#include "customGrid.h" #include "../shared/globalFunctions.h" #include "resources.h" #include #include "../algorithm.h" #include "resources.h" #include #include "../ui/gridView.h" #include "../synchronization.h" #include "../shared/customTooltip.h" #ifdef FFS_WIN #include #include #include "iconBuffer.h" #include "statusHandler.h" #include #elif defined FFS_LINUX #include #endif using namespace FreeFileSync; const unsigned int MIN_ROW_COUNT = 15; //class containing pure grid data: basically the same as wxGridStringTable, but adds cell formatting /* class hierarchy: CustomGridTable /|\ ________________|________________ | | CustomGridTableRim | /|\ | __________|__________ | | | | CustomGridTableLeft CustomGridTableRight CustomGridTableMiddle */ class CustomGridTable : public wxGridTableBase { public: CustomGridTable(int initialRows = 0, int initialCols = 0) : //note: initialRows/initialCols MUST match with GetNumberRows()/GetNumberCols() at initialization!!! wxGridTableBase(), COLOR_BLUE( 80, 110, 255), COLOR_GREY( 212, 208, 200), COLOR_CMP_RED( 249, 163, 165), COLOR_CMP_BLUE( 144, 232, 246), COLOR_CMP_GREEN( 147, 253, 159), COLOR_SYNC_BLUE( 201, 203, 247), COLOR_SYNC_GREEN(197, 248, 190), COLOR_YELLOW( 247, 252, 62), gridDataView(NULL), lastNrRows(initialRows), lastNrCols(initialCols) {} virtual ~CustomGridTable() {} void setGridDataTable(const GridView* view) { this->gridDataView = view; } //########################################################################### //grid standard input output methods, redirected directly to gridData to improve performance virtual int GetNumberRows() { if (gridDataView) return std::max(gridDataView->elementsOnView(), MIN_ROW_COUNT); else return 0; //grid is initialized with zero number of rows } virtual bool IsEmptyCell( int row, int col ) { return false; //avoid overlapping cells //return (GetValue(row, col) == wxEmptyString); } virtual void SetValue(int row, int col, const wxString& value) { assert (false); //should not be used, since values are retrieved directly from gridDataView } //update dimensions of grid: no need for InsertRows(), AppendRows(), DeleteRows() anymore!!! void updateGridSizes() { const int currentNrRows = GetNumberRows(); if (lastNrRows < currentNrRows) { if (GetView()) { wxGridTableMessage msg(this, wxGRIDTABLE_NOTIFY_ROWS_APPENDED, currentNrRows - lastNrRows); GetView()->ProcessTableMessage( msg ); } } else if (lastNrRows > currentNrRows) { if (GetView()) { wxGridTableMessage msg(this, wxGRIDTABLE_NOTIFY_ROWS_DELETED, 0, lastNrRows - currentNrRows); GetView()->ProcessTableMessage( msg ); } } lastNrRows = currentNrRows; const int currentNrCols = GetNumberCols(); if (lastNrCols < currentNrCols) { if (GetView()) { wxGridTableMessage msg(this, wxGRIDTABLE_NOTIFY_COLS_APPENDED, currentNrCols - lastNrCols); GetView()->ProcessTableMessage( msg ); } } else if (lastNrCols > currentNrCols) { if (GetView()) { wxGridTableMessage msg(this, wxGRIDTABLE_NOTIFY_COLS_DELETED, 0, lastNrCols - currentNrCols); GetView()->ProcessTableMessage( msg ); } } lastNrCols = currentNrCols; } //########################################################################### virtual wxGridCellAttr* GetAttr(int row, int col, wxGridCellAttr::wxAttrKind kind) { const wxColour& color = getRowColor(row); //add color to some rows wxGridCellAttr* result = wxGridTableBase::GetAttr(row, col, kind); if (result) { if (result->GetBackgroundColour() == color) { return result; } else //grid attribute might be referenced by other nodes, so clone it! { wxGridCellAttr* attr = result->Clone(); //attr has ref-count 1 result->DecRef(); result = attr; } } else result = new wxGridCellAttr; //created with ref-count 1 result->SetBackgroundColour(color); return result; } const FileCompareLine* getRawData(const unsigned int row) const { if (gridDataView && row < gridDataView->elementsOnView()) { return &(*gridDataView)[row]; } return NULL; } protected: const wxColour COLOR_BLUE; const wxColour COLOR_GREY; const wxColour COLOR_CMP_RED; const wxColour COLOR_CMP_BLUE; const wxColour COLOR_CMP_GREEN; const wxColour COLOR_SYNC_BLUE; const wxColour COLOR_SYNC_GREEN; const wxColour COLOR_YELLOW; const GridView* gridDataView; //(very fast) access to underlying grid data :) private: virtual const wxColour& getRowColor(int row) = 0; //rows that are filtered out are shown in different color int lastNrRows; int lastNrCols; }; class CustomGridTableRim : public CustomGridTable { public: virtual int GetNumberCols() { return columnPositions.size(); } virtual wxString GetColLabelValue( int col ) { return CustomGridRim::getTypeName(getTypeAtPos(col)); } void setupColumns(const std::vector& positions) { columnPositions = positions; updateGridSizes(); //add or remove columns } xmlAccess::ColumnTypes getTypeAtPos(unsigned pos) const { if (pos < columnPositions.size()) return columnPositions[pos]; else return xmlAccess::ColumnTypes(1000); } virtual Zstring getFileName(const unsigned int row) const = 0; private: std::vector columnPositions; }; class CustomGridTableLeft : public CustomGridTableRim { public: virtual wxString GetValue(int row, int col) { const FileCompareLine* gridLine = getRawData(row); if (gridLine) { if (gridLine->fileDescrLeft.objType == FileDescrLine::TYPE_DIRECTORY) { switch (getTypeAtPos(col)) { case xmlAccess::FULL_PATH: return wxString(gridLine->fileDescrLeft.fullName.c_str()); case xmlAccess::FILENAME: return wxEmptyString; case xmlAccess::REL_PATH: return gridLine->fileDescrLeft.relativeName.c_str(); case xmlAccess::DIRECTORY: return gridDataView->getFolderPair(row).leftDirectory.c_str(); case xmlAccess::SIZE: //file size return _(""); case xmlAccess::DATE: //date return wxEmptyString; } } else if (gridLine->fileDescrLeft.objType == FileDescrLine::TYPE_FILE) { switch (getTypeAtPos(col)) { case xmlAccess::FULL_PATH: return wxString(gridLine->fileDescrLeft.fullName.c_str()).BeforeLast(globalFunctions::FILE_NAME_SEPARATOR); case xmlAccess::FILENAME: //filename return wxString(gridLine->fileDescrLeft.relativeName.c_str()).AfterLast(globalFunctions::FILE_NAME_SEPARATOR); case xmlAccess::REL_PATH: //relative path return wxString(gridLine->fileDescrLeft.relativeName.c_str()).BeforeLast(globalFunctions::FILE_NAME_SEPARATOR); case xmlAccess::DIRECTORY: return gridDataView->getFolderPair(row).leftDirectory.c_str(); case xmlAccess::SIZE: //file size return FreeFileSync::includeNumberSeparator(gridLine->fileDescrLeft.fileSize.ToString()); case xmlAccess::DATE: //date return FreeFileSync::utcTimeToLocalString(gridLine->fileDescrLeft.lastWriteTimeRaw, gridLine->fileDescrLeft.fullName); } } } //if data is not found: return wxEmptyString; } virtual Zstring getFileName(const unsigned int row) const { const FileCompareLine* gridLine = getRawData(row); if (gridLine) return Zstring(gridLine->fileDescrLeft.fullName); else return Zstring(); } private: virtual const wxColour& getRowColor(int row) //rows that are filtered out are shown in different color { const FileCompareLine* gridLine = getRawData(row); if (gridLine) { //mark filtered rows if (!gridLine->selectedForSynchronization) return COLOR_BLUE; //mark directories else if (gridLine->fileDescrLeft.objType == FileDescrLine::TYPE_DIRECTORY) return COLOR_GREY; else return *wxWHITE; } return *wxWHITE; } }; class CustomGridTableRight : public CustomGridTableRim { public: virtual wxString GetValue(int row, int col) { const FileCompareLine* gridLine = getRawData(row); if (gridLine) { if (gridLine->fileDescrRight.objType == FileDescrLine::TYPE_DIRECTORY) { switch (getTypeAtPos(col)) { case xmlAccess::FULL_PATH: return wxString(gridLine->fileDescrRight.fullName.c_str()); case xmlAccess::FILENAME: //filename return wxEmptyString; case xmlAccess::REL_PATH: //relative path return gridLine->fileDescrRight.relativeName.c_str(); case xmlAccess::DIRECTORY: return gridDataView->getFolderPair(row).rightDirectory.c_str(); case xmlAccess::SIZE: //file size return _(""); case xmlAccess::DATE: //date return wxEmptyString; } } else if (gridLine->fileDescrRight.objType == FileDescrLine::TYPE_FILE) { switch (getTypeAtPos(col)) { case xmlAccess::FULL_PATH: return wxString(gridLine->fileDescrRight.fullName.c_str()).BeforeLast(globalFunctions::FILE_NAME_SEPARATOR); case xmlAccess::FILENAME: //filename return wxString(gridLine->fileDescrRight.relativeName.c_str()).AfterLast(globalFunctions::FILE_NAME_SEPARATOR); case xmlAccess::REL_PATH: //relative path return wxString(gridLine->fileDescrRight.relativeName.c_str()).BeforeLast(globalFunctions::FILE_NAME_SEPARATOR); case xmlAccess::DIRECTORY: return gridDataView->getFolderPair(row).rightDirectory.c_str(); case xmlAccess::SIZE: //file size return FreeFileSync::includeNumberSeparator(gridLine->fileDescrRight.fileSize.ToString()); case xmlAccess::DATE: //date return FreeFileSync::utcTimeToLocalString(gridLine->fileDescrRight.lastWriteTimeRaw, gridLine->fileDescrRight.fullName); } } } //if data is not found: return wxEmptyString; } virtual Zstring getFileName(const unsigned int row) const { const FileCompareLine* gridLine = getRawData(row); if (gridLine) return Zstring(gridLine->fileDescrRight.fullName); else return Zstring(); } private: virtual const wxColour& getRowColor(int row) //rows that are filtered out are shown in different color { const FileCompareLine* gridLine = getRawData(row); if (gridLine) { //mark filtered rows if (!gridLine->selectedForSynchronization) return COLOR_BLUE; //mark directories else if (gridLine->fileDescrRight.objType == FileDescrLine::TYPE_DIRECTORY) return COLOR_GREY; else return *wxWHITE; } return *wxWHITE; } }; class CustomGridTableMiddle : public CustomGridTable { public: //middle grid is created (first wxWidgets internal call to GetNumberCols()) with one column CustomGridTableMiddle() : CustomGridTable(0, GetNumberCols()), //attention: static binding to virtual GetNumberCols() in a Constructor! syncPreviewActive(false) {} virtual int GetNumberCols() { return 1; } virtual wxString GetColLabelValue( int col ) { return wxEmptyString; } virtual wxString GetValue(int row, int col) { return wxEmptyString; } void enableSyncPreview(bool value) { syncPreviewActive = value; } bool syncPreviewIsActive() const { return syncPreviewActive; } private: virtual const wxColour& getRowColor(int row) //rows that are filtered out are shown in different color { const FileCompareLine* gridLine = getRawData(row); if (gridLine) { //mark filtered rows if (!gridLine->selectedForSynchronization) return COLOR_BLUE; if (syncPreviewActive) //synchronization preview { switch (gridLine->syncDir) { case SYNC_DIR_LEFT: return COLOR_SYNC_BLUE; case SYNC_DIR_RIGHT: return COLOR_SYNC_GREEN; case SYNC_DIR_NONE: return *wxWHITE; case SYNC_UNRESOLVED_CONFLICT: return COLOR_YELLOW; } } else //comparison results view { switch (gridLine->cmpResult) { case FILE_LEFT_SIDE_ONLY: case FILE_RIGHT_SIDE_ONLY: return COLOR_CMP_GREEN; case FILE_LEFT_NEWER: case FILE_RIGHT_NEWER: return COLOR_CMP_BLUE; case FILE_DIFFERENT: return COLOR_CMP_RED; case FILE_EQUAL: return *wxWHITE; case FILE_CONFLICT: return COLOR_YELLOW; } } } //fallback return *wxWHITE; } bool syncPreviewActive; //determines wheter grid shall show compare result or sync preview }; //######################################################################################################## CustomGrid::CustomGrid(wxWindow *parent, wxWindowID id, const wxPoint& pos, const wxSize& size, long style, const wxString& name) : wxGrid(parent, id, pos, size, style, name), m_gridLeft(NULL), m_gridMiddle(NULL), m_gridRight(NULL), isLeading(false), m_marker(-1, ASCENDING) { //set color of selections wxColour darkBlue(40, 35, 140); SetSelectionBackground(darkBlue); SetSelectionForeground(*wxWHITE); } void CustomGrid::initSettings(CustomGridLeft* gridLeft, CustomGridMiddle* gridMiddle, CustomGridRight* gridRight, const GridView* gridDataView) { assert(this == gridLeft || this == gridRight || this == gridMiddle); //these grids will scroll together m_gridLeft = gridLeft; m_gridRight = gridRight; m_gridMiddle = gridMiddle; //set underlying grid data setGridDataTable(gridDataView); //enhance grid functionality; identify leading grid by keyboard input or scroll action Connect(wxEVT_KEY_DOWN, wxEventHandler(CustomGrid::onGridAccess), NULL, this); Connect(wxEVT_SCROLLWIN_TOP, wxEventHandler(CustomGrid::onGridAccess), NULL, this); Connect(wxEVT_SCROLLWIN_BOTTOM, wxEventHandler(CustomGrid::onGridAccess), NULL, this); Connect(wxEVT_SCROLLWIN_LINEUP, wxEventHandler(CustomGrid::onGridAccess), NULL, this); Connect(wxEVT_SCROLLWIN_LINEDOWN, wxEventHandler(CustomGrid::onGridAccess), NULL, this); Connect(wxEVT_SCROLLWIN_PAGEUP, wxEventHandler(CustomGrid::onGridAccess), NULL, this); Connect(wxEVT_SCROLLWIN_PAGEDOWN, wxEventHandler(CustomGrid::onGridAccess), NULL, this); Connect(wxEVT_SCROLLWIN_THUMBTRACK, wxEventHandler(CustomGrid::onGridAccess), NULL, this); Connect(wxEVT_SCROLLWIN_THUMBRELEASE, wxEventHandler(CustomGrid::onGridAccess), NULL, this); Connect(wxEVT_GRID_LABEL_LEFT_CLICK, wxEventHandler(CustomGrid::onGridAccess), NULL, this); GetGridWindow()->Connect(wxEVT_LEFT_DOWN, wxEventHandler(CustomGrid::onGridAccess), NULL, this); GetGridWindow()->Connect(wxEVT_RIGHT_DOWN, wxEventHandler(CustomGrid::onGridAccess), NULL, this); GetGridWindow()->Connect(wxEVT_ENTER_WINDOW, wxEventHandler(CustomGrid::adjustGridHeights), NULL, this); } bool CustomGrid::isLeadGrid() const { return isLeading; } void CustomGrid::RefreshCell(int row, int col) { wxRect rectScrolled(CellToRect(row, col)); CalcScrolledPosition(rectScrolled.x, rectScrolled.y, &rectScrolled.x, &rectScrolled.y); GetGridWindow()->RefreshRect(rectScrolled); //note: CellToRect() and YToRow work on m_gridWindow NOT on the whole grid! } void CustomGrid::DoPrepareDC(wxDC& dc) { wxScrollHelper::DoPrepareDC(dc); if (isLeadGrid()) //avoid back coupling alignOtherGrids(m_gridLeft, m_gridMiddle, m_gridRight); //scroll other grids } inline void moveCursorWhileSelecting(const int anchor, const int oldPos, const int newPos, wxGrid* grid) { //note: all positions are valid in this context! grid->SetGridCursor(newPos, grid->GetGridCursorCol()); grid->MakeCellVisible(newPos, grid->GetGridCursorCol()); if (oldPos < newPos) { for (int i = oldPos; i < std::min(anchor, newPos); ++i) grid->DeselectRow(i); //remove selection for (int i = std::max(oldPos, anchor); i <= newPos; ++i) grid->SelectRow(i, true); //add to selection } else { for (int i = std::max(newPos, anchor) + 1; i <= oldPos; ++i) grid->DeselectRow(i); //remove selection for (int i = newPos; i <= std::min(oldPos, anchor); ++i) grid->SelectRow(i, true); //add to selection } } inline void additionalGridCommands(wxEvent& event, wxGrid* grid) { static int anchorRow = 0; assert(grid->GetNumberRows() != 0); try { const wxKeyEvent& keyEvent = dynamic_cast (event); if (keyEvent.ShiftDown()) { //ensure cursorOldPos is always a valid row! const int cursorOldPos = std::max(std::min(grid->GetGridCursorRow(), grid->GetNumberRows() - 1), 0); //support for shift + PageUp and shift + PageDown switch (keyEvent.GetKeyCode()) { case WXK_UP: //move grid cursor also { const int cursorNewPos = std::max(cursorOldPos - 1, 0); moveCursorWhileSelecting(anchorRow, cursorOldPos, cursorNewPos, grid); } return; //no event.Skip() case WXK_DOWN: //move grid cursor also { const int cursorNewPos = std::min(cursorOldPos + 1, grid->GetNumberRows() - 1); moveCursorWhileSelecting(anchorRow, cursorOldPos, cursorNewPos, grid); } return; //no event.Skip() case WXK_PAGEUP: case WXK_NUMPAD_PAGEUP: { const int rowsPerPage = grid->GetGridWindow()->GetSize().GetHeight() / grid->GetDefaultRowSize(); const int cursorNewPos = std::max(cursorOldPos - rowsPerPage, 0); moveCursorWhileSelecting(anchorRow, cursorOldPos, cursorNewPos, grid); } return; //no event.Skip() case WXK_PAGEDOWN: case WXK_NUMPAD_PAGEDOWN: { const int rowsPerPage = grid->GetGridWindow()->GetSize().GetHeight() / grid->GetDefaultRowSize(); const int cursorNewPos = std::min(cursorOldPos + rowsPerPage, grid->GetNumberRows() - 1); moveCursorWhileSelecting(anchorRow, cursorOldPos, cursorNewPos, grid); } return; //no event.Skip() case WXK_HOME: case WXK_NUMPAD_HOME: { const int cursorNewPos = 0; moveCursorWhileSelecting(anchorRow, cursorOldPos, cursorNewPos, grid); } return; //no event.Skip() case WXK_END: case WXK_NUMPAD_END: { const int cursorNewPos = grid->GetNumberRows() - 1; moveCursorWhileSelecting(anchorRow, cursorOldPos, cursorNewPos, grid); } return; //no event.Skip() } } else //button without shift is pressed { switch (keyEvent.GetKeyCode()) { case WXK_HOME: case WXK_NUMPAD_HOME: grid->SetGridCursor(0, grid->GetGridCursorCol()); grid->MakeCellVisible(0, grid->GetGridCursorCol()); return; //no event.Skip() case WXK_END: case WXK_NUMPAD_END: grid->SetGridCursor(grid->GetNumberRows() - 1, grid->GetGridCursorCol()); grid->MakeCellVisible(grid->GetNumberRows() - 1, grid->GetGridCursorCol()); return; //no event.Skip() } } } catch (std::bad_cast&) {} anchorRow = grid->GetGridCursorRow(); event.Skip(); } inline bool gridsShouldBeCleared(const wxEvent& event) { try { const wxMouseEvent& mouseEvent = dynamic_cast (event); if (mouseEvent.ControlDown() || mouseEvent.ShiftDown()) return false; if (mouseEvent.ButtonDown(wxMOUSE_BTN_LEFT)) return true; return false; } catch (std::bad_cast&) {} try { const wxKeyEvent& keyEvent = dynamic_cast (event); if (keyEvent.ControlDown() || keyEvent.ShiftDown()) return false; switch (keyEvent.GetKeyCode()) { case WXK_SPACE: case WXK_TAB: case WXK_RETURN: case WXK_ESCAPE: case WXK_NUMPAD_ENTER: case WXK_LEFT: case WXK_UP: case WXK_RIGHT: case WXK_DOWN: case WXK_PAGEUP: case WXK_PAGEDOWN: case WXK_NUMPAD_PAGEUP: case WXK_NUMPAD_PAGEDOWN: case WXK_HOME: case WXK_END: case WXK_NUMPAD_HOME: case WXK_NUMPAD_END: return true; } return false; } catch (std::bad_cast&) {} return false; } void CustomGrid::onGridAccess(wxEvent& event) { if (!isLeading) { //notify other grids of new user focus m_gridLeft->isLeading = m_gridLeft == this; m_gridMiddle->isLeading = m_gridMiddle == this; m_gridRight->isLeading = m_gridRight == this; wxGrid::SetFocus(); } //clear grids if (gridsShouldBeCleared(event)) { m_gridLeft->ClearSelection(); m_gridMiddle->ClearSelection(); m_gridRight->ClearSelection(); } //update row labels NOW (needed when scrolling if buttons keep being pressed) m_gridLeft->GetGridRowLabelWindow()->Update(); m_gridRight->GetGridRowLabelWindow()->Update(); //support for additional short-cuts additionalGridCommands(event, this); //event.Skip is handled here! } //workaround: ensure that all grids are properly aligned: add some extra window space to grids that have no horizontal scrollbar void CustomGrid::adjustGridHeights(wxEvent& event) { //m_gridLeft, m_gridRight, m_gridMiddle not NULL because called after initSettings() int y1 = 0; int y2 = 0; int y3 = 0; int dummy = 0; m_gridLeft->GetViewStart(&dummy, &y1); m_gridRight->GetViewStart(&dummy, &y2); m_gridMiddle->GetViewStart(&dummy, &y3); if (y1 != y2 || y2 != y3) { int yMax = std::max(y1, std::max(y2, y3)); if (m_gridLeft->isLeadGrid()) //do not handle case (y1 == yMax) here!!! Avoid back coupling! m_gridLeft->SetMargins(0, 0); else if (y1 < yMax) m_gridLeft->SetMargins(0, 30); if (m_gridRight->isLeadGrid()) m_gridRight->SetMargins(0, 0); else if (y2 < yMax) m_gridRight->SetMargins(0, 30); if (m_gridMiddle->isLeadGrid()) m_gridMiddle->SetMargins(0, 0); else if (y3 < yMax) m_gridMiddle->SetMargins(0, 30); m_gridLeft->ForceRefresh(); m_gridRight->ForceRefresh(); m_gridMiddle->ForceRefresh(); } } void CustomGrid::setSortMarker(SortMarker marker) { m_marker = marker; } void CustomGrid::DrawColLabel(wxDC& dc, int col) { wxGrid::DrawColLabel(dc, col); if (col == m_marker.first) { if (m_marker.second == ASCENDING) dc.DrawBitmap(*GlobalResources::getInstance().bitmapSmallUp, GetColRight(col) - 16 - 2, 2, true); //respect 2-pixel border else dc.DrawBitmap(*GlobalResources::getInstance().bitmapSmallDown, GetColRight(col) - 16 - 2, 2, true); //respect 2-pixel border } } std::set CustomGrid::getAllSelectedRows() const { std::set output; const wxArrayInt selectedRows = this->GetSelectedRows(); if (!selectedRows.IsEmpty()) { for (unsigned int i = 0; i < selectedRows.GetCount(); ++i) output.insert(selectedRows[i]); } if (!this->GetSelectedCols().IsEmpty()) //if a column is selected this is means all rows are marked for deletion { for (int k = 0; k < const_cast(this)->GetNumberRows(); ++k) //messy wxGrid implementation... output.insert(k); } const wxGridCellCoordsArray singlySelected = this->GetSelectedCells(); if (!singlySelected.IsEmpty()) { for (unsigned int k = 0; k < singlySelected.GetCount(); ++k) output.insert(singlySelected[k].GetRow()); } const wxGridCellCoordsArray tmpArrayTop = this->GetSelectionBlockTopLeft(); if (!tmpArrayTop.IsEmpty()) { wxGridCellCoordsArray tmpArrayBottom = this->GetSelectionBlockBottomRight(); unsigned int arrayCount = tmpArrayTop.GetCount(); if (arrayCount == tmpArrayBottom.GetCount()) { for (unsigned int i = 0; i < arrayCount; ++i) { const int rowTop = tmpArrayTop[i].GetRow(); const int rowBottom = tmpArrayBottom[i].GetRow(); for (int k = rowTop; k <= rowBottom; ++k) output.insert(k); } } } //some exception: also add current cursor row to selection if there are no others... hopefully improving usability if (output.empty() && this->isLeadGrid()) output.insert(const_cast(this)->GetCursorRow()); //messy wxGrid implementation... return output; } //############################################################################################ //CustomGrid specializations #ifdef FFS_WIN template class GridCellRenderer : public wxGridCellStringRenderer { public: GridCellRenderer(CustomGridRim::LoadSuccess& loadIconSuccess, const CustomGridTableRim* gridDataTable) : m_loadIconSuccess(loadIconSuccess), m_gridDataTable(gridDataTable) {} virtual void Draw(wxGrid& grid, wxGridCellAttr& attr, wxDC& dc, const wxRect& rect, //unscrolled rect int row, int col, bool isSelected) { //############## show windows explorer file icons ###################### if ( showFileIcons && //evaluate at compile time m_gridDataTable->getTypeAtPos(col) == xmlAccess::FILENAME) { if (rect.GetWidth() >= IconBuffer::ICON_SIZE) { // Partitioning: // _____________________ // | 2 pix | icon | rest | // --------------------- //clear area where icon will be placed wxRect rectShrinked(rect); rectShrinked.SetWidth(IconBuffer::ICON_SIZE + LEFT_BORDER); //add 2 pixel border wxGridCellRenderer::Draw(grid, attr, dc, rectShrinked, row, col, isSelected); //draw rest wxRect rest(rect); //unscrolled rest.x += IconBuffer::ICON_SIZE + LEFT_BORDER; rest.width -= IconBuffer::ICON_SIZE + LEFT_BORDER; wxGridCellStringRenderer::Draw(grid, attr, dc, rest, row, col, isSelected); //try to draw icon //retrieve grid data const Zstring fileName = m_gridDataTable->getFileName(row); if (!fileName.empty()) { wxIcon icon; bool iconDrawnFully = false; const bool iconLoaded = IconBuffer::getInstance().requestIcon(fileName, &icon); //returns false if icon is not in buffer if (iconLoaded) { dc.DrawIcon(icon, rectShrinked.GetX() + LEFT_BORDER, rectShrinked.GetY()); //----------------------------------------------------------------------------------------------- //only mark as successful if icon was drawn fully! //(attention: when scrolling, rows get partially updated, which can result in the upper half being blank!) //rect where icon was placed wxRect iconRect(rect); //unscrolled iconRect.x += LEFT_BORDER; iconRect.SetWidth(IconBuffer::ICON_SIZE); //convert to scrolled coordinates grid.CalcScrolledPosition(iconRect.x, iconRect.y, &iconRect.x, &iconRect.y); wxRegionIterator regionsInv(grid.GetGridWindow()->GetUpdateRegion()); while (regionsInv) { if (regionsInv.GetRect().Contains(iconRect)) { iconDrawnFully = true; break; } ++regionsInv; } } //----------------------------------------------------------------------------------------------- //save status of last icon load -> used for async. icon loading m_loadIconSuccess[row] = iconLoaded && iconDrawnFully; } } return; } //default wxGridCellStringRenderer::Draw(grid, attr, dc, rect, row, col, isSelected); } virtual wxSize GetBestSize(wxGrid& grid, //adapt reported width if file icons are shown wxGridCellAttr& attr, wxDC& dc, int row, int col) { if ( showFileIcons && //evaluate at compile time m_gridDataTable->getTypeAtPos(col) == xmlAccess::FILENAME) { wxSize rv = wxGridCellStringRenderer::GetBestSize(grid, attr, dc, row, col); rv.SetWidth(rv.GetWidth() + LEFT_BORDER + IconBuffer::ICON_SIZE); return rv; } //default return wxGridCellStringRenderer::GetBestSize(grid, attr, dc, row, col); } private: CustomGridRim::LoadSuccess& m_loadIconSuccess; const CustomGridTableRim* const m_gridDataTable; static const int LEFT_BORDER = 2; }; #endif //---------------------------------------------------------------------------------------- CustomGridRim::CustomGridRim(wxWindow *parent, wxWindowID id, const wxPoint& pos, const wxSize& size, long style, const wxString& name) : CustomGrid(parent, id, pos, size, style, name) #ifdef FFS_WIN , fileIconsAreEnabled(false) #endif {} void CustomGridRim::updateGridSizes() { assert(getGridDataTable()); getGridDataTable()->updateGridSizes(); } xmlAccess::ColumnAttributes CustomGridRim::getDefaultColumnAttributes() { xmlAccess::ColumnAttributes defaultColumnSettings; xmlAccess::ColumnAttrib newEntry; newEntry.type = xmlAccess::FULL_PATH; newEntry.visible = false; newEntry.position = 0; newEntry.width = 150; defaultColumnSettings.push_back(newEntry); newEntry.type = xmlAccess::DIRECTORY; newEntry.position = 1; newEntry.width = 140; defaultColumnSettings.push_back(newEntry); newEntry.type = xmlAccess::REL_PATH; newEntry.visible = true; newEntry.position = 2; newEntry.width = 118; defaultColumnSettings.push_back(newEntry); newEntry.type = xmlAccess::FILENAME; newEntry.position = 3; newEntry.width = 138; defaultColumnSettings.push_back(newEntry); newEntry.type = xmlAccess::SIZE; newEntry.position = 4; newEntry.width = 70; defaultColumnSettings.push_back(newEntry); newEntry.type = xmlAccess::DATE; newEntry.position = 5; newEntry.width = 113; defaultColumnSettings.push_back(newEntry); return defaultColumnSettings; } xmlAccess::ColumnAttributes CustomGridRim::getColumnAttributes() { std::sort(columnSettings.begin(), columnSettings.end(), xmlAccess::sortByPositionAndVisibility); xmlAccess::ColumnAttributes output; xmlAccess::ColumnAttrib newEntry; for (unsigned int i = 0; i < columnSettings.size(); ++i) { newEntry = columnSettings[i]; if (newEntry.visible) newEntry.width = GetColSize(i); //hidden columns are sorted to the end of vector! output.push_back(newEntry); } return output; } void CustomGridRim::setColumnAttributes(const xmlAccess::ColumnAttributes& attr) { //remove special alignment for column "size" for (int i = 0; i < GetNumberCols(); ++i) if (getTypeAtPos(i) == xmlAccess::SIZE) { wxGridCellAttr* cellAttributes = GetOrCreateCellAttr(0, i); cellAttributes->SetAlignment(wxALIGN_LEFT,wxALIGN_CENTRE); SetColAttr(i, cellAttributes); break; } //---------------------------------------------------------------------------------- columnSettings.clear(); if (attr.size() == 0) { //default settings: columnSettings = getDefaultColumnAttributes(); } else { for (unsigned int i = 0; i < xmlAccess::COLUMN_TYPE_COUNT; ++i) { xmlAccess::ColumnAttrib newEntry; if (i < attr.size()) newEntry = attr[i]; else { newEntry.type = xmlAccess::FILENAME; newEntry.visible = true; newEntry.position = i; newEntry.width = 100; } columnSettings.push_back(newEntry); } std::sort(columnSettings.begin(), columnSettings.end(), xmlAccess::sortByType); for (unsigned int i = 0; i < xmlAccess::COLUMN_TYPE_COUNT; ++i) //just be sure that each type exists only once columnSettings[i].type = xmlAccess::ColumnTypes(i); std::sort(columnSettings.begin(), columnSettings.end(), xmlAccess::sortByPositionOnly); for (unsigned int i = 0; i < xmlAccess::COLUMN_TYPE_COUNT; ++i) //just be sure that positions are numbered correctly columnSettings[i].position = i; } std::sort(columnSettings.begin(), columnSettings.end(), xmlAccess::sortByPositionAndVisibility); std::vector newPositions; for (unsigned int i = 0; i < columnSettings.size() && columnSettings[i].visible; ++i) //hidden columns are sorted to the end of vector! newPositions.push_back(columnSettings[i].type); //set column positions assert(getGridDataTable()); getGridDataTable()->setupColumns(newPositions); //set column width (set them after setupColumns!) for (unsigned int i = 0; i < newPositions.size(); ++i) SetColSize(i, columnSettings[i].width); //-------------------------------------------------------------------------------------------------------- //set special alignment for column "size" for (int i = 0; i < GetNumberCols(); ++i) if (getTypeAtPos(i) == xmlAccess::SIZE) { wxGridCellAttr* cellAttributes = GetOrCreateCellAttr(0, i); cellAttributes->SetAlignment(wxALIGN_RIGHT,wxALIGN_CENTRE); SetColAttr(i, cellAttributes); //make filesize right justified on grids break; } ClearSelection(); ForceRefresh(); } xmlAccess::ColumnTypes CustomGridRim::getTypeAtPos(unsigned pos) const { assert(getGridDataTable()); return getGridDataTable()->getTypeAtPos(pos); } wxString CustomGridRim::getTypeName(xmlAccess::ColumnTypes colType) { switch (colType) { case xmlAccess::FULL_PATH: return _("Full path"); case xmlAccess::FILENAME: return _("Filename"); case xmlAccess::REL_PATH: return _("Relative path"); case xmlAccess::DIRECTORY: return _("Directory"); case xmlAccess::SIZE: return _("Size"); case xmlAccess::DATE: return _("Date"); } return wxEmptyString; //dummy } CustomGridTableRim* CustomGridRim::getGridDataTable() { //let the non-const call the const version: see Meyers Effective C++ return const_cast(static_cast(this)->getGridDataTable()); } #ifdef FFS_WIN void CustomGridRim::enableFileIcons(const bool value) { fileIconsAreEnabled = value; if (value) SetDefaultRenderer(new GridCellRenderer(loadIconSuccess, getGridDataTable())); //SetDefaultRenderer takes ownership! else SetDefaultRenderer(new GridCellRenderer(loadIconSuccess, getGridDataTable())); Refresh(); } CustomGridRim::VisibleRowRange CustomGridRim::getVisibleRows() { int dummy = -1; int height = -1; GetGridWindow()->GetClientSize(&dummy, &height); if (height >= 0) { int topRowY = -1; CalcUnscrolledPosition(0, 0, &dummy, &topRowY); if (topRowY >= 0) { const int topRow = YToRow(topRowY); const int rowCount = static_cast(ceil(height / static_cast(GetDefaultRowSize()))); // = height / rowHeight rounded up const int bottomRow = topRow + rowCount - 1; return VisibleRowRange(topRow, bottomRow); //"top" means here top of the screen: => smaller value } } return VisibleRowRange(0, 0); } void CustomGridRim::getIconsToBeLoaded(std::vector& newLoad) //loads all (not yet) drawn icons { newLoad.clear(); if (fileIconsAreEnabled) //don't check too often! give worker thread some time to fetch data { const CustomGridTableRim* gridDataTable = getGridDataTable(); const VisibleRowRange rowsOnScreen = getVisibleRows(); const int totalCols = const_cast(gridDataTable)->GetNumberCols(); const int totalRows = const_cast(gridDataTable)->GetNumberRows(); //loop over all visible rows const int firstRow = rowsOnScreen.first; const int lastRow = std::min(int(rowsOnScreen.second), totalRows - 1); const int rowNo = lastRow - firstRow + 1; for (int i = 0; i < rowNo; ++i) { //alternate when adding rows: first, last, first + 1, last - 1 ... const int currentRow = i % 2 == 0 ? firstRow + i / 2 : lastRow - (i - 1) / 2; LoadSuccess::const_iterator j = loadIconSuccess.find(currentRow); if (j != loadIconSuccess.end() && j->second == false) //find failed attempts to load icon { const Zstring fileName = gridDataTable->getFileName(currentRow); if (!fileName.empty()) { //test if they are already loaded in buffer: if (FreeFileSync::IconBuffer::getInstance().requestIcon(fileName)) { //exists in buffer: refresh Row for (int k = 0; k < totalCols; ++k) if (gridDataTable->getTypeAtPos(k) == xmlAccess::FILENAME) { RefreshCell(currentRow, k); break; } } else //not yet in buffer: mark for async. loading { newLoad.push_back(fileName); } } } } } } //---------------------------------------------------------------------------------------- //update file icons periodically: use SINGLE instance to coordinate left and right grid at once IconUpdater::IconUpdater(CustomGridLeft* leftGrid, CustomGridRight* rightGrid) : m_leftGrid(leftGrid), m_rightGrid(rightGrid), m_timer(new wxTimer) //connect timer event for async. icon loading { m_timer->Connect(wxEVT_TIMER, wxEventHandler(IconUpdater::loadIconsAsynchronously), NULL, this); m_timer->Start(50); //timer interval in ms } void IconUpdater::loadIconsAsynchronously(wxEvent& event) //loads all (not yet) drawn icons { std::vector iconsLeft; m_leftGrid->getIconsToBeLoaded(iconsLeft); std::vector newLoad; m_rightGrid->getIconsToBeLoaded(newLoad); //merge vectors newLoad.insert(newLoad.end(), iconsLeft.begin(), iconsLeft.end()); FreeFileSync::IconBuffer::getInstance().setWorkload(newLoad); //attention: newLoad is invalidated after this call!!! //event.Skip(); } #endif //---------------------------------------------------------------------------------------- CustomGridLeft::CustomGridLeft(wxWindow *parent, wxWindowID id, const wxPoint& pos, const wxSize& size, long style, const wxString& name) : CustomGridRim(parent, id, pos, size, style, name), gridDataTable(NULL) {} bool CustomGridLeft::CreateGrid(int numRows, int numCols, wxGrid::wxGridSelectionModes selmode) { //use custom wxGridTableBase class for management of large sets of formatted data. //This is done in CreateGrid instead of SetTable method since source code is generated and wxFormbuilder invokes CreatedGrid by default. gridDataTable = new CustomGridTableLeft; SetTable(gridDataTable, true, wxGrid::wxGridSelectRows); //give ownership to wxGrid: gridDataTable is deleted automatically in wxGrid destructor return true; } void CustomGridLeft::setGridDataTable(const GridView* gridDataView) { //set underlying grid data assert(gridDataTable); gridDataTable->setGridDataTable(gridDataView); } const CustomGridTableRim* CustomGridLeft::getGridDataTable() const { return gridDataTable; } //this method is called when grid view changes: useful for parallel updating of multiple grids void CustomGridLeft::alignOtherGrids(CustomGrid* gridLeft, CustomGrid* gridMiddle, CustomGrid* gridRight) { int x = 0; int y = 0; GetViewStart(&x, &y); gridMiddle->Scroll(-1, y); //scroll in y-direction only gridRight->Scroll(x, y); } //---------------------------------------------------------------------------------------- CustomGridRight::CustomGridRight(wxWindow *parent, wxWindowID id, const wxPoint& pos, const wxSize& size, long style, const wxString& name) : CustomGridRim(parent, id, pos, size, style, name), gridDataTable(NULL) {} bool CustomGridRight::CreateGrid(int numRows, int numCols, wxGrid::wxGridSelectionModes selmode) { gridDataTable = new CustomGridTableRight; SetTable(gridDataTable, true, wxGrid::wxGridSelectRows); //give ownership to wxGrid: gridDataTable is deleted automatically in wxGrid destructor return true; } void CustomGridRight::setGridDataTable(const GridView* gridDataView) { //set underlying grid data assert(gridDataTable); gridDataTable->setGridDataTable(gridDataView); } const CustomGridTableRim* CustomGridRight::getGridDataTable() const { return gridDataTable; } //this method is called when grid view changes: useful for parallel updating of multiple grids void CustomGridRight::alignOtherGrids(CustomGrid* gridLeft, CustomGrid* gridMiddle, CustomGrid* gridRight) { int x = 0; int y = 0; GetViewStart(&x, &y); gridLeft->Scroll(x, y); gridMiddle->Scroll(-1, y); } //---------------------------------------------------------------------------------------- class GridCellRendererMiddle : public wxGridCellStringRenderer { public: GridCellRendererMiddle(const CustomGridMiddle* middleGrid) : m_gridMiddle(middleGrid) {}; virtual void Draw(wxGrid& grid, wxGridCellAttr& attr, wxDC& dc, const wxRect& rect, int row, int col, bool isSelected); private: const CustomGridMiddle* const m_gridMiddle; }; //define new event types const wxEventType FFS_CHECK_ROWS_EVENT = wxNewEventType(); //attention! do NOT place in header to keep (generated) id unique! const wxEventType FFS_SYNC_DIRECTION_EVENT = wxNewEventType(); const int CHECK_BOX_IMAGE = 11; //width of checkbox image const int CHECK_BOX_WIDTH = CHECK_BOX_IMAGE + 3; //width of first block // cell: // ---------------------------------- // | checkbox | left | middle | right| // ---------------------------------- CustomGridMiddle::CustomGridMiddle(wxWindow *parent, wxWindowID id, const wxPoint& pos, const wxSize& size, long style, const wxString& name) : CustomGrid(parent, id, pos, size, style, name), selectionRowBegin(-1), selectionPos(BLOCKPOS_CHECK_BOX), highlightedRow(-1), highlightedPos(BLOCKPOS_CHECK_BOX), gridDataTable(NULL), toolTip(new CustomTooltip) { //connect events for dynamic selection of sync direction GetGridWindow()->Connect(wxEVT_MOTION, wxMouseEventHandler(CustomGridMiddle::OnMouseMovement), NULL, this); GetGridWindow()->Connect(wxEVT_LEAVE_WINDOW, wxMouseEventHandler(CustomGridMiddle::OnLeaveWindow), NULL, this); GetGridWindow()->Connect(wxEVT_LEFT_UP, wxMouseEventHandler(CustomGridMiddle::OnLeftMouseUp), NULL, this); GetGridWindow()->Connect(wxEVT_LEFT_DOWN, wxMouseEventHandler(CustomGridMiddle::OnLeftMouseDown), NULL, this); } bool CustomGridMiddle::CreateGrid(int numRows, int numCols, wxGrid::wxGridSelectionModes selmode) { gridDataTable = new CustomGridTableMiddle; SetTable(gridDataTable, true, wxGrid::wxGridSelectRows); //give ownership to wxGrid: gridDataTable is deleted automatically in wxGrid destructor //display checkboxes (representing bool values) if row is enabled for synchronization SetDefaultRenderer(new GridCellRendererMiddle(this)); //SetDefaultRenderer takes ownership! return true; } #ifdef FFS_WIN //get rid of scrollbars; Windows: overwrite virtual method void CustomGridMiddle::SetScrollbar(int orientation, int position, int thumbSize, int range, bool refresh) { wxWindow::SetScrollbar(orientation, 0, 0, 0, refresh); } #endif void CustomGridMiddle::setGridDataTable(const GridView* gridDataView) //called once on startup { //set underlying grid data assert(gridDataTable); gridDataTable->setGridDataTable(gridDataView); #ifdef FFS_LINUX //get rid of scrollbars; Linux: change policy for GtkScrolledWindow GtkWidget* gridWidget = wxWindow::m_widget; GtkScrolledWindow* scrolledWindow = GTK_SCROLLED_WINDOW(gridWidget); gtk_scrolled_window_set_policy(scrolledWindow, GTK_POLICY_NEVER, GTK_POLICY_NEVER); #endif } void CustomGridMiddle::OnMouseMovement(wxMouseEvent& event) { const int highlightedRowOld = highlightedRow; if (selectionRowBegin == -1) //change highlightning only if currently not dragging mouse { highlightedRow = mousePosToRow(event.GetPosition(), &highlightedPos); if (highlightedRow >= 0) RefreshCell(highlightedRow, 0); if ( highlightedRowOld >= 0 && highlightedRow != highlightedRowOld) RefreshCell(highlightedRowOld, 0); //handle tooltip showToolTip(highlightedRow, GetGridWindow()->ClientToScreen(event.GetPosition())); } event.Skip(); } void CustomGridMiddle::OnLeaveWindow(wxMouseEvent& event) { highlightedRow = -1; highlightedPos = BLOCKPOS_CHECK_BOX; Refresh(); //handle tooltip toolTip->hide(); } void CustomGridMiddle::showToolTip(int rowNumber, wxPoint pos) { const FileCompareLine* const rowData = gridDataTable->getRawData(rowNumber); if (rowData == NULL) //if invalid row... { toolTip->hide(); return; } if (gridDataTable->syncPreviewIsActive()) //synchronization preview { switch (getSyncOperation(*rowData)) { case SO_CREATE_NEW_LEFT: toolTip->show(_("Copy from right to left"), pos, GlobalResources::getInstance().bitmapSyncCreateLeftAct); break; case SO_CREATE_NEW_RIGHT: toolTip->show(_("Copy from left to right"), pos, GlobalResources::getInstance().bitmapSyncCreateRightAct); break; case SO_DELETE_LEFT: toolTip->show(_("Delete files/folders existing on left side only"), pos, GlobalResources::getInstance().bitmapSyncDeleteLeftAct); break; case SO_DELETE_RIGHT: toolTip->show(_("Delete files/folders existing on right side only"), pos, GlobalResources::getInstance().bitmapSyncDeleteRightAct); break; case SO_OVERWRITE_LEFT: toolTip->show(_("Copy from right to left overwriting"), pos, GlobalResources::getInstance().bitmapSyncDirLeftAct); break; case SO_OVERWRITE_RIGHT: toolTip->show(_("Copy from left to right overwriting"), pos, GlobalResources::getInstance().bitmapSyncDirRightAct); break; case SO_DO_NOTHING: toolTip->show(_("Do nothing"), pos, GlobalResources::getInstance().bitmapSyncDirNoneAct); break; case SO_UNRESOLVED_CONFLICT: toolTip->show(rowData->conflictDescription.get(), pos, GlobalResources::getInstance().bitmapConflictAct); break; }; } else { switch (rowData->cmpResult) { case FILE_LEFT_SIDE_ONLY: toolTip->show(_("Files/folders that exist on left side only"), pos, GlobalResources::getInstance().bitmapLeftOnlyAct); break; case FILE_RIGHT_SIDE_ONLY: toolTip->show(_("Files/folders that exist on right side only"), pos, GlobalResources::getInstance().bitmapRightOnlyAct); break; case FILE_LEFT_NEWER: toolTip->show(_("Files that exist on both sides, left one is newer"), pos, GlobalResources::getInstance().bitmapLeftNewerAct); break; case FILE_RIGHT_NEWER: toolTip->show(_("Files that exist on both sides, right one is newer"), pos, GlobalResources::getInstance().bitmapRightNewerAct); break; case FILE_DIFFERENT: toolTip->show(_("Files that exist on both sides and have different content"), pos, GlobalResources::getInstance().bitmapDifferentAct); break; case FILE_EQUAL: toolTip->show(_(""), pos, GlobalResources::getInstance().bitmapEqualAct); break; case FILE_CONFLICT: toolTip->show(rowData->conflictDescription.get(), pos, GlobalResources::getInstance().bitmapConflictAct); break; } } } void CustomGridMiddle::OnLeftMouseDown(wxMouseEvent& event) { selectionRowBegin = mousePosToRow(event.GetPosition(), &selectionPos); event.Skip(); } void CustomGridMiddle::OnLeftMouseUp(wxMouseEvent& event) { const int rowEndFiltering = mousePosToRow(event.GetPosition()); if (0 <= selectionRowBegin && 0 <= rowEndFiltering) { switch (selectionPos) { case BLOCKPOS_CHECK_BOX: { //create a custom event FFSCheckRowsEvent evt(selectionRowBegin, rowEndFiltering); AddPendingEvent(evt); } break; case BLOCKPOS_LEFT: { //create a custom event FFSSyncDirectionEvent evt(selectionRowBegin, rowEndFiltering, SYNC_DIR_LEFT); AddPendingEvent(evt); } break; case BLOCKPOS_MIDDLE: { //create a custom event FFSSyncDirectionEvent evt(selectionRowBegin, rowEndFiltering, SYNC_DIR_NONE); AddPendingEvent(evt); } break; case BLOCKPOS_RIGHT: { //create a custom event FFSSyncDirectionEvent evt(selectionRowBegin, rowEndFiltering, SYNC_DIR_RIGHT); AddPendingEvent(evt); } break; } } selectionRowBegin = -1; selectionPos = BLOCKPOS_CHECK_BOX; ClearSelection(); event.Skip(); } int CustomGridMiddle::mousePosToRow(const wxPoint pos, BlockPosition* block) { int row = -1; int x = -1; int y = -1; CalcUnscrolledPosition( pos.x, pos.y, &x, &y ); if (x >= 0 && y >= 0) { row = YToRow(y); //determine blockposition within cell (optional) if (block) { *block = BLOCKPOS_CHECK_BOX; //default if (gridDataTable->syncPreviewIsActive() && row >= 0) { // cell: // ---------------------------------- // | checkbox | left | middle | right| // ---------------------------------- const wxRect rect = CellToRect(row, 0); if (rect.GetWidth() > CHECK_BOX_WIDTH) { const double blockWidth = (rect.GetWidth() - CHECK_BOX_WIDTH) / 3.0; if (rect.GetX() + CHECK_BOX_WIDTH <= x && x < rect.GetX() + rect.GetWidth()) { if (x - (rect.GetX() + CHECK_BOX_WIDTH) < blockWidth) *block = BLOCKPOS_LEFT; else if (x - (rect.GetX() + CHECK_BOX_WIDTH) < 2 * blockWidth) *block = BLOCKPOS_MIDDLE; else *block = BLOCKPOS_RIGHT; } } } } } return row; } void CustomGridMiddle::enableSyncPreview(bool value) { assert(gridDataTable); gridDataTable->enableSyncPreview(value); } void CustomGridMiddle::updateGridSizes() { assert(gridDataTable); gridDataTable->updateGridSizes(); } void GridCellRendererMiddle::Draw(wxGrid& grid, wxGridCellAttr& attr, wxDC& dc, const wxRect& rect, int row, int col, bool isSelected) { //retrieve grid data const FileCompareLine* const rowData = m_gridMiddle->gridDataTable->getRawData(row); if (rowData != NULL) //if valid row... { if (rect.GetWidth() > CHECK_BOX_WIDTH) { const bool rowIsHighlighted = row == m_gridMiddle->highlightedRow; wxRect rectShrinked(rect); //clean first block of rect that will receive image of checkbox rectShrinked.SetWidth(CHECK_BOX_WIDTH); wxGridCellRenderer::Draw(grid, attr, dc, rectShrinked, row, col, isSelected); //print image into first block rectShrinked.SetX(rect.GetX() + 1); //HIGHLIGHTNING: if (rowIsHighlighted && m_gridMiddle->highlightedPos == CustomGridMiddle::BLOCKPOS_CHECK_BOX) { if (rowData->selectedForSynchronization) dc.DrawLabel(wxEmptyString, *GlobalResources::getInstance().bitmapCheckBoxTrueFocus, rectShrinked, wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL); else dc.DrawLabel(wxEmptyString, *GlobalResources::getInstance().bitmapCheckBoxFalseFocus, rectShrinked, wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL); } //default else if (rowData->selectedForSynchronization) dc.DrawLabel(wxEmptyString, *GlobalResources::getInstance().bitmapCheckBoxTrue, rectShrinked, wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL); else dc.DrawLabel(wxEmptyString, *GlobalResources::getInstance().bitmapCheckBoxFalse, rectShrinked, wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL); //clean remaining block of rect that will receive image of checkbox/directions rectShrinked.SetWidth(rect.GetWidth() - CHECK_BOX_WIDTH); rectShrinked.SetX(rect.GetX() + CHECK_BOX_WIDTH); wxGridCellRenderer::Draw(grid, attr, dc, rectShrinked, row, col, isSelected); //print remaining block if (m_gridMiddle->gridDataTable->syncPreviewIsActive()) //synchronization preview { //print sync direction into second block //HIGHLIGHTNING: if (rowIsHighlighted && m_gridMiddle->highlightedPos != CustomGridMiddle::BLOCKPOS_CHECK_BOX) switch (m_gridMiddle->highlightedPos) { case CustomGridMiddle::BLOCKPOS_CHECK_BOX: break; case CustomGridMiddle::BLOCKPOS_LEFT: dc.DrawLabel(wxEmptyString, getSyncOpImage(rowData->cmpResult, true, SYNC_DIR_LEFT), rectShrinked, wxALIGN_LEFT | wxALIGN_CENTER_VERTICAL); break; case CustomGridMiddle::BLOCKPOS_MIDDLE: dc.DrawLabel(wxEmptyString, getSyncOpImage(rowData->cmpResult, true, SYNC_DIR_NONE), rectShrinked, wxALIGN_CENTER | wxALIGN_CENTER_VERTICAL); break; case CustomGridMiddle::BLOCKPOS_RIGHT: dc.DrawLabel(wxEmptyString, getSyncOpImage(rowData->cmpResult, true, SYNC_DIR_RIGHT), rectShrinked, wxALIGN_RIGHT | wxALIGN_CENTER_VERTICAL); break; } else //default { const wxBitmap& syncOpIcon = getSyncOpImage(rowData->cmpResult, rowData->selectedForSynchronization, rowData->syncDir); dc.DrawLabel(wxEmptyString, syncOpIcon, rectShrinked, wxALIGN_CENTER | wxALIGN_CENTER_VERTICAL); } } else //comparison results view { switch (rowData->cmpResult) { case FILE_LEFT_SIDE_ONLY: dc.DrawLabel(wxEmptyString, *GlobalResources::getInstance().bitmapLeftOnlySmall, rectShrinked, wxALIGN_CENTER | wxALIGN_CENTER_VERTICAL); break; case FILE_RIGHT_SIDE_ONLY: dc.DrawLabel(wxEmptyString, *GlobalResources::getInstance().bitmapRightOnlySmall, rectShrinked, wxALIGN_CENTER | wxALIGN_CENTER_VERTICAL); break; case FILE_LEFT_NEWER: dc.DrawLabel(wxEmptyString, *GlobalResources::getInstance().bitmapLeftNewerSmall, rectShrinked, wxALIGN_CENTER | wxALIGN_CENTER_VERTICAL); break; case FILE_RIGHT_NEWER: dc.DrawLabel(wxEmptyString, *GlobalResources::getInstance().bitmapRightNewerSmall, rectShrinked, wxALIGN_CENTER | wxALIGN_CENTER_VERTICAL); break; case FILE_DIFFERENT: dc.DrawLabel(wxEmptyString, *GlobalResources::getInstance().bitmapDifferentSmall, rectShrinked, wxALIGN_CENTER | wxALIGN_CENTER_VERTICAL); break; case FILE_EQUAL: dc.DrawLabel(wxEmptyString, *GlobalResources::getInstance().bitmapEqualSmall, rectShrinked, wxALIGN_CENTER | wxALIGN_CENTER_VERTICAL); break; case FILE_CONFLICT: dc.DrawLabel(wxEmptyString, *GlobalResources::getInstance().bitmapConflictSmall, rectShrinked, wxALIGN_CENTER | wxALIGN_CENTER_VERTICAL); break; } } return; } } //fallback wxGridCellStringRenderer::Draw(grid, attr, dc, rect, row, col, isSelected); } //this method is called when grid view changes: useful for parallel updating of multiple grids void CustomGridMiddle::alignOtherGrids(CustomGrid* gridLeft, CustomGrid* gridMiddle, CustomGrid* gridRight) { int x = 0; int y = 0; GetViewStart(&x, &y); gridLeft->Scroll(-1, y); gridRight->Scroll(-1, y); } void CustomGridMiddle::DrawColLabel(wxDC& dc, int col) { CustomGrid::DrawColLabel(dc, col); const wxRect rect(GetColLeft(col), 0, GetColWidth(col), GetColLabelSize()); if (gridDataTable->syncPreviewIsActive()) dc.DrawLabel(wxEmptyString, *GlobalResources::getInstance().bitmapSyncViewSmall, rect, wxALIGN_CENTER_HORIZONTAL | wxALIGN_CENTER_VERTICAL); else dc.DrawLabel(wxEmptyString, *GlobalResources::getInstance().bitmapCmpViewSmall, rect, wxALIGN_CENTER_HORIZONTAL | wxALIGN_CENTER_VERTICAL); } const wxBitmap& FreeFileSync::getSyncOpImage(const CompareFilesResult cmpResult, const bool selectedForSynchronization, const SyncDirection syncDir) { switch (getSyncOperation(cmpResult, selectedForSynchronization, syncDir)) //evaluate comparison result and sync direction { case SO_CREATE_NEW_LEFT: return *GlobalResources::getInstance().bitmapCreateLeftSmall; case SO_CREATE_NEW_RIGHT: return *GlobalResources::getInstance().bitmapCreateRightSmall; case SO_DELETE_LEFT: return *GlobalResources::getInstance().bitmapDeleteLeftSmall; case SO_DELETE_RIGHT: return *GlobalResources::getInstance().bitmapDeleteRightSmall; case SO_OVERWRITE_RIGHT: return *GlobalResources::getInstance().bitmapSyncDirRightSmall; case SO_OVERWRITE_LEFT: return *GlobalResources::getInstance().bitmapSyncDirLeftSmall; case SO_DO_NOTHING: return *GlobalResources::getInstance().bitmapSyncDirNoneSmall; case SO_UNRESOLVED_CONFLICT: return *GlobalResources::getInstance().bitmapConflictSmall; } return wxNullBitmap; //dummy }