadUserDataDir() { // According to wxWidgets documentation for GetUserDataDir: // Mac: ~/Library/Application Support/appname wxFileName udir( wxStandardPaths::Get().GetUserDataDir(), wxEmptyString ); // Since appname is different if started via launcher or standalone binary // map all to "kicad" here udir.RemoveLastDir(); udir.AppendDir( "kicad" ); return udir.GetPath(); } wxString GetOSXKicadMachineDataDir() { return wxT( "/Library/Application Support/kicad" ); } wxString GetOSXKicadDataDir() { // According to wxWidgets documentation for GetDataDir: // Mac: appname.app/Contents/SharedSupport bundle subdirectory wxFileName ddir( wxStandardPaths::Get().GetDataDir(), wxEmptyString ); // This must be mapped to main bundle for everything but kicad.app const wxArrayString dirs = ddir.GetDirs(); if( dirs[dirs.GetCount() - 3] != wxT( "kicad.app" ) ) { // Bundle structure resp. current path is // kicad.app/Contents/Applications/.app/Contents/SharedSupport // and will be mapped to // kicad.app/Contents/SharedSupprt ddir.RemoveLastDir(); ddir.RemoveLastDir(); ddir.RemoveLastDir(); ddir.RemoveLastDir(); ddir.AppendDir( wxT( "SharedSupport" ) ); } return ddir.GetPath(); } #endif // add this only if it is not in wxWidgets (for instance before 3.1.0) #ifdef USE_KICAD_WXSTRING_HASH size_t std::hash::operator()( const wxString& s ) const { return std::hash{}( s.ToStdWstring() ); } #endif #ifdef USE_KICAD_WXPOINT_LESS_AND_HASH size_t std::hash::operator() ( const wxPoint& k ) const { auto xhash = std::hash()( k.x ); // 0x9e3779b9 is 2^33 / ( 1 + sqrt(5) ) // Adding this value ensures that consecutive bits of y will not be close to each other // decreasing the likelihood of hash collision in similar values of x and y return xhash ^ ( std::hash()( k.y ) + 0x9e3779b9 + ( xhash << 6 ) + ( xhash >> 2 ) ); } bool std::less::operator()( const wxPoint& aA, const wxPoint& aB ) const { if( aA.x == aB.x ) return aA.y < aB.y; return aA.x < aB.x; } #endif std::ostream& operator<<( std::ostream& out, const wxSize& size ) { out << " width=\"" << size.GetWidth() << "\" height=\"" << size.GetHeight() << "\""; return out; } std::ostream& operator<<( std::ostream& out, const wxPoint& pt ) { out << " x=\"" << pt.x << "\" y=\"" << pt.y << "\""; return out; } /** * Performance enhancements to file and directory operations. * * Note: while it's annoying to have to make copies of wxWidgets stuff and then * add platform-specific performance optimizations, the following routines offer * SIGNIFICANT performance benefits. */ /** * WX_FILENAME * * A wrapper around a wxFileName which avoids expensive calls to wxFileName::SplitPath() * and string concatenations by caching the path and filename locally and only resolving * the wxFileName when it has to. */ WX_FILENAME::WX_FILENAME( const wxString& aPath, const wxString& aFilename ) : m_fn( aPath, aFilename ), m_path( aPath ), m_fullName( aFilename ) { } void WX_FILENAME::SetFullName( const wxString& aFileNameAndExtension ) { m_fullName = aFileNameAndExtension; } wxString WX_FILENAME::GetName() const { size_t dot = m_fullName.find_last_of( wxT( '.' ) ); return m_fullName.substr( 0, dot ); } wxString WX_FILENAME::GetFullName() const { return m_fullName; } wxString WX_FILENAME::GetPath() const { return m_path; } wxString WX_FILENAME::GetFullPath() const { return m_path + wxT( '/' ) + m_fullName; } // Write locally-cached values to the wxFileName. MUST be called before using m_fn. void WX_FILENAME::resolve() { size_t dot = m_fullName.find_last_of( wxT( '.' ) ); m_fn.SetName( m_fullName.substr( 0, dot ) ); m_fn.SetExt( m_fullName.substr( dot + 1 ) ); } long long WX_FILENAME::GetTimestamp() { resolve(); if( m_fn.FileExists() ) return m_fn.GetModificationTime().GetValue().GetValue(); return 0; } /** * A copy of wxMatchWild(), which wxWidgets attributes to Douglas A. Lewis * and ircII's reg.c. * * This version is modified to skip any encoding conversions (for performance). */ bool matchWild( const char* pat, const char* text, bool dot_special ) { if( !*text ) { /* Match if both are empty. */ return !*pat; } const char *m = pat, *n = text, *ma = NULL, *na = NULL; int just = 0, acount = 0, count = 0; if( dot_special && (*n == '.') ) { /* Never match so that hidden Unix files * are never found. */ return false; } for(;;) { if( *m == '*' ) { ma = ++m; na = n; just = 1; acount = count; } else if( *m == '?' ) { m++; if( !*n++ ) return false; } else { if( *m == '\\' ) { m++; /* Quoting "nothing" is a bad thing */ if( !*m ) return false; } if( !*m ) { /* * If we are out of both strings or we just * saw a wildcard, then we can say we have a * match */ if( !*n ) return true; if( just ) return true; just = 0; goto not_matched; } /* * We could check for *n == NULL at this point, but * since it's more common to have a character there, * check to see if they match first (m and n) and * then if they don't match, THEN we can check for * the NULL of n */ just = 0; if( *m == *n ) { m++; count++; n++; } else { not_matched: /* * If there are no more characters in the * string, but we still need to find another * character (*m != NULL), then it will be * impossible to match it */ if( !*n ) return false; if( ma ) { m = ma; n = ++na; count = acount; } else return false; } } } } /** * A copy of ConvertFileTimeToWx() because wxWidgets left it as a static function * private to src/common/filename.cpp. */ #if wxUSE_DATETIME && defined(__WIN32__) && !defined(__WXMICROWIN__) // Convert between wxDateTime and FILETIME which is a 64-bit value representing // the number of 100-nanosecond intervals since January 1, 1601 UTC. // // This is the offset between FILETIME epoch and the Unix/wxDateTime Epoch. static wxInt64 EPOCH_OFFSET_IN_MSEC = wxLL(11644473600000); static void ConvertFileTimeToWx( wxDateTime *dt, const FILETIME &ft ) { wxLongLong t( ft.dwHighDateTime, ft.dwLowDateTime ); t /= 10000; // Convert hundreds of nanoseconds to milliseconds. t -= EPOCH_OFFSET_IN_MSEC; *dt = wxDateTime( t ); } #endif // wxUSE_DATETIME && __WIN32__ /** * TimestampDir * * This routine offers SIGNIFICANT performance benefits over using wxWidgets to gather * timestamps from matching files in a directory. * @param aDirPath the directory to search * @param aFilespec a (wildcarded) file spec to match against * @return a hash of the last-mod-dates of all matching files in the directory */ long long TimestampDir( const wxString& aDirPath, const wxString& aFilespec ) { long long timestamp = 0; #if defined( __WIN32__ ) // Win32 version. // Save time by not searching for each path twice: once in wxDir.GetNext() and once in // wxFileName.GetModificationTime(). Also cuts out wxWidgets' string-matching and case // conversion by staying on the MSW side of things. std::wstring filespec( aDirPath.t_str() ); filespec += '\\'; filespec += aFilespec.t_str(); WIN32_FIND_DATA findData; wxDateTime lastModDate; HANDLE fileHandle = ::FindFirstFile( filespec.data(), &findData ); if( fileHandle != INVALID_HANDLE_VALUE ) { do { ConvertFileTimeToWx( &lastModDate, findData.ftLastWriteTime ); timestamp += lastModDate.GetValue().GetValue(); } while ( FindNextFile( fileHandle, &findData ) != 0 ); } FindClose( fileHandle ); #else // POSIX version. // Save time by not converting between encodings -- do everything on the file-system side. std::string filespec( aFilespec.fn_str() ); std::string dir_path( aDirPath.fn_str() ); DIR* dir = opendir( dir_path.c_str() ); if( dir ) { for( dirent* dir_entry = readdir( dir ); dir_entry; dir_entry = readdir( dir ) ) { if( !matchWild( filespec.c_str(), dir_entry->d_name, true ) ) continue; std::string entry_path = dir_path + '/' + dir_entry->d_name; struct stat entry_stat; if( wxCRT_Lstat( entry_path.c_str(), &entry_stat ) == 0 ) { // Timestamp the source file, not the symlink if( S_ISLNK( entry_stat.st_mode ) ) // wxFILE_EXISTS_SYMLINK { char buffer[ PATH_MAX + 1 ]; ssize_t pathLen = readlink( entry_path.c_str(), buffer, PATH_MAX ); if( pathLen > 0 ) { struct stat linked_stat; buffer[ pathLen ] = '\0'; entry_path = dir_path + buffer; if( wxCRT_Lstat( entry_path.c_str(), &linked_stat ) == 0 ) { entry_stat = linked_stat; } else { // if we couldn't lstat the linked file we'll have to just use // the symbolic link info } } } if( S_ISREG( entry_stat.st_mode ) ) // wxFileExists() timestamp += entry_stat.st_mtime * 1000; } else { // if we couldn't lstat the file itself all we can do is use the name timestamp += (signed) std::hash{}( std::string( dir_entry->d_name ) ); } } closedir( dir ); } #endif return timestamp; }