#include "customGrid.h" const unsigned int MinimumRows = 15; //class containing pure grid data: basically the same as wxGridStringTable, but adds cell formatting class CustomGridTableBase : public wxGridStringTable { public: CustomGridTableBase(int numRows, int numCols) : wxGridStringTable(numRows, numCols), gridIdentifier(0), currentUI_ViewPtr(0), lastNrRows(MinimumRows) { lightBlue = new wxColour(80, 110, 255); } ~CustomGridTableBase() { delete lightBlue; } void setGridDataTable(UI_Grid* currentUI_ViewPtr) { this->currentUI_ViewPtr = currentUI_ViewPtr; } void SetGridIdentifier(int id) { gridIdentifier = id; } //########################################################################### //grid standard input output methods, redirected directly to UIGrid to improve performance virtual int GetNumberRows() { if (currentUI_ViewPtr) return max(currentUI_ViewPtr->size(), MinimumRows); return MinimumRows; //grid is initialized with this number of rows } virtual bool IsEmptyCell( int row, int col ) { return (GetValue(row, col) == wxEmptyString); } virtual wxString GetValue( int row, int col ) { if (currentUI_ViewPtr) { if (currentUI_ViewPtr->size() > unsigned(row)) { switch (gridIdentifier) { case 1: if (4 > col) { switch (col) { case 0: return (*currentUI_ViewPtr)[row].leftFilename; case 1: return (*currentUI_ViewPtr)[row].leftRelativePath; case 2: return (*currentUI_ViewPtr)[row].leftSize; case 3: return (*currentUI_ViewPtr)[row].leftDate; } } break; case 2: if (4 > col) { switch (col) { case 0: return (*currentUI_ViewPtr)[row].rightFilename; case 1: return (*currentUI_ViewPtr)[row].rightRelativePath; case 2: return (*currentUI_ViewPtr)[row].rightSize; case 3: return (*currentUI_ViewPtr)[row].rightDate; } } break; case 3: if (1 > col) { return (*currentUI_ViewPtr)[row].cmpResult; } break; default: break; } } } //if data not found in UIgrid table: return wxEmptyString; } virtual void SetValue( int row, int col, const wxString& value ) { assert (false); //should not be used, since values are retrieved directly from currentUI_ViewPtr } virtual void Clear() { assert (false); // we don't want to use this, since the visible grid is directly connected to currentUI_ViewPtr} } virtual bool InsertRows( size_t pos = 0, size_t numRows = 1 ) { assert (false); // we don't want to use this, since the visible grid is directly connected to currentUI_ViewPtr} return true; } virtual bool AppendRows( size_t numRows = 1 ) { assert (false); // we don't want to use this, since the visible grid is directly connected to currentUI_ViewPtr} return true; } virtual bool DeleteRows( size_t pos = 0, size_t numRows = 1 ) { assert (false); // we don't want to use this, since the visible grid is directly connected to currentUI_ViewPtr} return true; } //update dimensions of grid: no need for InsertRows, AppendRows, DeleteRows anymore!!! void updateGridSizes() { if (currentUI_ViewPtr) { 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; } } //########################################################################### bool markThisRow(int row) { if (currentUI_ViewPtr) { if (currentUI_ViewPtr->size() > unsigned(row)) { if ((*currentUI_ViewPtr)[row].cmpResult == constFilteredOut) return true; } } return false; } wxGridCellAttr* GetAttr(int row, int col, wxGridCellAttr::wxAttrKind kind) { wxGridCellAttr* result = wxGridTableBase::GetAttr(row, col, kind); // MARK FILTERED ROWS: if (result) { //if kind is not a cell or row attribute, we have to clone the cell attribute, since we don't want to change e.g. all column attribs if (result->GetKind() != wxGridCellAttr::Cell && result->GetKind() != wxGridCellAttr::Row) { wxGridCellAttr* attr = result->Clone(); result->DecRef(); result = attr; } if (markThisRow(row)) result->SetBackgroundColour(*lightBlue); else result->SetBackgroundColour(*wxWHITE); } else { result = new wxGridCellAttr; if (markThisRow(row)) result->SetBackgroundColour(*lightBlue); } return result; } private: wxColour* lightBlue; int gridIdentifier; UI_Grid* currentUI_ViewPtr; //(fast) access to underlying grid data :) int lastNrRows; }; //######################################################################################################## CustomGrid::CustomGrid( wxWindow *parent, wxWindowID id, const wxPoint& pos, const wxSize& size, long style, const wxString& name) : wxGrid(parent, id, pos, size, style, name), scrollbarsEnabled(true), m_grid1(0), m_grid2(0), m_grid3(0), gridDataTable(0), currentSortColumn(-1), sortMarker(0) {} CustomGrid::~CustomGrid() {} bool CustomGrid::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 CustomGridTableBase(numRows, numCols); SetTable(gridDataTable, true, selmode); //give ownership to CustomGrid: gridDataTable is deleted automatically in CustomGrid destructor return true; } void CustomGrid::deactivateScrollbars() { scrollbarsEnabled = false; } //overwrite virtual method to finally get rid of the scrollbars void CustomGrid::SetScrollbar(int orientation, int position, int thumbSize, int range, bool refresh) { if (scrollbarsEnabled) wxWindow::SetScrollbar(orientation, position, thumbSize, range, refresh); else wxWindow::SetScrollbar(orientation, 0, 0, 0, refresh); } //this method is called when grid view changes: useful for parallel updating of multiple grids void CustomGrid::DoPrepareDC(wxDC& dc) { wxScrollHelper::DoPrepareDC(dc); int x, y = 0; if (leadingPanel == 1 && this == m_grid1) //avoid back coupling { GetViewStart(&x, &y); m_grid2->Scroll(x, y); m_grid3->Scroll(-1, y); //scroll in y-direction only } else if (leadingPanel == 2 && this == m_grid2) //avoid back coupling { GetViewStart(&x, &y); m_grid1->Scroll(x, y); m_grid3->Scroll(-1, y); } else if (leadingPanel == 3 && this == m_grid3) //avoid back coupling { GetViewStart(&x, &y); m_grid1->Scroll(-1, y); m_grid2->Scroll(-1, y); } } //these classes will scroll together, hence the name ;) void CustomGrid::setScrollFriends(CustomGrid* grid1, CustomGrid* grid2, CustomGrid* grid3) { m_grid1 = grid1; m_grid2 = grid2; m_grid3 = grid3; assert(gridDataTable); if (this == m_grid1) gridDataTable->SetGridIdentifier(1); else if (this == m_grid2) gridDataTable->SetGridIdentifier(2); else if (this == m_grid3) gridDataTable->SetGridIdentifier(3); else assert (false); } void CustomGrid::setGridDataTable(UI_Grid* currentUI_ViewPtr) { //set underlying grid data assert(gridDataTable); gridDataTable->setGridDataTable(currentUI_ViewPtr); } void CustomGrid::updateGridSizes() { assert(gridDataTable); gridDataTable->updateGridSizes(); } void CustomGrid::setSortMarker(const int sortColumn, const wxBitmap* bitmap) { currentSortColumn = sortColumn; sortMarker = bitmap; } void CustomGrid::DrawColLabel( wxDC& dc, int col ) { assert(0 <= col && col < 4); wxGrid::DrawColLabel(dc, col); if (col == currentSortColumn) { dc.DrawBitmap(*sortMarker, GetColRight(col) - 16 - 2, 2, true); //respect 2-pixel border } }