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#include "algorithm.h"
#include <wx/intl.h>
#include <wx/log.h>
#include "library/resources.h"
#include "shared/globalFunctions.h"
#include "shared/systemFunctions.h"
#include "shared/fileHandling.h"
#include <wx/msgdlg.h>
#include <wx/textctrl.h>
#include <wx/combobox.h>
#include <wx/filepicker.h>
#include "shared/localization.h"
#ifdef FFS_WIN
#include <wx/msw/wrapwin.h> //includes "windows.h"
#endif
using namespace FreeFileSync;
wxString FreeFileSync::formatFilesizeToShortString(const wxLongLong& filesize)
{
return FreeFileSync::formatFilesizeToShortString(filesize.ToDouble());
}
wxString FreeFileSync::formatFilesizeToShortString(const wxULongLong& filesize)
{
return FreeFileSync::formatFilesizeToShortString(filesize.ToDouble());
};
wxString FreeFileSync::formatFilesizeToShortString(const double filesize)
{
if (filesize < 0)
return _("Error");
if (filesize <= 999)
return wxString::Format(wxT("%i"), static_cast<int>(filesize)) + _(" Byte"); //no decimal places in case of bytes
double nrOfBytes = filesize;
nrOfBytes /= 1024;
wxString unit = _(" kB");
if (nrOfBytes > 999)
{
nrOfBytes /= 1024;
unit = _(" MB");
if (nrOfBytes > 999)
{
nrOfBytes /= 1024;
unit = _(" GB");
if (nrOfBytes > 999)
{
nrOfBytes /= 1024;
unit = _(" TB");
if (nrOfBytes > 999)
{
nrOfBytes /= 1024;
unit = _(" PB");
}
}
}
}
//print just three significant digits: 0,01 | 0,11 | 1,11 | 11,1 | 111
const unsigned int leadDigitCount = globalFunctions::getDigitCount(static_cast<unsigned int>(nrOfBytes)); //number of digits before decimal point
if (leadDigitCount == 0 || leadDigitCount > 3)
return _("Error");
if (leadDigitCount == 3)
return wxString::Format(wxT("%i"), static_cast<int>(nrOfBytes)) + unit;
else if (leadDigitCount == 2)
{
wxString output = wxString::Format(wxT("%i"), static_cast<int>(nrOfBytes * 10));
output.insert(leadDigitCount, FreeFileSync::DECIMAL_POINT);
return output + unit;
}
else //leadDigitCount == 1
{
wxString output = wxString::Format(wxT("%03i"), static_cast<int>(nrOfBytes * 100));
output.insert(leadDigitCount, FreeFileSync::DECIMAL_POINT);
return output + unit;
}
//return wxString::Format(wxT("%.*f"), 3 - leadDigitCount, nrOfBytes) + unit;
}
wxString FreeFileSync::includeNumberSeparator(const wxString& number)
{
wxString output(number);
for (int i = output.size() - 3; i > 0; i -= 3)
output.insert(i, FreeFileSync::THOUSANDS_SEPARATOR);
return output;
}
template <class T>
void setDirectoryNameImpl(const wxString& dirname, T* txtCtrl, wxDirPickerCtrl* dirPicker)
{
txtCtrl->SetValue(dirname);
const Zstring leftDirFormatted = FreeFileSync::getFormattedDirectoryName(dirname.c_str());
if (wxDirExists(leftDirFormatted.c_str()))
dirPicker->SetPath(leftDirFormatted.c_str());
}
void FreeFileSync::setDirectoryName(const wxString& dirname, wxTextCtrl* txtCtrl, wxDirPickerCtrl* dirPicker)
{
setDirectoryNameImpl(dirname, txtCtrl, dirPicker);
}
void FreeFileSync::setDirectoryName(const wxString& dirname, wxComboBox* txtCtrl, wxDirPickerCtrl* dirPicker)
{
txtCtrl->SetSelection(wxNOT_FOUND);
setDirectoryNameImpl(dirname, txtCtrl, dirPicker);
}
void FreeFileSync::swapGrids(const SyncConfiguration& config, FolderComparison& folderCmp)
{
for (FolderComparison::iterator j = folderCmp.begin(); j != folderCmp.end(); ++j)
{
std::swap(j->syncPair.leftDirectory, j->syncPair.rightDirectory);
FileComparison& fileCmp = j->fileCmp;
for (FileComparison::iterator i = fileCmp.begin(); i != fileCmp.end(); ++i)
{
//swap compare result
if (i->cmpResult == FILE_LEFT_SIDE_ONLY)
i->cmpResult = FILE_RIGHT_SIDE_ONLY;
else if (i->cmpResult == FILE_RIGHT_SIDE_ONLY)
i->cmpResult = FILE_LEFT_SIDE_ONLY;
else if (i->cmpResult == FILE_RIGHT_NEWER)
i->cmpResult = FILE_LEFT_NEWER;
else if (i->cmpResult == FILE_LEFT_NEWER)
i->cmpResult = FILE_RIGHT_NEWER;
//swap file descriptors
std::swap(i->fileDescrLeft, i->fileDescrRight);
}
}
//adjust sync direction
redetermineSyncDirection(config, folderCmp);
}
void FreeFileSync::redetermineSyncDirection(const SyncConfiguration& config, FolderComparison& folderCmp)
{
//do not handle i->selectedForSynchronization in this method! handled in synchronizeFile(), synchronizeFolder()!
for (FolderComparison::iterator j = folderCmp.begin(); j != folderCmp.end(); ++j)
{
FileComparison& fileCmp = j->fileCmp;
for (FileComparison::iterator i = fileCmp.begin(); i != fileCmp.end(); ++i)
{
switch (i->cmpResult)
{
case FILE_LEFT_SIDE_ONLY:
i->syncDir = convertToSyncDirection(config.exLeftSideOnly);
break;
case FILE_RIGHT_SIDE_ONLY:
i->syncDir = convertToSyncDirection(config.exRightSideOnly);
break;
case FILE_RIGHT_NEWER:
i->syncDir = convertToSyncDirection(config.rightNewer);
break;
case FILE_LEFT_NEWER:
i->syncDir = convertToSyncDirection(config.leftNewer);
break;
case FILE_DIFFERENT:
i->syncDir = convertToSyncDirection(config.different);
break;
case FILE_CONFLICT:
i->syncDir = SYNC_UNRESOLVED_CONFLICT;
break;
case FILE_EQUAL:
i->syncDir = SYNC_DIR_NONE;
}
}
}
}
//add(!) all files and subfolder gridlines that are dependent from the directory
void FreeFileSync::addSubElements(const FileComparison& fileCmp, const FileCompareLine& relevantRow, std::set<int>& subElements)
{
const FileDescrLine& relFileDescrLeft = relevantRow.fileDescrLeft;
const FileDescrLine& relFileDescrRight = relevantRow.fileDescrRight;
Zstring relevantDirectory;
if (relFileDescrLeft.objType == FileDescrLine::TYPE_DIRECTORY)
relevantDirectory = Zstring(relFileDescrLeft.relativeName.c_str(), relFileDescrLeft.relativeName.length());
else if (relFileDescrRight.objType == FileDescrLine::TYPE_DIRECTORY)
relevantDirectory = Zstring(relFileDescrRight.relativeName.c_str(), relFileDescrRight.relativeName.length());
else
return;
relevantDirectory += globalFunctions::FILE_NAME_SEPARATOR; //FILE_NAME_SEPARATOR needed to exclude subfile/dirs only
for (FileComparison::const_iterator i = fileCmp.begin(); i != fileCmp.end(); ++i)
{
if (i->fileDescrLeft.objType != FileDescrLine::TYPE_NOTHING)
{
if (i->fileDescrLeft.relativeName.StartsWith(relevantDirectory))
subElements.insert(i - fileCmp.begin());
}
//"else if": no need to do a redundant check on both sides: relative names should be the same!
else if (i->fileDescrRight.objType != FileDescrLine::TYPE_NOTHING)
{
if (i->fileDescrRight.relativeName.StartsWith(relevantDirectory))
subElements.insert(i - fileCmp.begin());
}
}
}
//############################################################################################################
struct SortedFileName
{
unsigned position;
Zstring name;
bool operator < (const SortedFileName& b) const
{
return position < b.position;
}
};
//assemble message containing all files to be deleted
std::pair<wxString, int> FreeFileSync::deleteFromGridAndHDPreview(const FileComparison& fileCmp,
const std::set<int>& rowsToDeleteOnLeft,
const std::set<int>& rowsToDeleteOnRight,
const bool deleteOnBothSides)
{
wxString filesToDelete;
int totalDelCount = 0;
if (deleteOnBothSides)
{
//mix selected rows from left and right
std::set<int> rowsToDelete = rowsToDeleteOnLeft;
for (std::set<int>::const_iterator i = rowsToDeleteOnRight.begin(); i != rowsToDeleteOnRight.end(); ++i)
rowsToDelete.insert(*i);
for (std::set<int>::const_iterator i = rowsToDelete.begin(); i != rowsToDelete.end(); ++i)
{
const FileCompareLine& currentCmpLine = fileCmp[*i];
if (currentCmpLine.fileDescrLeft.objType != FileDescrLine::TYPE_NOTHING)
{
filesToDelete += (currentCmpLine.fileDescrLeft.fullName + wxT("\n")).c_str();
++totalDelCount;
}
if (currentCmpLine.fileDescrRight.objType != FileDescrLine::TYPE_NOTHING)
{
filesToDelete += (currentCmpLine.fileDescrRight.fullName + wxT("\n")).c_str();
++totalDelCount;
}
filesToDelete+= wxT("\n");
}
return std::pair<wxString, int>(filesToDelete, totalDelCount);
}
else //delete selected files only
{
std::set<SortedFileName> outputTable; //sort selected files from left and right ascending by row number
SortedFileName newEntry;
for (std::set<int>::const_iterator i = rowsToDeleteOnLeft.begin(); i != rowsToDeleteOnLeft.end(); ++i)
{
const FileCompareLine& currentCmpLine = fileCmp[*i];
if (currentCmpLine.fileDescrLeft.objType != FileDescrLine::TYPE_NOTHING)
{
newEntry.position = *i * 10;
newEntry.name = currentCmpLine.fileDescrLeft.fullName;
outputTable.insert(newEntry);
++totalDelCount;
}
}
for (std::set<int>::const_iterator i = rowsToDeleteOnRight.begin(); i != rowsToDeleteOnRight.end(); ++i)
{
const FileCompareLine& currentCmpLine = fileCmp[*i];
if (currentCmpLine.fileDescrRight.objType != FileDescrLine::TYPE_NOTHING)
{
newEntry.position = *i * 10 + 1; //ensure files on left are before files on right for the same row number
newEntry.name = currentCmpLine.fileDescrRight.fullName;
outputTable.insert(newEntry);
++totalDelCount;
}
}
for (std::set<SortedFileName>::const_iterator i = outputTable.begin(); i != outputTable.end(); ++i)
filesToDelete += (i->name + wxT("\n")).c_str();
return std::pair<wxString, int>(filesToDelete, totalDelCount);
}
}
class RemoveAtExit //this class ensures, that the result of the method below is ALWAYS written on exit, even if exceptions are thrown!
{
public:
RemoveAtExit(FreeFileSync::FileComparison& fileCmp) :
gridToWrite(fileCmp) {}
~RemoveAtExit()
{
globalFunctions::removeRowsFromVector(rowsProcessed, gridToWrite);
}
void removeRow(int nr)
{
rowsProcessed.insert(nr);
}
private:
FreeFileSync::FileComparison& gridToWrite;
std::set<int> rowsProcessed;
};
template <bool leftSide> //update compareGrid row information after deletion from leftSide (or !leftSide)
inline
void updateCmpLineAfterDeletion(const int rowNr, const SyncConfiguration& syncConfig, FileComparison& fileCmp, RemoveAtExit& markForRemoval)
{
//retrieve all files and subfolder gridlines that are dependent from this deleted entry
std::set<int> rowsToDelete;
rowsToDelete.insert(rowNr);
FreeFileSync::addSubElements(fileCmp, fileCmp[rowNr], rowsToDelete);
//remove deleted entries from fileCmp (or adapt it if deleted from one side only)
for (std::set<int>::iterator j = rowsToDelete.begin(); j != rowsToDelete.end(); ++j)
{
FileCompareLine& currentLine = fileCmp[*j];
//file descriptor for "other side"
const FileDescrLine* const fileDescrPartner = leftSide ? ¤tLine.fileDescrRight : ¤tLine.fileDescrLeft;
//remove deleted entries from grid
if (fileDescrPartner->objType == FileDescrLine::TYPE_NOTHING)
markForRemoval.removeRow(*j);
else
{
//get descriptor for file to be deleted; evaluated at compile time
FileDescrLine* const fileDescr = leftSide ? ¤tLine.fileDescrLeft : ¤tLine.fileDescrRight;
//initialize fileDescr for deleted file/folder
*fileDescr = FileDescrLine();
//adapt the compare result and sync direction
if (leftSide) //again evaluated at compile time
{
currentLine.cmpResult = FILE_RIGHT_SIDE_ONLY;
currentLine.syncDir = convertToSyncDirection(syncConfig.exRightSideOnly);
}
else
{
currentLine.cmpResult = FILE_LEFT_SIDE_ONLY;
currentLine.syncDir = convertToSyncDirection(syncConfig.exLeftSideOnly);
}
}
}
}
template <bool leftSide>
void deleteFromGridAndHDOneSide(FileComparison& fileCmp,
const std::set<int>& rowsToDeleteOneSide,
const bool useRecycleBin,
RemoveAtExit& markForRemoval,
const SyncConfiguration& syncConfig,
DeleteFilesHandler* statusHandler)
{
for (std::set<int>::const_iterator i = rowsToDeleteOneSide.begin(); i != rowsToDeleteOneSide.end(); ++i)
{
//get descriptor for file to be deleted; evaluated at compile time
const FileDescrLine* const fileDescr = leftSide ? &fileCmp[*i].fileDescrLeft : &fileCmp[*i].fileDescrRight;
while (true)
{
try
{
switch (fileDescr->objType)
{
case FileDescrLine::TYPE_FILE:
FreeFileSync::removeFile(fileDescr->fullName, useRecycleBin);
updateCmpLineAfterDeletion<leftSide>(*i, syncConfig, fileCmp, markForRemoval); //remove entries from fileCmp
statusHandler->deletionSuccessful(); //notify successful file/folder deletion
break;
case FileDescrLine::TYPE_DIRECTORY:
FreeFileSync::removeDirectory(fileDescr->fullName, useRecycleBin);
updateCmpLineAfterDeletion<leftSide>(*i, syncConfig, fileCmp, markForRemoval); //remove entries from fileCmp
statusHandler->deletionSuccessful(); //notify successful file/folder deletion
break;
case FileDescrLine::TYPE_NOTHING:
break;
}
break;
}
catch (const FileError& error)
{
DeleteFilesHandler::Response rv = statusHandler->reportError(error.show());
if (rv == DeleteFilesHandler::IGNORE_ERROR)
break;
else if (rv == DeleteFilesHandler::RETRY)
; //continue in loop
else
assert (false);
}
}
}
}
void FreeFileSync::deleteFromGridAndHD(FileComparison& fileCmp,
const std::set<int>& rowsToDeleteOnLeft,
const std::set<int>& rowsToDeleteOnRight,
const bool deleteOnBothSides,
const bool useRecycleBin,
const SyncConfiguration& syncConfig,
DeleteFilesHandler* statusHandler)
{
//remove deleted rows from fileCmp (AFTER all rows to be deleted are known: consider row references!
RemoveAtExit markForRemoval(fileCmp); //ensure that fileCmp is always written to, even if method is exitted via exceptions
if (deleteOnBothSides)
{
//mix selected rows from left and right
std::set<int> rowsToDeleteBothSides = rowsToDeleteOnLeft;
for (std::set<int>::const_iterator i = rowsToDeleteOnRight.begin(); i != rowsToDeleteOnRight.end(); ++i)
rowsToDeleteBothSides.insert(*i);
deleteFromGridAndHDOneSide<true>(fileCmp,
rowsToDeleteBothSides,
useRecycleBin,
markForRemoval,
syncConfig,
statusHandler);
deleteFromGridAndHDOneSide<false>(fileCmp,
rowsToDeleteBothSides,
useRecycleBin,
markForRemoval,
syncConfig,
statusHandler);
}
else
{
deleteFromGridAndHDOneSide<true>(fileCmp,
rowsToDeleteOnLeft,
useRecycleBin,
markForRemoval,
syncConfig,
statusHandler);
deleteFromGridAndHDOneSide<false>(fileCmp,
rowsToDeleteOnRight,
useRecycleBin,
markForRemoval,
syncConfig,
statusHandler);
}
}
//############################################################################################################
inline
void writeTwoDigitNumber(unsigned int number, wxChar*& position)
{
assert (number < 100);
*position = '0' + number / 10;
position[1] = '0' + number % 10;
position += 2;
}
inline
void writeFourDigitNumber(unsigned int number, wxChar*& position)
{
assert (number < 10000);
*position = '0' + number / 1000;
number %= 1000;
position[1] = '0' + number / 100;
number %= 100;
position[2] = '0' + number / 10;
number %= 10;
position[3] = '0' + number;
position += 4;
}
wxString FreeFileSync::utcTimeToLocalString(const wxLongLong& utcTime, const Zstring& filename)
{
#ifdef FFS_WIN
//convert ansi C time to FILETIME
wxLongLong fileTimeLong(utcTime);
fileTimeLong += wxLongLong(2, 3054539008UL); //timeshift between ansi C time and FILETIME in seconds == 11644473600s
fileTimeLong *= 10000000;
FILETIME lastWriteTimeUtc;
lastWriteTimeUtc.dwLowDateTime = fileTimeLong.GetLo(); //GetLo() returns unsigned
lastWriteTimeUtc.dwHighDateTime = unsigned(fileTimeLong.GetHi()); //GetHi() returns signed
FILETIME localFileTime;
if (::FileTimeToLocalFileTime( //convert to local time
&lastWriteTimeUtc, //pointer to UTC file time to convert
&localFileTime //pointer to converted file time
) == 0)
throw RuntimeException(wxString(_("Conversion error:")) + wxT(" FILETIME -> local FILETIME: ") +
wxT("(") + wxULongLong(lastWriteTimeUtc.dwHighDateTime, lastWriteTimeUtc.dwLowDateTime).ToString() + wxT(") ") +
filename.c_str() + wxT("\n\n") + getLastErrorFormatted().c_str());
if (localFileTime.dwHighDateTime > 0x7fffffff)
return _("Error"); //this actually CAN happen if UTC time is just below this border and ::FileTimeToLocalFileTime() adds 2 hours due to DST or whatever!
//Testcase (UTC): dateHigh = 2147483647 (=0x7fffffff) -> year 30000
// dateLow = 4294967295
SYSTEMTIME time;
if (::FileTimeToSystemTime(
&localFileTime, //pointer to file time to convert
&time //pointer to structure to receive system time
) == 0)
throw RuntimeException(wxString(_("Conversion error:")) + wxT(" local FILETIME -> SYSTEMTIME: ") +
wxT("(") + wxULongLong(localFileTime.dwHighDateTime, localFileTime.dwLowDateTime).ToString() + wxT(") ") +
filename.c_str() + wxT("\n\n") + getLastErrorFormatted().c_str());
//assemble time string (performance optimized)
wxChar formattedTime[21];
wxChar* p = formattedTime;
writeFourDigitNumber(time.wYear, p);
*(p++) = wxChar('-');
writeTwoDigitNumber(time.wMonth, p);
*(p++) = wxChar('-');
writeTwoDigitNumber(time.wDay, p);
*(p++) = wxChar(' ');
*(p++) = wxChar(' ');
writeTwoDigitNumber(time.wHour, p);
*(p++) = wxChar(':');
writeTwoDigitNumber(time.wMinute, p);
*(p++) = wxChar(':');
writeTwoDigitNumber(time.wSecond, p);
*p = 0;
return wxString(formattedTime);
#elif defined FFS_LINUX
tm* timeinfo;
const time_t fileTime = utcTime.ToLong();
timeinfo = localtime(&fileTime); //convert to local time
char buffer[50];
strftime(buffer, 50, "%Y-%m-%d %H:%M:%S", timeinfo);
return wxString(buffer);
#endif
}
/*Statistical theory: detect daylight saving time (DST) switch by comparing files that exist on both sides (and have same filesizes). If there are "enough"
that have a shift by +-1h then assert that DST switch occured.
What is "enough" =: N? N should be large enough AND small enough that the following two errors remain small:
Error 1: A DST switch is detected although there was none
Error 2: A DST switch is not detected although it took place
Error 1 results in lower bound, error 2 in upper bound for N.
Target: Choose N such that probability of error 1 and error 2 is lower than 0.001 (0.1%)
Definitions:
p1: probability that a file with same filesize on both sides was changed nevertheless
p2: probability that a changed file has +1h shift in filetime due to a change
M: number of files with same filesize on both sides in total
N: number of files with same filesize and time-diff +1h when DST check shall detect "true"
X: number of files with same filesize that have a +1h difference after change
Error 1 ("many files have +1h shift by chance") imposes:
Probability of error 1: (binomial distribution)
P(X >= N) = 1 - P(X <= N - 1) =
1 - sum_i=0^N-1 p3^i * (1 - p3)^(M - i) (M above i) shall be <= 0.0005
with p3 := p1 * p2
Probability of error 2 also will be <= 0.0005 if we choose N as lowest number that satisfies the preceding formula. Proof is left to the reader.
The function M |-> N behaves almost linearly and can be empirically approximated by:
N(M) =
2 for 0 <= M <= 500
125/1000000 * M + 5 for 500 < M <= 50000
77/1000000 * M + 10 for 50000 < M <= 400000
60/1000000 * M + 35 for 400000 < M
inline
bool sameFileTime(const time_t a, const time_t b)
{
if (a < b)
return b - a <= FILE_TIME_PRECISION;
else
return a - b <= FILE_TIME_PRECISION;
}
#ifdef FFS_WIN
unsigned int getThreshold(const unsigned filesWithSameSizeTotal)
{
if (filesWithSameSizeTotal <= 500)
return 2;
else if (filesWithSameSizeTotal <= 50000)
return unsigned(125.0/1000000 * filesWithSameSizeTotal + 5.0);
else if (filesWithSameSizeTotal <= 400000)
return unsigned(77.0/1000000 * filesWithSameSizeTotal + 10.0);
else
return unsigned(60.0/1000000 * filesWithSameSizeTotal + 35.0);
}
void FreeFileSync::checkForDSTChange(const FileCompareResult& gridData,
const std::vector<FolderPair>& directoryPairsFormatted,
int& timeShift, wxString& driveName)
{
driveName.Clear();
timeShift = 0;
TIME_ZONE_INFORMATION dummy;
DWORD rv = GetTimeZoneInformation(&dummy);
if (rv == TIME_ZONE_ID_UNKNOWN) return;
bool dstActive = rv == TIME_ZONE_ID_DAYLIGHT;
for (std::vector<FolderPair>::const_iterator i = directoryPairsFormatted.begin(); i != directoryPairsFormatted.end(); ++i)
{
bool leftDirIsFat = isFatDrive(i->leftDirectory);
bool rightDirIsFat = isFatDrive(i->rightDirectory);
if (leftDirIsFat || rightDirIsFat)
{
unsigned int filesTotal = 0; //total number of files (with same size on both sides)
unsigned int plusOneHourCount = 0; //number of files with +1h time shift
unsigned int minusOneHourCount = 0; // "
for (FileCompareResult::const_iterator j = gridData.begin(); j != gridData.end(); ++j)
{
const FileDescrLine& leftFile = j->fileDescrLeft;
const FileDescrLine& rightFile = j->fileDescrRight;
if ( leftFile.objType == FileDescrLine::TYPE_FILE && rightFile.objType == FileDescrLine::TYPE_FILE &&
leftFile.fileSize == rightFile.fileSize &&
leftFile.directory.CmpNoCase(i->leftDirectory.c_str()) == 0 && //Windows does NOT distinguish between upper/lower-case
rightFile.directory.CmpNoCase(i->rightDirectory.c_str()) == 0) //
{
++filesTotal;
if (sameFileTime(leftFile.lastWriteTimeRaw - 3600, rightFile.lastWriteTimeRaw))
++plusOneHourCount;
else if (sameFileTime(leftFile.lastWriteTimeRaw + 3600, rightFile.lastWriteTimeRaw))
++minusOneHourCount;
}
}
unsigned int threshold = getThreshold(filesTotal);
if (plusOneHourCount >= threshold)
{
if (dstActive)
{
if (rightDirIsFat) //it should be FAT; else this were some kind of error
{
timeShift = 3600;
driveName = getDriveName(i->rightDirectory);
}
}
else
{
if (leftDirIsFat) //it should be FAT; else this were some kind of error
{
timeShift = -3600;
driveName = getDriveName(i->leftDirectory);
}
}
return;
}
else if (minusOneHourCount >= threshold)
{
if (dstActive)
{
if (leftDirIsFat) //it should be FAT; else this were some kind of error
{
timeShift = 3600;
driveName = getDriveName(i->leftDirectory);
}
}
else
{
if (rightDirIsFat) //it should be FAT; else this were some kind of error
{
timeShift = -3600;
driveName = getDriveName(i->rightDirectory);
}
}
return;
}
}
}
}
#endif //FFS_WIN
*/
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