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// **************************************************************************
// * This file is part of the FreeFileSync project. It is distributed under *
// * GNU General Public License: http://www.gnu.org/licenses/gpl.html *
// * Copyright (C) Zenju (zenju AT gmx DOT de) - All Rights Reserved *
// **************************************************************************
#include "structures.h"
#include <iterator>
#include <stdexcept>
#include <ctime>
#include <zen/i18n.h>
#include <zen/time.h>
using namespace zen;
std::wstring zen::getVariantName(CompareVariant var)
{
switch (var)
{
case CMP_BY_CONTENT:
return _("File content");
case CMP_BY_TIME_SIZE:
return _("File time and size");
}
assert(false);
return _("Error");
}
std::wstring zen::getVariantName(DirectionConfig::Variant var)
{
switch (var)
{
case DirectionConfig::AUTOMATIC:
return L"<- " + _("Two way") + L" ->";
case DirectionConfig::MIRROR:
return _("Mirror") + L" ->>";
case DirectionConfig::UPDATE:
return _("Update") + L" ->";
case DirectionConfig::CUSTOM:
return _("Custom");
}
assert(false);
return _("Error");
}
DirectionSet zen::extractDirections(const DirectionConfig& cfg)
{
DirectionSet output;
switch (cfg.var)
{
case DirectionConfig::AUTOMATIC:
throw std::logic_error("there are no predefined directions for automatic mode!");
case DirectionConfig::MIRROR:
output.exLeftSideOnly = SYNC_DIR_RIGHT;
output.exRightSideOnly = SYNC_DIR_RIGHT;
output.leftNewer = SYNC_DIR_RIGHT;
output.rightNewer = SYNC_DIR_RIGHT;
output.different = SYNC_DIR_RIGHT;
output.conflict = SYNC_DIR_RIGHT;
break;
case DirectionConfig::UPDATE:
output.exLeftSideOnly = SYNC_DIR_RIGHT;
output.exRightSideOnly = SYNC_DIR_NONE;
output.leftNewer = SYNC_DIR_RIGHT;
output.rightNewer = SYNC_DIR_NONE;
output.different = SYNC_DIR_RIGHT;
output.conflict = SYNC_DIR_NONE;
break;
case DirectionConfig::CUSTOM:
output = cfg.custom;
break;
}
return output;
}
DirectionSet zen::getTwoWaySet()
{
DirectionSet output;
output.exLeftSideOnly = SYNC_DIR_RIGHT;
output.exRightSideOnly = SYNC_DIR_LEFT;
output.leftNewer = SYNC_DIR_RIGHT;
output.rightNewer = SYNC_DIR_LEFT;
output.different = SYNC_DIR_NONE;
output.conflict = SYNC_DIR_NONE;
return output;
}
std::wstring MainConfiguration::getCompVariantName() const
{
const CompareVariant firstVariant = firstPair.altCmpConfig.get() ?
firstPair.altCmpConfig->compareVar :
cmpConfig.compareVar; //fallback to main sync cfg
//test if there's a deviating variant within the additional folder pairs
for (auto fp = additionalPairs.begin(); fp != additionalPairs.end(); ++fp)
{
const CompareVariant thisVariant = fp->altCmpConfig.get() ?
fp->altCmpConfig->compareVar :
cmpConfig.compareVar; //fallback to main sync cfg
if (thisVariant != firstVariant)
return _("Multiple...");
}
//seems to be all in sync...
return getVariantName(firstVariant);
}
std::wstring MainConfiguration::getSyncVariantName() const
{
const DirectionConfig::Variant firstVariant = firstPair.altSyncConfig.get() ?
firstPair.altSyncConfig->directionCfg.var :
syncCfg.directionCfg.var; //fallback to main sync cfg
//test if there's a deviating variant within the additional folder pairs
for (auto fp = additionalPairs.begin(); fp != additionalPairs.end(); ++fp)
{
const DirectionConfig::Variant thisVariant = fp->altSyncConfig.get() ?
fp->altSyncConfig->directionCfg.var :
syncCfg.directionCfg.var;
if (thisVariant != firstVariant)
return _("Multiple...");
}
//seems to be all in sync...
return getVariantName(firstVariant);
}
std::wstring zen::getSymbol(CompareFilesResult cmpRes)
{
switch (cmpRes)
{
case FILE_LEFT_SIDE_ONLY:
return L"only <-";
case FILE_RIGHT_SIDE_ONLY:
return L"only ->";
case FILE_LEFT_NEWER:
return L"newer <-";
case FILE_RIGHT_NEWER:
return L"newer ->";
case FILE_DIFFERENT:
return L"!=";
case FILE_EQUAL:
case FILE_DIFFERENT_METADATA: //= sub-category of equal!
return L"'=="; //added quotation mark to avoid error in Excel cell when exporting to *.cvs
case FILE_CONFLICT:
return L"conflict";
}
assert(false);
return std::wstring();
}
std::wstring zen::getSymbol(SyncOperation op)
{
switch (op)
{
case SO_CREATE_NEW_LEFT:
return L"create <-";
case SO_CREATE_NEW_RIGHT:
return L"create ->";
case SO_DELETE_LEFT:
return L"delete <-";
case SO_DELETE_RIGHT:
return L"delete ->";
case SO_MOVE_LEFT_SOURCE:
return L"move from <-";
case SO_MOVE_LEFT_TARGET:
return L"move to <-";
case SO_MOVE_RIGHT_SOURCE:
return L"move from ->";
case SO_MOVE_RIGHT_TARGET:
return L"move to ->";
case SO_OVERWRITE_LEFT:
case SO_COPY_METADATA_TO_LEFT:
return L"update <-";
case SO_OVERWRITE_RIGHT:
case SO_COPY_METADATA_TO_RIGHT:
return L"update ->";
case SO_DO_NOTHING:
return L" -";
case SO_EQUAL:
return L"'=="; //added quotation mark to avoid error in Excel cell when exporting to *.cvs
case SO_UNRESOLVED_CONFLICT:
return L"conflict";
};
assert(false);
return std::wstring();
}
namespace
{
assert_static(std::numeric_limits<zen:: Int64>::is_specialized);
assert_static(std::numeric_limits<zen::UInt64>::is_specialized);
/*
int daysSinceBeginOfWeek(int dayOfWeek) //0-6, 0=Monday, 6=Sunday
{
assert(0 <= dayOfWeek && dayOfWeek <= 6);
#ifdef ZEN_WIN
DWORD firstDayOfWeek = 0;
if (::GetLocaleInfo(LOCALE_USER_DEFAULT, //__in LCID Locale,
LOCALE_IFIRSTDAYOFWEEK | // first day of week specifier, 0-6, 0=Monday, 6=Sunday
LOCALE_RETURN_NUMBER, //__in LCTYPE LCType,
reinterpret_cast<LPTSTR>(&firstDayOfWeek), //__out LPTSTR lpLCData,
sizeof(firstDayOfWeek) / sizeof(TCHAR)) > 0) //__in int cchData
{
assert(firstDayOfWeek <= 6);
return (dayOfWeek + (7 - firstDayOfWeek)) % 7;
}
else //default
#endif
return dayOfWeek; //let all weeks begin with monday
}
*/
Int64 resolve(size_t value, UnitTime unit, Int64 defaultVal)
{
TimeComp locTimeStruc = zen::localTime();
switch (unit)
{
case UTIME_NONE:
return defaultVal;
case UTIME_TODAY:
locTimeStruc.second = 0; //0-61
locTimeStruc.minute = 0; //0-59
locTimeStruc.hour = 0; //0-23
return localToTimeT(locTimeStruc); //convert local time back to UTC
//case UTIME_THIS_WEEK:
//{
// localTimeFmt->tm_sec = 0; //0-61
// localTimeFmt->tm_min = 0; //0-59
// localTimeFmt->tm_hour = 0; //0-23
// const time_t timeFrom = ::mktime(localTimeFmt);
// int dayOfWeek = (localTimeFmt->tm_wday + 6) % 7; //tm_wday := days since Sunday 0-6
// // +6 == -1 in Z_7
// return Int64(timeFrom) - daysSinceBeginOfWeek(dayOfWeek) * 24 * 3600;
//}
case UTIME_THIS_MONTH:
locTimeStruc.second = 0; //0-61
locTimeStruc.minute = 0; //0-59
locTimeStruc.hour = 0; //0-23
locTimeStruc.day = 1; //1-31
return localToTimeT(locTimeStruc);
case UTIME_THIS_YEAR:
locTimeStruc.second = 0; //0-61
locTimeStruc.minute = 0; //0-59
locTimeStruc.hour = 0; //0-23
locTimeStruc.day = 1; //1-31
locTimeStruc.month = 1; //1-12
return localToTimeT(locTimeStruc);
case UTIME_LAST_X_DAYS:
locTimeStruc.second = 0; //0-61
locTimeStruc.minute = 0; //0-59
locTimeStruc.hour = 0; //0-23
return localToTimeT(locTimeStruc) - Int64(value) * 24 * 3600;
}
assert(false);
return localToTimeT(locTimeStruc);
}
UInt64 resolve(size_t value, UnitSize unit, UInt64 defaultVal)
{
const UInt64 maxVal =std::numeric_limits<zen::UInt64>::max();
switch (unit)
{
case USIZE_NONE:
return defaultVal;
case USIZE_BYTE:
return value;
case USIZE_KB:
return value > maxVal / 1024U ? maxVal : //prevent overflow!!!
1024U * value;
case USIZE_MB:
return value > maxVal / (1024 * 1024U) ? maxVal : //prevent overflow!!!
1024 * 1024U * value;
}
assert(false);
return defaultVal;
}
}
void zen::resolveUnits(size_t timeSpan, UnitTime unitTimeSpan,
size_t sizeMin, UnitSize unitSizeMin,
size_t sizeMax, UnitSize unitSizeMax,
zen::Int64& timeFrom, //unit: UTC time, seconds
zen::UInt64& sizeMinBy, //unit: bytes
zen::UInt64& sizeMaxBy) //unit: bytes
{
timeFrom = resolve(timeSpan, unitTimeSpan, std::numeric_limits<Int64>::min());
sizeMinBy = resolve(sizeMin, unitSizeMin, 0U);
sizeMaxBy = resolve(sizeMax, unitSizeMax, std::numeric_limits<UInt64>::max());
}
namespace
{
bool sameFilter(const std::vector<FolderPairEnh>& folderPairs)
{
if (folderPairs.empty())
return true;
for (std::vector<FolderPairEnh>::const_iterator fp = folderPairs.begin(); fp != folderPairs.end(); ++fp)
if (!(fp->localFilter == folderPairs[0].localFilter))
return false;
return true;
}
FilterConfig mergeFilterConfig(const FilterConfig& global, const FilterConfig& local)
{
FilterConfig out = local;
//hard filter
//pragmatism: if both global and local include filter contain data, only local filter is preserved
if (out.includeFilter == FilterConfig().includeFilter)
out.includeFilter = global.includeFilter;
trim(out.excludeFilter, true, false);
out.excludeFilter = global.excludeFilter + Zstr("\n") + out.excludeFilter;
trim(out.excludeFilter, true, false);
//soft filter
Int64 loctimeFrom;
UInt64 locSizeMinBy;
UInt64 locSizeMaxBy;
resolveUnits(out.timeSpan, out.unitTimeSpan,
out.sizeMin, out.unitSizeMin,
out.sizeMax, out.unitSizeMax,
loctimeFrom, //unit: UTC time, seconds
locSizeMinBy, //unit: bytes
locSizeMaxBy); //unit: bytes
//soft filter
Int64 glotimeFrom;
UInt64 gloSizeMinBy;
UInt64 gloSizeMaxBy;
resolveUnits(global.timeSpan, global.unitTimeSpan,
global.sizeMin, global.unitSizeMin,
global.sizeMax, global.unitSizeMax,
glotimeFrom,
gloSizeMinBy,
gloSizeMaxBy);
if (glotimeFrom > loctimeFrom)
{
out.timeSpan = global.timeSpan;
out.unitTimeSpan = global.unitTimeSpan;
}
if (gloSizeMinBy > locSizeMinBy)
{
out.sizeMin = global.sizeMin;
out.unitSizeMin = global.unitSizeMin;
}
if (gloSizeMaxBy < locSizeMaxBy)
{
out.sizeMax = global.sizeMax;
out.unitSizeMax = global.unitSizeMax;
}
return out;
}
inline
bool isEmpty(const FolderPairEnh& fp)
{
return fp == FolderPairEnh();
}
}
MainConfiguration zen::merge(const std::vector<MainConfiguration>& mainCfgs)
{
assert(!mainCfgs.empty());
if (mainCfgs.empty())
return MainConfiguration();
if (mainCfgs.size() == 1) //mergeConfigFilesImpl relies on this!
return mainCfgs[0]; //
//merge folder pair config
std::vector<FolderPairEnh> fpMerged;
for (auto iterMain = mainCfgs.begin(); iterMain != mainCfgs.end(); ++iterMain)
{
std::vector<FolderPairEnh> fpTmp;
//list non-empty local configurations
if (!isEmpty(iterMain->firstPair))
fpTmp.push_back(iterMain->firstPair);
std::copy_if(iterMain->additionalPairs.begin(), iterMain->additionalPairs.end(), std::back_inserter(fpTmp),
[](const FolderPairEnh& fp) { return !isEmpty(fp); });
//move all configuration down to item level
for (std::vector<FolderPairEnh>::iterator fp = fpTmp.begin(); fp != fpTmp.end(); ++fp)
{
if (!fp->altCmpConfig.get())
fp->altCmpConfig = std::make_shared<CompConfig>(iterMain->cmpConfig);
if (!fp->altSyncConfig.get())
fp->altSyncConfig = std::make_shared<SyncConfig>(iterMain->syncCfg);
fp->localFilter = mergeFilterConfig(iterMain->globalFilter, fp->localFilter);
}
fpMerged.insert(fpMerged.end(), fpTmp.begin(), fpTmp.end());
}
if (fpMerged.empty())
return MainConfiguration();
//optimization: remove redundant configuration
//########################################################################################################################
//find out which comparison and synchronization setting are used most often and use them as new "header"
std::vector<std::pair<CompConfig, int>> cmpCfgStat;
std::vector<std::pair<SyncConfig, int>> syncCfgStat;
for (auto fp = fpMerged.begin(); fp != fpMerged.end(); ++fp) //rather inefficient algorithm, but it does not require a less-than operator!
{
{
const CompConfig& cmpCfg = *fp->altCmpConfig;
auto it = std::find_if(cmpCfgStat.begin(), cmpCfgStat.end(),
[&](const std::pair<CompConfig, int>& entry) { return entry.first == cmpCfg; });
if (it == cmpCfgStat.end())
cmpCfgStat.push_back(std::make_pair(cmpCfg, 1));
else
++(it->second);
}
{
const SyncConfig& syncCfg = *fp->altSyncConfig;
auto it = std::find_if(syncCfgStat.begin(), syncCfgStat.end(),
[&](const std::pair<SyncConfig, int>& entry) { return entry.first == syncCfg; });
if (it == syncCfgStat.end())
syncCfgStat.push_back(std::make_pair(syncCfg, 1));
else
++(it->second);
}
}
//set most-used comparison and synchronization settions as new header options
const CompConfig cmpCfgHead = cmpCfgStat.empty() ? CompConfig() :
std::max_element(cmpCfgStat.begin(), cmpCfgStat.end(),
[](const std::pair<CompConfig, int>& lhs, const std::pair<CompConfig, int>& rhs) { return lhs.second < rhs.second; })->first;
const SyncConfig syncCfgHead = syncCfgStat.empty() ? SyncConfig() :
std::max_element(syncCfgStat.begin(), syncCfgStat.end(),
[](const std::pair<SyncConfig, int>& lhs, const std::pair<SyncConfig, int>& rhs) { return lhs.second < rhs.second; })->first;
//########################################################################################################################
FilterConfig globalFilter;
const bool equalFilters = sameFilter(fpMerged);
if (equalFilters)
globalFilter = fpMerged[0].localFilter;
//strip redundancy...
for (auto fp = fpMerged.begin(); fp != fpMerged.end(); ++fp)
{
//if local config matches output global config we don't need local one
if (fp->altCmpConfig &&
*fp->altCmpConfig == cmpCfgHead)
fp->altCmpConfig.reset();
if (fp->altSyncConfig &&
*fp->altSyncConfig == syncCfgHead)
fp->altSyncConfig.reset();
if (equalFilters) //use global filter in this case
fp->localFilter = FilterConfig();
}
//final assembly
zen::MainConfiguration cfgOut;
cfgOut.cmpConfig = cmpCfgHead;
cfgOut.syncCfg = syncCfgHead;
cfgOut.globalFilter = globalFilter;
cfgOut.firstPair = fpMerged[0];
cfgOut.additionalPairs.assign(fpMerged.begin() + 1, fpMerged.end());
cfgOut.onCompletion = mainCfgs[0].onCompletion;
return cfgOut;
}
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