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#include "gridView.h"
#include "sorting.h"
#include "../synchronization.h"
#include <boost/bind.hpp>
using namespace FreeFileSync;
GridView::StatusCmpResult::StatusCmpResult() :
existsLeftOnly(false),
existsRightOnly(false),
existsLeftNewer(false),
existsRightNewer(false),
existsDifferent(false),
existsEqual(false),
existsConflict(false),
filesOnLeftView(0),
foldersOnLeftView(0),
filesOnRightView(0),
foldersOnRightView(0) {}
GridView::StatusCmpResult GridView::updateCmpResult(bool hideFiltered, //maps sortedRef to viewRef
bool leftOnlyFilesActive,
bool rightOnlyFilesActive,
bool leftNewerFilesActive,
bool rightNewerFilesActive,
bool differentFilesActive,
bool equalFilesActive,
bool conflictFilesActive)
{
StatusCmpResult output;
viewRef.clear();
for (std::vector<RefIndex>::const_iterator j = sortedRef.begin(); j != sortedRef.end(); ++j)
{
const FileSystemObject* fsObj = getReferencedRow(*j);
if (fsObj)
{
//hide filtered row, if corresponding option is set
if (hideFiltered && !fsObj->selectedForSynchronization)
continue;
switch (fsObj->getCategory())
{
case FILE_LEFT_SIDE_ONLY:
output.existsLeftOnly = true;
if (!leftOnlyFilesActive) continue;
break;
case FILE_RIGHT_SIDE_ONLY:
output.existsRightOnly = true;
if (!rightOnlyFilesActive) continue;
break;
case FILE_LEFT_NEWER:
output.existsLeftNewer = true;
if (!leftNewerFilesActive) continue;
break;
case FILE_RIGHT_NEWER:
output.existsRightNewer = true;
if (!rightNewerFilesActive) continue;
break;
case FILE_DIFFERENT:
output.existsDifferent = true;
if (!differentFilesActive) continue;
break;
case FILE_EQUAL:
output.existsEqual = true;
if (!equalFilesActive) continue;
break;
case FILE_CONFLICT:
output.existsConflict = true;
if (!conflictFilesActive) continue;
break;
}
//calculate total number of bytes for each side
const FileMapping* fileObj = dynamic_cast<const FileMapping*>(fsObj);
if (fileObj)
{
if (!fileObj->isEmpty<LEFT_SIDE>())
{
output.filesizeLeftView += fileObj->getFileSize<LEFT_SIDE>();
++output.filesOnLeftView;
}
if (!fileObj->isEmpty<RIGHT_SIDE>())
{
output.filesizeRightView += fileObj->getFileSize<RIGHT_SIDE>();
++output.filesOnRightView;
}
}
else
{
const DirMapping* dirObj = dynamic_cast<const DirMapping*>(fsObj);
if (dirObj)
{
if (!dirObj->isEmpty<LEFT_SIDE>())
++output.foldersOnLeftView;
if (!dirObj->isEmpty<RIGHT_SIDE>())
++output.foldersOnRightView;
}
}
viewRef.push_back(*j);
}
}
return output;
}
GridView::StatusSyncPreview::StatusSyncPreview() :
existsSyncCreateLeft(false),
existsSyncCreateRight(false),
existsSyncDeleteLeft(false),
existsSyncDeleteRight(false),
existsSyncDirLeft(false),
existsSyncDirRight(false),
existsSyncDirNone(false),
existsConflict(false),
filesOnLeftView(0),
foldersOnLeftView(0),
filesOnRightView(0),
foldersOnRightView(0) {}
GridView::StatusSyncPreview GridView::updateSyncPreview(bool hideFiltered, //maps sortedRef to viewRef
bool syncCreateLeftActive,
bool syncCreateRightActive,
bool syncDeleteLeftActive,
bool syncDeleteRightActive,
bool syncDirOverwLeftActive,
bool syncDirOverwRightActive,
bool syncDirNoneActive,
bool conflictFilesActive)
{
StatusSyncPreview output;
viewRef.clear();
for (std::vector<RefIndex>::const_iterator j = sortedRef.begin(); j != sortedRef.end(); ++j)
{
const FileSystemObject* fsObj = getReferencedRow(*j);
if (fsObj)
{
//synchronization preview
//exclude result "=="
//#warning na dann consider mal!
if (fsObj->getCategory() == FILE_EQUAL) //note: consider "objectsTotal"
continue;
//hide filtered row, if corresponding option is set
if (hideFiltered && !fsObj->selectedForSynchronization)
continue;
switch (FreeFileSync::getSyncOperation(*fsObj)) //evaluate comparison result and sync direction
{
case SO_CREATE_NEW_LEFT:
output.existsSyncCreateLeft = true;
if (!syncCreateLeftActive) continue;
break;
case SO_CREATE_NEW_RIGHT:
output.existsSyncCreateRight = true;
if (!syncCreateRightActive) continue;
break;
case SO_DELETE_LEFT:
output.existsSyncDeleteLeft = true;
if (!syncDeleteLeftActive) continue;
break;
case SO_DELETE_RIGHT:
output.existsSyncDeleteRight = true;
if (!syncDeleteRightActive) continue;
break;
case SO_OVERWRITE_RIGHT:
output.existsSyncDirRight = true;
if (!syncDirOverwRightActive) continue;
break;
case SO_OVERWRITE_LEFT:
output.existsSyncDirLeft = true;
if (!syncDirOverwLeftActive) continue;
break;
case SO_DO_NOTHING:
output.existsSyncDirNone = true;
if (!syncDirNoneActive) continue;
break;
case SO_UNRESOLVED_CONFLICT:
output.existsConflict = true;
if (!conflictFilesActive) continue;
break;
}
//calculate total number of bytes for each side
const FileMapping* fileObj = dynamic_cast<const FileMapping*>(fsObj);
if (fileObj)
{
if (!fileObj->isEmpty<LEFT_SIDE>())
{
output.filesizeLeftView += fileObj->getFileSize<LEFT_SIDE>();
++output.filesOnLeftView;
}
if (!fileObj->isEmpty<RIGHT_SIDE>())
{
output.filesizeRightView += fileObj->getFileSize<RIGHT_SIDE>();
++output.filesOnRightView;
}
}
else
{
const DirMapping* dirObj = dynamic_cast<const DirMapping*>(fsObj);
if (dirObj)
{
if (!dirObj->isEmpty<LEFT_SIDE>())
++output.foldersOnLeftView;
if (!dirObj->isEmpty<RIGHT_SIDE>())
++output.foldersOnRightView;
}
}
viewRef.push_back(*j);
}
}
return output;
}
void GridView::getAllFileRef(const std::set<unsigned int>& guiRows, std::vector<FileSystemObject*>& output)
{
std::set<unsigned int>::const_iterator upperEnd = guiRows.lower_bound(rowsOnView()); //loop over valid rows only!
output.clear();
output.reserve(guiRows.size());
for (std::set<unsigned int>::const_iterator i = guiRows.begin(); i != upperEnd; ++i)
{
FileSystemObject* fsObj = getReferencedRow(viewRef[*i]);
if (fsObj)
output.push_back(fsObj);
}
}
inline
bool GridView::isInvalidRow(const RefIndex& ref) const
{
return getReferencedRow(ref) == NULL;
}
void GridView::removeInvalidRows()
{
viewRef.clear();
//remove rows that have been deleted meanwhile
sortedRef.erase(std::remove_if(sortedRef.begin(), sortedRef.end(),
boost::bind(&GridView::isInvalidRow, this, _1)), sortedRef.end());
}
void GridView::clearAllRows()
{
viewRef.clear();
sortedRef.clear();
folderCmp.clear();
}
class GridView::SerializeHierarchy
{
public:
SerializeHierarchy(std::vector<GridView::RefIndex>& sortedRef, unsigned int index) :
index_(index),
sortedRef_(sortedRef) {}
void execute(const HierarchyObject& hierObj)
{
//add file references
std::for_each(hierObj.subFiles.begin(), hierObj.subFiles.end(), *this);
//add dir references
std::for_each(hierObj.subDirs.begin(), hierObj.subDirs.end(), *this);
}
void operator()(const FileMapping& fileObj)
{
sortedRef_.push_back(RefIndex(index_, fileObj.getId()));
}
void operator()(const DirMapping& dirObj)
{
sortedRef_.push_back(RefIndex(index_, dirObj.getId()));
execute(dirObj); //add recursion here to list sub-objects directly below parent!
}
private:
unsigned int index_;
std::vector<GridView::RefIndex>& sortedRef_;
};
void GridView::setData(FolderComparison& newData)
{
viewRef.clear();
sortedRef.clear();
folderCmp.swap(newData);
unsigned int index = 0;
//fill sortedRef
for (FolderComparison::const_iterator j = folderCmp.begin(); j != folderCmp.end(); ++j)
SerializeHierarchy(sortedRef, index++).execute(*j);
}
//------------------------------------ SORTING TEMPLATES ------------------------------------------------
template <bool ascending>
class GridView::SortByDirectory : public std::binary_function<RefIndex, RefIndex, bool>
{
public:
bool operator()(const RefIndex a, const RefIndex b) const
{
return ascending ?
a.folderIndex < b.folderIndex :
a.folderIndex > b.folderIndex;
}
};
template <bool ascending, FreeFileSync::SelectedSide side>
class GridView::SortByRelName : public std::binary_function<RefIndex, RefIndex, bool>
{
public:
SortByRelName(const GridView& view) : m_view(view) {}
bool operator()(const RefIndex a, const RefIndex b) const
{
//presort by folder pair
if (a.folderIndex != b.folderIndex)
return ascending ?
a.folderIndex < b.folderIndex :
a.folderIndex > b.folderIndex;
const FileSystemObject* fsObjA = m_view.getReferencedRow(a);
const FileSystemObject* fsObjB = m_view.getReferencedRow(b);
if (fsObjA == NULL) //invalid rows shall appear at the end
return false;
else if (fsObjB == NULL)
return true;
return sortByRelativeName<ascending, side>(*fsObjA, *fsObjB);
}
private:
const GridView& m_view;
};
template <bool ascending, FreeFileSync::SelectedSide side>
class GridView::SortByFileName : public std::binary_function<RefIndex, RefIndex, bool>
{
public:
SortByFileName(const GridView& view) : m_view(view) {}
bool operator()(const RefIndex a, const RefIndex b) const
{
const FileSystemObject* fsObjA = m_view.getReferencedRow(a);
const FileSystemObject* fsObjB = m_view.getReferencedRow(b);
if (fsObjA == NULL) //invalid rows shall appear at the end
return false;
else if (fsObjB == NULL)
return true;
return sortByFileName<ascending, side>(*fsObjA, *fsObjB);
}
private:
const GridView& m_view;
};
template <bool ascending, FreeFileSync::SelectedSide side>
class GridView::SortByFileSize : public std::binary_function<RefIndex, RefIndex, bool>
{
public:
SortByFileSize(const GridView& view) : m_view(view) {}
bool operator()(const RefIndex a, const RefIndex b) const
{
const FileSystemObject* fsObjA = m_view.getReferencedRow(a);
const FileSystemObject* fsObjB = m_view.getReferencedRow(b);
if (fsObjA == NULL) //invalid rows shall appear at the end
return false;
else if (fsObjB == NULL)
return true;
return sortByFileSize<ascending, side>(*fsObjA, *fsObjB);
}
private:
const GridView& m_view;
};
template <bool ascending, FreeFileSync::SelectedSide side>
class GridView::SortByDate : public std::binary_function<RefIndex, RefIndex, bool>
{
public:
SortByDate(const GridView& view) : m_view(view) {}
bool operator()(const RefIndex a, const RefIndex b) const
{
const FileSystemObject* fsObjA = m_view.getReferencedRow(a);
const FileSystemObject* fsObjB = m_view.getReferencedRow(b);
if (fsObjA == NULL) //invalid rows shall appear at the end
return false;
else if (fsObjB == NULL)
return true;
return sortByDate<ascending, side>(*fsObjA, *fsObjB);
}
private:
const GridView& m_view;
};
template <bool ascending>
class GridView::SortByCmpResult : public std::binary_function<RefIndex, RefIndex, bool>
{
public:
SortByCmpResult(const GridView& view) : m_view(view) {}
bool operator()(const RefIndex a, const RefIndex b) const
{
const FileSystemObject* fsObjA = m_view.getReferencedRow(a);
const FileSystemObject* fsObjB = m_view.getReferencedRow(b);
if (fsObjA == NULL) //invalid rows shall appear at the end
return false;
else if (fsObjB == NULL)
return true;
return sortByCmpResult<ascending>(*fsObjA, *fsObjB);
}
private:
const GridView& m_view;
};
template <bool ascending>
class GridView::SortBySyncDirection : public std::binary_function<RefIndex, RefIndex, bool>
{
public:
SortBySyncDirection(const GridView& view) : m_view(view) {}
bool operator()(const RefIndex a, const RefIndex b) const
{
const FileSystemObject* fsObjA = m_view.getReferencedRow(a);
const FileSystemObject* fsObjB = m_view.getReferencedRow(b);
if (fsObjA == NULL) //invalid rows shall appear at the end
return false;
else if (fsObjB == NULL)
return true;
return sortBySyncDirection<ascending>(*fsObjA, *fsObjB);
}
private:
const GridView& m_view;
};
//-------------------------------------------------------------------------------------------------------
void GridView::sortView(const SortType type, const bool onLeft, const bool ascending)
{
viewRef.clear();
switch (type)
{
case SORT_BY_REL_NAME:
if ( ascending && onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByRelName<true, LEFT_SIDE>(*this));
else if ( ascending && !onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByRelName<true, RIGHT_SIDE>(*this));
else if (!ascending && onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByRelName<false, LEFT_SIDE >(*this));
else if (!ascending && !onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByRelName<false, RIGHT_SIDE>(*this));
break;
case SORT_BY_FILENAME:
if ( ascending && onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByFileName<true, LEFT_SIDE >(*this));
else if ( ascending && !onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByFileName<true, RIGHT_SIDE>(*this));
else if (!ascending && onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByFileName<false, LEFT_SIDE >(*this));
else if (!ascending && !onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByFileName<false, RIGHT_SIDE>(*this));
break;
case SORT_BY_FILESIZE:
if ( ascending && onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByFileSize<true, LEFT_SIDE >(*this));
else if ( ascending && !onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByFileSize<true, RIGHT_SIDE>(*this));
else if (!ascending && onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByFileSize<false, LEFT_SIDE >(*this));
else if (!ascending && !onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByFileSize<false, RIGHT_SIDE>(*this));
break;
case SORT_BY_DATE:
if ( ascending && onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByDate<true, LEFT_SIDE >(*this));
else if ( ascending && !onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByDate<true, RIGHT_SIDE>(*this));
else if (!ascending && onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByDate<false, LEFT_SIDE >(*this));
else if (!ascending && !onLeft) std::sort(sortedRef.begin(), sortedRef.end(), SortByDate<false, RIGHT_SIDE>(*this));
break;
case SORT_BY_CMP_RESULT:
if ( ascending) std::stable_sort(sortedRef.begin(), sortedRef.end(), SortByCmpResult<true >(*this));
else if (!ascending) std::stable_sort(sortedRef.begin(), sortedRef.end(), SortByCmpResult<false>(*this));
break;
case SORT_BY_SYNC_DIRECTION:
if ( ascending) std::stable_sort(sortedRef.begin(), sortedRef.end(), SortBySyncDirection<true >(*this));
else if (!ascending) std::stable_sort(sortedRef.begin(), sortedRef.end(), SortBySyncDirection<false>(*this));
break;
case SORT_BY_DIRECTORY:
if ( ascending) std::stable_sort(sortedRef.begin(), sortedRef.end(), SortByDirectory<true>());
else if (!ascending) std::stable_sort(sortedRef.begin(), sortedRef.end(), SortByDirectory<false>());
break;
}
}
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