/********************************************************************** ** ** Implementation of TQtTableView class ** ** Created : 941115 ** ** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved. ** ** This file contains a class moved out of the TQt GUI Toolkit API. It ** may be used, distributed and modified without limitation. ** **********************************************************************/ #include "qttableview.h" #ifndef QT_NO_QTTABLEVIEW #include "ntqscrollbar.h" #include "ntqpainter.h" #include "ntqdrawutil.h" #include enum ScrollBarDirtyFlags { verGeometry = 0x01, verSteps = 0x02, verRange = 0x04, verValue = 0x08, horGeometry = 0x10, horSteps = 0x20, horRange = 0x40, horValue = 0x80, verMask = 0x0F, horMask = 0xF0 }; #define HSBEXT horizontalScrollBar()->sizeHint().height() #define VSBEXT verticalScrollBar()->sizeHint().width() class TQCornerSquare : public TQWidget // internal class { public: TQCornerSquare( TQWidget *, const char* = 0 ); void paintEvent( TQPaintEvent * ); }; TQCornerSquare::TQCornerSquare( TQWidget *parent, const char *name ) : TQWidget( parent, name ) { } void TQCornerSquare::paintEvent( TQPaintEvent * ) { } // NOT REVISED /* \class TQtTableView qttableview.h \brief The TQtTableView class provides an abstract base for tables. \obsolete A table view consists of a number of abstract cells organized in rows and columns, and a visible part called a view. The cells are identified with a row index and a column index. The top-left cell is in row 0, column 0. The behavior of the widget can be finely tuned using setTableFlags(); a typical subclass will consist of little more than a call to setTableFlags(), some table content manipulation and an implementation of paintCell(). Subclasses that need cells with variable width or height must reimplement cellHeight() and/or cellWidth(). Use updateTableSize() to tell TQtTableView when the width or height has changed. When you read this documentation, it is important to understand the distinctions among the four pixel coordinate systems involved. \list 1 \i The \e cell coordinates. (0,0) is the top-left corner of a cell. Cell coordinates are used by functions such as paintCell(). \i The \e table coordinates. (0,0) is the top-left corner of the cell at row 0 and column 0. These coordinates are absolute; that is, they are independent of what part of the table is visible at the moment. They are used by functions such as setXOffset() or maxYOffset(). \i The \e widget coordinates. (0,0) is the top-left corner of the widget, \e including the frame. They are used by functions such as repaint(). \i The \e view coordinates. (0,0) is the top-left corner of the view, \e excluding the frame. This is the least-used coordinate system; it is used by functions such as viewWidth(). \endlist It is rather unfortunate that we have to use four different coordinate systems, but there was no alternative to provide a flexible and powerful base class. Note: The row,column indices are always given in that order, i.e., first the vertical (row), then the horizontal (column). This is the opposite order of all pixel operations, which take first the horizontal (x) and then the vertical (y). \warning the functions setNumRows(), setNumCols(), setCellHeight(), setCellWidth(), setTableFlags() and clearTableFlags() may cause virtual functions such as cellWidth() and cellHeight() to be called, even if autoUpdate() is FALSE. This may cause errors if relevant state variables are not initialized. \warning Experience has shown that use of this widget tends to cause more bugs than expected and our analysis indicates that the widget's very flexibility is the problem. If TQScrollView or TQListBox can easily be made to do the job you need, we recommend subclassing those widgets rather than TQtTableView. In addition, TQScrollView makes it easy to have child widgets inside tables, which TQtTableView doesn't support at all. \sa TQScrollView \link guibooks.html#fowler GUI Design Handbook: Table\endlink */ /* Constructs a table view. The \a parent, \a name and \f arguments are passed to the TQFrame constructor. The \link setTableFlags() table flags\endlink are all cleared (set to 0). Set \c Tbl_autoVScrollBar or \c Tbl_autoHScrollBar to get automatic scroll bars and \c Tbl_clipCellPainting to get safe clipping. The \link setCellHeight() cell height\endlink and \link setCellWidth() cell width\endlink are set to 0. Frame line shapes (TQFrame::HLink and TQFrame::VLine) are disallowed; see TQFrame::setFrameStyle(). Note that the \a f argument is \e not \link setTableFlags() table flags \endlink but rather \link TQWidget::TQWidget() widget flags. \endlink */ TQtTableView::TQtTableView( TQWidget *parent, const char *name, WFlags f ) : TQFrame( parent, name, f ) { nRows = nCols = 0; // zero rows/cols xCellOffs = yCellOffs = 0; // zero offset xCellDelta = yCellDelta = 0; // zero cell offset xOffs = yOffs = 0; // zero total pixel offset cellH = cellW = 0; // user defined cell size tFlags = 0; vScrollBar = hScrollBar = 0; // no scroll bars cornerSquare = 0; sbDirty = 0; eraseInPaint = FALSE; verSliding = FALSE; verSnappingOff = FALSE; horSliding = FALSE; horSnappingOff = FALSE; coveringCornerSquare = FALSE; inSbUpdate = FALSE; } /* Destroys the table view. */ TQtTableView::~TQtTableView() { delete vScrollBar; delete hScrollBar; delete cornerSquare; } /* \internal Reimplements TQWidget::setBackgroundColor() for binary compatibility. \sa setPalette() */ void TQtTableView::setBackgroundColor( const TQColor &c ) { TQWidget::setBackgroundColor( c ); } /*\reimp */ void TQtTableView::setPalette( const TQPalette &p ) { TQWidget::setPalette( p ); } /*\reimp */ void TQtTableView::show() { showOrHideScrollBars(); TQWidget::show(); } /* \overload void TQtTableView::repaint( bool erase ) Repaints the entire view. */ /* Repaints the table view directly by calling paintEvent() directly unless updates are disabled. Erases the view area \a (x,y,w,h) if \a erase is TRUE. Parameters \a (x,y) are in \e widget coordinates. If \a w is negative, it is replaced with width() - x. If \a h is negative, it is replaced with height() - y. Doing a repaint() usually is faster than doing an update(), but calling update() many times in a row will generate a single paint event. At present, TQtTableView is the only widget that reimplements \link TQWidget::repaint() repaint()\endlink. It does this because by clearing and then repainting one cell at at time, it can make the screen flicker less than it would otherwise. */ void TQtTableView::repaint( int x, int y, int w, int h, bool erase ) { if ( !isVisible() || testWState(WState_BlockUpdates) ) return; if ( w < 0 ) w = width() - x; if ( h < 0 ) h = height() - y; TQRect r( x, y, w, h ); if ( r.isEmpty() ) return; // nothing to do TQPaintEvent e( r ); if ( erase && backgroundMode() != NoBackground ) eraseInPaint = TRUE; // erase when painting paintEvent( &e ); eraseInPaint = FALSE; } /* \overload void TQtTableView::repaint( const TQRect &r, bool erase ) Replaints rectangle \a r. If \a erase is TRUE draws the background using the palette's background. */ /* \fn int TQtTableView::numRows() const Returns the number of rows in the table. \sa numCols(), setNumRows() */ /* Sets the number of rows of the table to \a rows (must be non-negative). Does not change topCell(). The table repaints itself automatically if autoUpdate() is set. \sa numCols(), setNumCols(), numRows() */ void TQtTableView::setNumRows( int rows ) { if ( rows < 0 ) { #if defined(QT_CHECK_RANGE) qWarning( "TQtTableView::setNumRows: (%s) Negative argument %d.", name( "unnamed" ), rows ); #endif return; } if ( nRows == rows ) return; if ( autoUpdate() && isVisible() ) { int oldLastVisible = lastRowVisible(); int oldTopCell = topCell(); nRows = rows; if ( autoUpdate() && isVisible() && ( oldLastVisible != lastRowVisible() || oldTopCell != topCell() ) ) repaint( oldTopCell != topCell() ); } else { // Be more careful - if destructing, bad things might happen. nRows = rows; } updateScrollBars( verRange ); updateFrameSize(); } /* \fn int TQtTableView::numCols() const Returns the number of columns in the table. \sa numRows(), setNumCols() */ /* Sets the number of columns of the table to \a cols (must be non-negative). Does not change leftCell(). The table repaints itself automatically if autoUpdate() is set. \sa numCols(), numRows(), setNumRows() */ void TQtTableView::setNumCols( int cols ) { if ( cols < 0 ) { #if defined(QT_CHECK_RANGE) qWarning( "TQtTableView::setNumCols: (%s) Negative argument %d.", name( "unnamed" ), cols ); #endif return; } if ( nCols == cols ) return; int oldCols = nCols; nCols = cols; if ( autoUpdate() && isVisible() ) { int maxCol = lastColVisible(); if ( maxCol >= oldCols || maxCol >= nCols ) repaint(); } updateScrollBars( horRange ); updateFrameSize(); } /* \fn int TQtTableView::topCell() const Returns the index of the first row in the table that is visible in the view. The index of the first row is 0. \sa leftCell(), setTopCell() */ /* Scrolls the table so that \a row becomes the top row. The index of the very first row is 0. \sa setYOffset(), setTopLeftCell(), setLeftCell() */ void TQtTableView::setTopCell( int row ) { setTopLeftCell( row, -1 ); return; } /* \fn int TQtTableView::leftCell() const Returns the index of the first column in the table that is visible in the view. The index of the very leftmost column is 0. \sa topCell(), setLeftCell() */ /* Scrolls the table so that \a col becomes the leftmost column. The index of the leftmost column is 0. \sa setXOffset(), setTopLeftCell(), setTopCell() */ void TQtTableView::setLeftCell( int col ) { setTopLeftCell( -1, col ); return; } /* Scrolls the table so that the cell at row \a row and colum \a col becomes the top-left cell in the view. The cell at the extreme top left of the table is at position (0,0). \sa setLeftCell(), setTopCell(), setOffset() */ void TQtTableView::setTopLeftCell( int row, int col ) { int newX = xOffs; int newY = yOffs; if ( col >= 0 ) { if ( cellW ) { newX = col*cellW; if ( newX > maxXOffset() ) newX = maxXOffset(); } else { newX = 0; while ( col ) newX += cellWidth( --col ); // optimize using current! ### } } if ( row >= 0 ) { if ( cellH ) { newY = row*cellH; if ( newY > maxYOffset() ) newY = maxYOffset(); } else { newY = 0; while ( row ) newY += cellHeight( --row ); // optimize using current! ### } } setOffset( newX, newY ); } /* \fn int TQtTableView::xOffset() const Returns the x coordinate in \e table coordinates of the pixel that is currently on the left edge of the view. \sa setXOffset(), yOffset(), leftCell() */ /* Scrolls the table so that \a x becomes the leftmost pixel in the view. The \a x parameter is in \e table coordinates. The interaction with \link setTableFlags() Tbl_snapToHGrid \endlink is tricky. \sa xOffset(), setYOffset(), setOffset(), setLeftCell() */ void TQtTableView::setXOffset( int x ) { setOffset( x, yOffset() ); } /* \fn int TQtTableView::yOffset() const Returns the y coordinate in \e table coordinates of the pixel that is currently on the top edge of the view. \sa setYOffset(), xOffset(), topCell() */ /* Scrolls the table so that \a y becomes the top pixel in the view. The \a y parameter is in \e table coordinates. The interaction with \link setTableFlags() Tbl_snapToVGrid \endlink is tricky. \sa yOffset(), setXOffset(), setOffset(), setTopCell() */ void TQtTableView::setYOffset( int y ) { setOffset( xOffset(), y ); } /* Scrolls the table so that \a (x,y) becomes the top-left pixel in the view. Parameters \a (x,y) are in \e table coordinates. The interaction with \link setTableFlags() Tbl_snapTo*Grid \endlink is tricky. If \a updateScrBars is TRUE, the scroll bars are updated. \sa xOffset(), yOffset(), setXOffset(), setYOffset(), setTopLeftCell() */ void TQtTableView::setOffset( int x, int y, bool updateScrBars ) { if ( (!testTableFlags(Tbl_snapToHGrid) || xCellDelta == 0) && (!testTableFlags(Tbl_snapToVGrid) || yCellDelta == 0) && (x == xOffs && y == yOffs) ) return; if ( x < 0 ) x = 0; if ( y < 0 ) y = 0; if ( cellW ) { if ( x > maxXOffset() ) x = maxXOffset(); xCellOffs = x / cellW; if ( !testTableFlags(Tbl_snapToHGrid) ) { xCellDelta = (short)(x % cellW); } else { x = xCellOffs*cellW; xCellDelta = 0; } } else { int xn=0, xcd=0, col = 0; while ( col < nCols-1 && x >= xn+(xcd=cellWidth(col)) ) { xn += xcd; col++; } xCellOffs = col; if ( testTableFlags(Tbl_snapToHGrid) ) { xCellDelta = 0; x = xn; } else { xCellDelta = (short)(x-xn); } } if ( cellH ) { if ( y > maxYOffset() ) y = maxYOffset(); yCellOffs = y / cellH; if ( !testTableFlags(Tbl_snapToVGrid) ) { yCellDelta = (short)(y % cellH); } else { y = yCellOffs*cellH; yCellDelta = 0; } } else { int yn=0, yrd=0, row=0; while ( row < nRows-1 && y >= yn+(yrd=cellHeight(row)) ) { yn += yrd; row++; } yCellOffs = row; if ( testTableFlags(Tbl_snapToVGrid) ) { yCellDelta = 0; y = yn; } else { yCellDelta = (short)(y-yn); } } int dx = (x - xOffs); int dy = (y - yOffs); xOffs = x; yOffs = y; if ( autoUpdate() && isVisible() ) scroll( dx, dy ); if ( updateScrBars ) updateScrollBars( verValue | horValue ); } /* \overload int TQtTableView::cellWidth() const Returns the column width in pixels. Returns 0 if the columns have variable widths. \sa setCellWidth(), cellHeight() */ /* Returns the width of column \a col in pixels. This function is virtual and must be reimplemented by subclasses that have variable cell widths. Note that if the total table width changes, updateTableSize() must be called. \sa setCellWidth(), cellHeight(), totalWidth(), updateTableSize() */ int TQtTableView::cellWidth( int ) { return cellW; } /* Sets the width in pixels of the table cells to \a cellWidth. Setting it to 0 means that the column width is variable. When set to 0 (this is the default) TQtTableView calls the virtual function cellWidth() to get the width. \sa cellWidth(), setCellHeight(), totalWidth(), numCols() */ void TQtTableView::setCellWidth( int cellWidth ) { if ( cellW == cellWidth ) return; #if defined(QT_CHECK_RANGE) if ( cellWidth < 0 || cellWidth > SHRT_MAX ) { qWarning( "TQtTableView::setCellWidth: (%s) Argument out of range (%d)", name( "unnamed" ), cellWidth ); return; } #endif cellW = (short)cellWidth; updateScrollBars( horSteps | horRange ); if ( autoUpdate() && isVisible() ) repaint(); } /* \overload int TQtTableView::cellHeight() const Returns the row height, in pixels. Returns 0 if the rows have variable heights. \sa setCellHeight(), cellWidth() */ /* Returns the height of row \a row in pixels. This function is virtual and must be reimplemented by subclasses that have variable cell heights. Note that if the total table height changes, updateTableSize() must be called. \sa setCellHeight(), cellWidth(), totalHeight() */ int TQtTableView::cellHeight( int ) { return cellH; } /* Sets the height in pixels of the table cells to \a cellHeight. Setting it to 0 means that the row height is variable. When set to 0 (this is the default), TQtTableView calls the virtual function cellHeight() to get the height. \sa cellHeight(), setCellWidth(), totalHeight(), numRows() */ void TQtTableView::setCellHeight( int cellHeight ) { if ( cellH == cellHeight ) return; #if defined(QT_CHECK_RANGE) if ( cellHeight < 0 || cellHeight > SHRT_MAX ) { qWarning( "TQtTableView::setCellHeight: (%s) Argument out of range (%d)", name( "unnamed" ), cellHeight ); return; } #endif cellH = (short)cellHeight; if ( autoUpdate() && isVisible() ) repaint(); updateScrollBars( verSteps | verRange ); } /* Returns the total width of the table in pixels. This function is virtual and should be reimplemented by subclasses that have variable cell widths and a non-trivial cellWidth() function, or a large number of columns in the table. The default implementation may be slow for very wide tables. \sa cellWidth(), totalHeight() */ int TQtTableView::totalWidth() { if ( cellW ) { return cellW*nCols; } else { int tw = 0; for( int i = 0 ; i < nCols ; i++ ) tw += cellWidth( i ); return tw; } } /* Returns the total height of the table in pixels. This function is virtual and should be reimplemented by subclasses that have variable cell heights and a non-trivial cellHeight() function, or a large number of rows in the table. The default implementation may be slow for very tall tables. \sa cellHeight(), totalWidth() */ int TQtTableView::totalHeight() { if ( cellH ) { return cellH*nRows; } else { int th = 0; for( int i = 0 ; i < nRows ; i++ ) th += cellHeight( i ); return th; } } /* \fn uint TQtTableView::tableFlags() const Returns the union of the table flags that are currently set. \sa setTableFlags(), clearTableFlags(), testTableFlags() */ /* \fn bool TQtTableView::testTableFlags( uint f ) const Returns TRUE if any of the table flags in \a f are currently set, otherwise FALSE. \sa setTableFlags(), clearTableFlags(), tableFlags() */ /* Sets the table flags to \a f. If a flag setting changes the appearance of the table, the table is repainted if - and only if - autoUpdate() is TRUE. The table flags are mostly single bits, though there are some multibit flags for convenience. Here is a complete list:
Tbl_vScrollBar
- The table has a vertical scroll bar.
Tbl_hScrollBar
- The table has a horizontal scroll bar.
Tbl_autoVScrollBar
- The table has a vertical scroll bar if - and only if - the table is taller than the view.
Tbl_autoHScrollBar
The table has a horizontal scroll bar if - and only if - the table is wider than the view.
Tbl_autoScrollBars
- The union of the previous two flags.
Tbl_clipCellPainting
- The table uses TQPainter::setClipRect() to make sure that paintCell() will not draw outside the cell boundaries.
Tbl_cutCellsV
- The table will never show part of a cell at the bottom of the table; if there is not space for all of a cell, the space is left blank.
Tbl_cutCellsH
- The table will never show part of a cell at the right side of the table; if there is not space for all of a cell, the space is left blank.
Tbl_cutCells
- The union of the previous two flags.
Tbl_scrollLastHCell
- When the user scrolls horizontally, let him/her scroll the last cell left until it is at the left edge of the view. If this flag is not set, the user can only scroll to the point where the last cell is completely visible.
Tbl_scrollLastVCell
- When the user scrolls vertically, let him/her scroll the last cell up until it is at the top edge of the view. If this flag is not set, the user can only scroll to the point where the last cell is completely visible.
Tbl_scrollLastCell
- The union of the previous two flags.
Tbl_smoothHScrolling
- The table scrolls as smoothly as possible when the user scrolls horizontally. When this flag is not set, scrolling is done one cell at a time.
Tbl_smoothVScrolling
- The table scrolls as smoothly as possible when scrolling vertically. When this flag is not set, scrolling is done one cell at a time.
Tbl_smoothScrolling
- The union of the previous two flags.
Tbl_snapToHGrid
- Except when the user is actually scrolling, the leftmost column shown snaps to the leftmost edge of the view.
Tbl_snapToVGrid
- Except when the user is actually scrolling, the top row snaps to the top edge of the view.
Tbl_snapToGrid
- The union of the previous two flags.
You can specify more than one flag at a time using bitwise OR. Example: \code setTableFlags( Tbl_smoothScrolling | Tbl_autoScrollBars ); \endcode \warning The cutCells options (\c Tbl_cutCells, \c Tbl_cutCellsH and Tbl_cutCellsV) may cause painting problems when scrollbars are enabled. Do not combine cutCells and scrollbars. \sa clearTableFlags(), testTableFlags(), tableFlags() */ void TQtTableView::setTableFlags( uint f ) { f = (f ^ tFlags) & f; // clear flags already set tFlags |= f; bool updateOn = autoUpdate(); setAutoUpdate( FALSE ); uint repaintMask = Tbl_cutCellsV | Tbl_cutCellsH; if ( f & Tbl_vScrollBar ) { setVerScrollBar( TRUE ); } if ( f & Tbl_hScrollBar ) { setHorScrollBar( TRUE ); } if ( f & Tbl_autoVScrollBar ) { updateScrollBars( verRange ); } if ( f & Tbl_autoHScrollBar ) { updateScrollBars( horRange ); } if ( f & Tbl_scrollLastHCell ) { updateScrollBars( horRange ); } if ( f & Tbl_scrollLastVCell ) { updateScrollBars( verRange ); } if ( f & Tbl_snapToHGrid ) { updateScrollBars( horRange ); } if ( f & Tbl_snapToVGrid ) { updateScrollBars( verRange ); } if ( f & Tbl_snapToGrid ) { // Note: checks for 2 flags if ( (f & Tbl_snapToHGrid) != 0 && xCellDelta != 0 || //have to scroll? (f & Tbl_snapToVGrid) != 0 && yCellDelta != 0 ) { snapToGrid( (f & Tbl_snapToHGrid) != 0, // do snapping (f & Tbl_snapToVGrid) != 0 ); repaintMask |= Tbl_snapToGrid; // repaint table } } if ( updateOn ) { setAutoUpdate( TRUE ); updateScrollBars(); if ( isVisible() && (f & repaintMask) ) repaint(); } } /* Clears the \link setTableFlags() table flags\endlink that are set in \a f. Example (clears a single flag): \code clearTableFlags( Tbl_snapToGrid ); \endcode The default argument clears all flags. \sa setTableFlags(), testTableFlags(), tableFlags() */ void TQtTableView::clearTableFlags( uint f ) { f = (f ^ ~tFlags) & f; // clear flags that are already 0 tFlags &= ~f; bool updateOn = autoUpdate(); setAutoUpdate( FALSE ); uint repaintMask = Tbl_cutCellsV | Tbl_cutCellsH; if ( f & Tbl_vScrollBar ) { setVerScrollBar( FALSE ); } if ( f & Tbl_hScrollBar ) { setHorScrollBar( FALSE ); } if ( f & Tbl_scrollLastHCell ) { int maxX = maxXOffset(); if ( xOffs > maxX ) { setOffset( maxX, yOffs ); repaintMask |= Tbl_scrollLastHCell; } updateScrollBars( horRange ); } if ( f & Tbl_scrollLastVCell ) { int maxY = maxYOffset(); if ( yOffs > maxY ) { setOffset( xOffs, maxY ); repaintMask |= Tbl_scrollLastVCell; } updateScrollBars( verRange ); } if ( f & Tbl_smoothScrolling ) { // Note: checks for 2 flags if ((f & Tbl_smoothHScrolling) != 0 && xCellDelta != 0 ||//must scroll? (f & Tbl_smoothVScrolling) != 0 && yCellDelta != 0 ) { snapToGrid( (f & Tbl_smoothHScrolling) != 0, // do snapping (f & Tbl_smoothVScrolling) != 0 ); repaintMask |= Tbl_smoothScrolling; // repaint table } } if ( f & Tbl_snapToHGrid ) { updateScrollBars( horRange ); } if ( f & Tbl_snapToVGrid ) { updateScrollBars( verRange ); } if ( updateOn ) { setAutoUpdate( TRUE ); updateScrollBars(); // returns immediately if nothing to do if ( isVisible() && (f & repaintMask) ) repaint(); } } /* \fn bool TQtTableView::autoUpdate() const Returns TRUE if the view updates itself automatically whenever it is changed in some way. \sa setAutoUpdate() */ /* Sets the auto-update option of the table view to \a enable. If \a enable is TRUE (this is the default), the view updates itself automatically whenever it has changed in some way (for example, when a \link setTableFlags() flag\endlink is changed). If \a enable is FALSE, the view does NOT repaint itself or update its internal state variables when it is changed. This can be useful to avoid flicker during large changes and is singularly useless otherwise. Disable auto-update, do the changes, re-enable auto-update and call repaint(). \warning Do not leave the view in this state for a long time (i.e., between events). If, for example, the user interacts with the view when auto-update is off, strange things can happen. Setting auto-update to TRUE does not repaint the view; you must call repaint() to do this. \sa autoUpdate(), repaint() */ void TQtTableView::setAutoUpdate( bool enable ) { if ( isUpdatesEnabled() == enable ) return; setUpdatesEnabled( enable ); if ( enable ) { showOrHideScrollBars(); updateScrollBars(); } } /* Repaints the cell at row \a row, column \a col if it is inside the view. If \a erase is TRUE, the relevant part of the view is cleared to the background color/pixmap before the contents are repainted. \sa isVisible() */ void TQtTableView::updateCell( int row, int col, bool erase ) { int xPos, yPos; if ( !colXPos( col, &xPos ) ) return; if ( !rowYPos( row, &yPos ) ) return; TQRect uR = TQRect( xPos, yPos, cellW ? cellW : cellWidth(col), cellH ? cellH : cellHeight(row) ); repaint( uR.intersect(viewRect()), erase ); } /* \fn TQRect TQtTableView::cellUpdateRect() const This function should be called only from the paintCell() function in subclasses. It returns the portion of a cell that actually needs to be updated in \e cell coordinates. This is useful only for non-trivial paintCell(). */ /* Returns the rectangle that is the actual table, excluding any frame, in \e widget coordinates. */ TQRect TQtTableView::viewRect() const { return TQRect( frameWidth(), frameWidth(), viewWidth(), viewHeight() ); } /* Returns the index of the last (bottom) row in the view. The index of the first row is 0. If no rows are visible it returns -1. This can happen if the view is too small for the first row and Tbl_cutCellsV is set. \sa lastColVisible() */ int TQtTableView::lastRowVisible() const { int cellMaxY; int row = findRawRow( maxViewY(), &cellMaxY ); if ( row == -1 || row >= nRows ) { // maxViewY() past end? row = nRows - 1; // yes: return last row } else { if ( testTableFlags(Tbl_cutCellsV) && cellMaxY > maxViewY() ) { if ( row == yCellOffs ) // cut by right margin? return -1; // yes, nothing in the view else row = row - 1; // cut by margin, one back } } return row; } /* Returns the index of the last (right) column in the view. The index of the first column is 0. If no columns are visible it returns -1. This can happen if the view is too narrow for the first column and Tbl_cutCellsH is set. \sa lastRowVisible() */ int TQtTableView::lastColVisible() const { int cellMaxX; int col = findRawCol( maxViewX(), &cellMaxX ); if ( col == -1 || col >= nCols ) { // maxViewX() past end? col = nCols - 1; // yes: return last col } else { if ( testTableFlags(Tbl_cutCellsH) && cellMaxX > maxViewX() ) { if ( col == xCellOffs ) // cut by bottom margin? return -1; // yes, nothing in the view else col = col - 1; // cell by margin, one back } } return col; } /* Returns TRUE if \a row is at least partially visible. \sa colIsVisible() */ bool TQtTableView::rowIsVisible( int row ) const { return rowYPos( row, 0 ); } /* Returns TRUE if \a col is at least partially visible. \sa rowIsVisible() */ bool TQtTableView::colIsVisible( int col ) const { return colXPos( col, 0 ); } /* \internal Called when both scroll bars are active at the same time. Covers the bottom left corner between the two scroll bars with an empty widget. */ void TQtTableView::coverCornerSquare( bool enable ) { coveringCornerSquare = enable; if ( !cornerSquare && enable ) { cornerSquare = new TQCornerSquare( this ); TQ_CHECK_PTR( cornerSquare ); cornerSquare->setGeometry( maxViewX() + frameWidth() + 1, maxViewY() + frameWidth() + 1, VSBEXT, HSBEXT); } if ( autoUpdate() && cornerSquare ) { if ( enable ) cornerSquare->show(); else cornerSquare->hide(); } } /* \internal Scroll the view to a position such that: If \a horizontal is TRUE, the leftmost column shown fits snugly with the left edge of the view. If \a vertical is TRUE, the top row shown fits snugly with the top of the view. You can achieve the same effect automatically by setting any of the \link setTableFlags() Tbl_snapTo*Grid \endlink table flags. */ void TQtTableView::snapToGrid( bool horizontal, bool vertical ) { int newXCell = -1; int newYCell = -1; if ( horizontal && xCellDelta != 0 ) { int w = cellW ? cellW : cellWidth( xCellOffs ); if ( xCellDelta >= w/2 ) newXCell = xCellOffs + 1; else newXCell = xCellOffs; } if ( vertical && yCellDelta != 0 ) { int h = cellH ? cellH : cellHeight( yCellOffs ); if ( yCellDelta >= h/2 ) newYCell = yCellOffs + 1; else newYCell = yCellOffs; } setTopLeftCell( newYCell, newXCell ); //row,column } /* \internal This internal slot is connected to the horizontal scroll bar's TQScrollBar::valueChanged() signal. Moves the table horizontally to offset \a val without updating the scroll bar. */ void TQtTableView::horSbValue( int val ) { if ( horSliding ) { horSliding = FALSE; if ( horSnappingOff ) { horSnappingOff = FALSE; tFlags |= Tbl_snapToHGrid; } } setOffset( val, yOffs, FALSE ); } /* \internal This internal slot is connected to the horizontal scroll bar's TQScrollBar::sliderMoved() signal. Scrolls the table smoothly horizontally even if \c Tbl_snapToHGrid is set. */ void TQtTableView::horSbSliding( int val ) { if ( testTableFlags(Tbl_snapToHGrid) && testTableFlags(Tbl_smoothHScrolling) ) { tFlags &= ~Tbl_snapToHGrid; // turn off snapping while sliding setOffset( val, yOffs, FALSE ); tFlags |= Tbl_snapToHGrid; // turn on snapping again } else { setOffset( val, yOffs, FALSE ); } } /* \internal This internal slot is connected to the horizontal scroll bar's TQScrollBar::sliderReleased() signal. */ void TQtTableView::horSbSlidingDone( ) { if ( testTableFlags(Tbl_snapToHGrid) && testTableFlags(Tbl_smoothHScrolling) ) snapToGrid( TRUE, FALSE ); } /* \internal This internal slot is connected to the vertical scroll bar's TQScrollBar::valueChanged() signal. Moves the table vertically to offset \a val without updating the scroll bar. */ void TQtTableView::verSbValue( int val ) { if ( verSliding ) { verSliding = FALSE; if ( verSnappingOff ) { verSnappingOff = FALSE; tFlags |= Tbl_snapToVGrid; } } setOffset( xOffs, val, FALSE ); } /* \internal This internal slot is connected to the vertical scroll bar's TQScrollBar::sliderMoved() signal. Scrolls the table smoothly vertically even if \c Tbl_snapToVGrid is set. */ void TQtTableView::verSbSliding( int val ) { if ( testTableFlags(Tbl_snapToVGrid) && testTableFlags(Tbl_smoothVScrolling) ) { tFlags &= ~Tbl_snapToVGrid; // turn off snapping while sliding setOffset( xOffs, val, FALSE ); tFlags |= Tbl_snapToVGrid; // turn on snapping again } else { setOffset( xOffs, val, FALSE ); } } /* \internal This internal slot is connected to the vertical scroll bar's TQScrollBar::sliderReleased() signal. */ void TQtTableView::verSbSlidingDone( ) { if ( testTableFlags(Tbl_snapToVGrid) && testTableFlags(Tbl_smoothVScrolling) ) snapToGrid( FALSE, TRUE ); } /* This virtual function is called before painting of table cells is started. It can be reimplemented by subclasses that want to to set up the painter in a special way and that do not want to do so for each cell. */ void TQtTableView::setupPainter( TQPainter * ) { } /* \fn void TQtTableView::paintCell( TQPainter *p, int row, int col ) This pure virtual function is called to paint the single cell at \a (row,col) using \a p, which is open when paintCell() is called and must remain open. The coordinate system is \link TQPainter::translate() translated \endlink so that the origin is at the top-left corner of the cell to be painted, i.e. \e cell coordinates. Do not scale or shear the coordinate system (or if you do, restore the transformation matrix before you return). The painter is not clipped by default and for maximum efficiency. For safety, call setTableFlags(Tbl_clipCellPainting) to enable clipping. \sa paintEvent(), setTableFlags() */ /* Handles paint events, \a e, for the table view. Calls paintCell() for the cells that needs to be repainted. */ void TQtTableView::paintEvent( TQPaintEvent *e ) { TQRect updateR = e->rect(); // update rectangle if ( sbDirty ) { bool e = eraseInPaint; updateScrollBars(); eraseInPaint = e; } TQPainter paint( this ); if ( !contentsRect().contains( updateR, TRUE ) ) {// update frame ? drawFrame( &paint ); if ( updateR.left() < frameWidth() ) //### updateR.setLeft( frameWidth() ); if ( updateR.top() < frameWidth() ) updateR.setTop( frameWidth() ); } int maxWX = maxViewX(); int maxWY = maxViewY(); if ( updateR.right() > maxWX ) updateR.setRight( maxWX ); if ( updateR.bottom() > maxWY ) updateR.setBottom( maxWY ); setupPainter( &paint ); // prepare for painting table int firstRow = findRow( updateR.y() ); int firstCol = findCol( updateR.x() ); int xStart, yStart; if ( !colXPos( firstCol, &xStart ) || !rowYPos( firstRow, &yStart ) ) { paint.eraseRect( updateR ); // erase area outside cells but in view return; } int maxX = updateR.right(); int maxY = updateR.bottom(); int row = firstRow; int col; int yPos = yStart; int xPos = maxX+1; // in case the while() is empty int nextX; int nextY; TQRect winR = viewRect(); TQRect cellR; TQRect cellUR; #ifndef QT_NO_TRANSFORMATIONS TQWMatrix matrix; #endif while ( yPos <= maxY && row < nRows ) { nextY = yPos + (cellH ? cellH : cellHeight( row )); if ( testTableFlags( Tbl_cutCellsV ) && nextY > ( maxWY + 1 ) ) break; col = firstCol; xPos = xStart; while ( xPos <= maxX && col < nCols ) { nextX = xPos + (cellW ? cellW : cellWidth( col )); if ( testTableFlags( Tbl_cutCellsH ) && nextX > ( maxWX + 1 ) ) break; cellR.setRect( xPos, yPos, cellW ? cellW : cellWidth(col), cellH ? cellH : cellHeight(row) ); cellUR = cellR.intersect( updateR ); if ( cellUR.isValid() ) { cellUpdateR = cellUR; cellUpdateR.moveBy( -xPos, -yPos ); // cell coordinates if ( eraseInPaint ) paint.eraseRect( cellUR ); #ifndef QT_NO_TRANSFORMATIONS matrix.translate( xPos, yPos ); paint.setWorldMatrix( matrix ); if ( testTableFlags(Tbl_clipCellPainting) || frameWidth() > 0 && !winR.contains( cellR ) ) { //##arnt paint.setClipRect( cellUR ); paintCell( &paint, row, col ); paint.setClipping( FALSE ); } else { paintCell( &paint, row, col ); } matrix.reset(); paint.setWorldMatrix( matrix ); #else paint.translate( xPos, yPos ); if ( testTableFlags(Tbl_clipCellPainting) || frameWidth() > 0 && !winR.contains( cellR ) ) { //##arnt paint.setClipRect( cellUR ); paintCell( &paint, row, col ); paint.setClipping( FALSE ); } else { paintCell( &paint, row, col ); } paint.translate( -xPos, -yPos ); #endif } col++; xPos = nextX; } row++; yPos = nextY; } // while painting we have to erase any areas in the view that // are not covered by cells but are covered by the paint event // rectangle these must be erased. We know that xPos is the last // x pixel updated + 1 and that yPos is the last y pixel updated + 1. // Note that this needs to be done regardless whether we do // eraseInPaint or not. Reason: a subclass may implement // flicker-freeness and encourage the use of repaint(FALSE). // The subclass, however, cannot draw all pixels, just those // inside the cells. So TQtTableView is reponsible for all pixels // outside the cells. TQRect viewR = viewRect(); const TQColorGroup g = colorGroup(); if ( xPos <= maxX ) { TQRect r = viewR; r.setLeft( xPos ); r.setBottom( yPossetCursor( arrowCursor ); #endif sb->resize( sb->sizeHint() ); // height is irrelevant TQ_CHECK_PTR(sb); sb->setTracking( FALSE ); sb->setFocusPolicy( NoFocus ); connect( sb, SIGNAL(valueChanged(int)), SLOT(verSbValue(int))); connect( sb, SIGNAL(sliderMoved(int)), SLOT(verSbSliding(int))); connect( sb, SIGNAL(sliderReleased()), SLOT(verSbSlidingDone())); sb->hide(); that->vScrollBar = sb; return sb; } return vScrollBar; } /* Returns a pointer to the horizontal scroll bar mainly so you can connect() to its signals. Note that the scroll bar works in pixel values; use findCol() to translate to cell numbers. */ TQScrollBar *TQtTableView::horizontalScrollBar() const { TQtTableView *that = (TQtTableView*)this; // semantic const if ( !hScrollBar ) { TQScrollBar *sb = new TQScrollBar( TQScrollBar::Horizontal, that ); #ifndef QT_NO_CURSOR sb->setCursor( arrowCursor ); #endif sb->resize( sb->sizeHint() ); // width is irrelevant sb->setFocusPolicy( NoFocus ); TQ_CHECK_PTR(sb); sb->setTracking( FALSE ); connect( sb, SIGNAL(valueChanged(int)), SLOT(horSbValue(int))); connect( sb, SIGNAL(sliderMoved(int)), SLOT(horSbSliding(int))); connect( sb, SIGNAL(sliderReleased()), SLOT(horSbSlidingDone())); sb->hide(); that->hScrollBar = sb; return sb; } return hScrollBar; } /* Enables or disables the horizontal scroll bar, as required by setAutoUpdate() and the \link setTableFlags() table flags\endlink. */ void TQtTableView::setHorScrollBar( bool on, bool update ) { if ( on ) { tFlags |= Tbl_hScrollBar; horizontalScrollBar(); // created if ( update ) updateScrollBars( horMask | verMask ); else sbDirty = sbDirty | (horMask | verMask); if ( testTableFlags( Tbl_vScrollBar ) ) coverCornerSquare( TRUE ); if ( autoUpdate() ) sbDirty = sbDirty | horMask; } else { tFlags &= ~Tbl_hScrollBar; if ( !hScrollBar ) return; coverCornerSquare( FALSE ); bool hideScrollBar = autoUpdate() && hScrollBar->isVisible(); if ( hideScrollBar ) hScrollBar->hide(); if ( update ) updateScrollBars( verMask ); else sbDirty = sbDirty | verMask; if ( hideScrollBar && isVisible() ) repaint( hScrollBar->x(), hScrollBar->y(), width() - hScrollBar->x(), hScrollBar->height() ); } if ( update ) updateFrameSize(); } /* Enables or disables the vertical scroll bar, as required by setAutoUpdate() and the \link setTableFlags() table flags\endlink. */ void TQtTableView::setVerScrollBar( bool on, bool update ) { if ( on ) { tFlags |= Tbl_vScrollBar; verticalScrollBar(); // created if ( update ) updateScrollBars( verMask | horMask ); else sbDirty = sbDirty | (horMask | verMask); if ( testTableFlags( Tbl_hScrollBar ) ) coverCornerSquare( TRUE ); if ( autoUpdate() ) sbDirty = sbDirty | verMask; } else { tFlags &= ~Tbl_vScrollBar; if ( !vScrollBar ) return; coverCornerSquare( FALSE ); bool hideScrollBar = autoUpdate() && vScrollBar->isVisible(); if ( hideScrollBar ) vScrollBar->hide(); if ( update ) updateScrollBars( horMask ); else sbDirty = sbDirty | horMask; if ( hideScrollBar && isVisible() ) repaint( vScrollBar->x(), vScrollBar->y(), vScrollBar->width(), height() - vScrollBar->y() ); } if ( update ) updateFrameSize(); } int TQtTableView::findRawRow( int yPos, int *cellMaxY, int *cellMinY, bool goOutsideView ) const { int r = -1; if ( nRows == 0 ) return r; if ( goOutsideView || yPos >= minViewY() && yPos <= maxViewY() ) { if ( yPos < minViewY() ) { #if defined(QT_CHECK_RANGE) qWarning( "TQtTableView::findRawRow: (%s) internal error: " "yPos < minViewY() && goOutsideView " "not supported. (%d,%d)", name( "unnamed" ), yPos, yOffs ); #endif return -1; } if ( cellH ) { // uniform cell height r = (yPos - minViewY() + yCellDelta)/cellH; // cell offs from top if ( cellMaxY ) *cellMaxY = (r + 1)*cellH + minViewY() - yCellDelta - 1; if ( cellMinY ) *cellMinY = r*cellH + minViewY() - yCellDelta; r += yCellOffs; // absolute cell index } else { // variable cell height TQtTableView *tw = (TQtTableView *)this; r = yCellOffs; int h = minViewY() - yCellDelta; //##arnt3 int oldH = h; Q_ASSERT( r < nRows ); while ( r < nRows ) { oldH = h; h += tw->cellHeight( r ); // Start of next cell if ( yPos < h ) break; r++; } if ( cellMaxY ) *cellMaxY = h - 1; if ( cellMinY ) *cellMinY = oldH; } } return r; } int TQtTableView::findRawCol( int xPos, int *cellMaxX, int *cellMinX , bool goOutsideView ) const { int c = -1; if ( nCols == 0 ) return c; if ( goOutsideView || xPos >= minViewX() && xPos <= maxViewX() ) { if ( xPos < minViewX() ) { #if defined(QT_CHECK_RANGE) qWarning( "TQtTableView::findRawCol: (%s) internal error: " "xPos < minViewX() && goOutsideView " "not supported. (%d,%d)", name( "unnamed" ), xPos, xOffs ); #endif return -1; } if ( cellW ) { // uniform cell width c = (xPos - minViewX() + xCellDelta)/cellW; //cell offs from left if ( cellMaxX ) *cellMaxX = (c + 1)*cellW + minViewX() - xCellDelta - 1; if ( cellMinX ) *cellMinX = c*cellW + minViewX() - xCellDelta; c += xCellOffs; // absolute cell index } else { // variable cell width TQtTableView *tw = (TQtTableView *)this; c = xCellOffs; int w = minViewX() - xCellDelta; //##arnt3 int oldW = w; Q_ASSERT( c < nCols ); while ( c < nCols ) { oldW = w; w += tw->cellWidth( c ); // Start of next cell if ( xPos < w ) break; c++; } if ( cellMaxX ) *cellMaxX = w - 1; if ( cellMinX ) *cellMinX = oldW; } } return c; } /* Returns the index of the row at position \a yPos, where \a yPos is in \e widget coordinates. Returns -1 if \a yPos is outside the valid range. \sa findCol(), rowYPos() */ int TQtTableView::findRow( int yPos ) const { int cellMaxY; int row = findRawRow( yPos, &cellMaxY ); if ( testTableFlags(Tbl_cutCellsV) && cellMaxY > maxViewY() ) row = - 1; // cell cut by bottom margin if ( row >= nRows ) row = -1; return row; } /* Returns the index of the column at position \a xPos, where \a xPos is in \e widget coordinates. Returns -1 if \a xPos is outside the valid range. \sa findRow(), colXPos() */ int TQtTableView::findCol( int xPos ) const { int cellMaxX; int col = findRawCol( xPos, &cellMaxX ); if ( testTableFlags(Tbl_cutCellsH) && cellMaxX > maxViewX() ) col = - 1; // cell cut by right margin if ( col >= nCols ) col = -1; return col; } /* Computes the position in the widget of row \a row. Returns TRUE and stores the result in \a *yPos (in \e widget coordinates) if the row is visible. Returns FALSE and does not modify \a *yPos if \a row is invisible or invalid. \sa colXPos(), findRow() */ bool TQtTableView::rowYPos( int row, int *yPos ) const { int y; if ( row >= yCellOffs ) { if ( cellH ) { int lastVisible = lastRowVisible(); if ( row > lastVisible || lastVisible == -1 ) return FALSE; y = (row - yCellOffs)*cellH + minViewY() - yCellDelta; } else { //##arnt3 y = minViewY() - yCellDelta; // y of leftmost cell in view int r = yCellOffs; TQtTableView *tw = (TQtTableView *)this; int maxY = maxViewY(); while ( r < row && y <= maxY ) y += tw->cellHeight( r++ ); if ( y > maxY ) return FALSE; } } else { return FALSE; } if ( yPos ) *yPos = y; return TRUE; } /* Computes the position in the widget of column \a col. Returns TRUE and stores the result in \a *xPos (in \e widget coordinates) if the column is visible. Returns FALSE and does not modify \a *xPos if \a col is invisible or invalid. \sa rowYPos(), findCol() */ bool TQtTableView::colXPos( int col, int *xPos ) const { int x; if ( col >= xCellOffs ) { if ( cellW ) { int lastVisible = lastColVisible(); if ( col > lastVisible || lastVisible == -1 ) return FALSE; x = (col - xCellOffs)*cellW + minViewX() - xCellDelta; } else { //##arnt3 x = minViewX() - xCellDelta; // x of uppermost cell in view int c = xCellOffs; TQtTableView *tw = (TQtTableView *)this; int maxX = maxViewX(); while ( c < col && x <= maxX ) x += tw->cellWidth( c++ ); if ( x > maxX ) return FALSE; } } else { return FALSE; } if ( xPos ) *xPos = x; return TRUE; } /* Moves the visible area of the table right by \a xPixels and down by \a yPixels pixels. Both may be negative. \warning You might find that TQScrollView offers a higher-level of functionality than using TQtTableView and this function. This function is \e not the same as TQWidget::scroll(); in particular, the signs of \a xPixels and \a yPixels have the reverse semantics. \sa setXOffset(), setYOffset(), setOffset(), setTopCell(), setLeftCell() */ void TQtTableView::scroll( int xPixels, int yPixels ) { TQWidget::scroll( -xPixels, -yPixels, contentsRect() ); } /* Returns the leftmost pixel of the table view in \e view coordinates. This excludes the frame and any header. \sa maxViewY(), viewWidth(), contentsRect() */ int TQtTableView::minViewX() const { return frameWidth(); } /* Returns the top pixel of the table view in \e view coordinates. This excludes the frame and any header. \sa maxViewX(), viewHeight(), contentsRect() */ int TQtTableView::minViewY() const { return frameWidth(); } /* Returns the rightmost pixel of the table view in \e view coordinates. This excludes the frame and any scroll bar, but includes blank pixels to the right of the visible table data. \sa maxViewY(), viewWidth(), contentsRect() */ int TQtTableView::maxViewX() const { return width() - 1 - frameWidth() - (tFlags & Tbl_vScrollBar ? VSBEXT : 0); } /* Returns the bottom pixel of the table view in \e view coordinates. This excludes the frame and any scroll bar, but includes blank pixels below the visible table data. \sa maxViewX(), viewHeight(), contentsRect() */ int TQtTableView::maxViewY() const { return height() - 1 - frameWidth() - (tFlags & Tbl_hScrollBar ? HSBEXT : 0); } /* Returns the width of the table view, as such, in \e view coordinates. This does not include any header, scroll bar or frame, but it does include background pixels to the right of the table data. \sa minViewX() maxViewX(), viewHeight(), contentsRect() viewRect() */ int TQtTableView::viewWidth() const { return maxViewX() - minViewX() + 1; } /* Returns the height of the table view, as such, in \e view coordinates. This does not include any header, scroll bar or frame, but it does include background pixels below the table data. \sa minViewY() maxViewY() viewWidth() contentsRect() viewRect() */ int TQtTableView::viewHeight() const { return maxViewY() - minViewY() + 1; } void TQtTableView::doAutoScrollBars() { int viewW = width() - frameWidth() - minViewX(); int viewH = height() - frameWidth() - minViewY(); bool vScrollOn = testTableFlags(Tbl_vScrollBar); bool hScrollOn = testTableFlags(Tbl_hScrollBar); int w = 0; int h = 0; int i; if ( testTableFlags(Tbl_autoHScrollBar) ) { if ( cellW ) { w = cellW*nCols; } else { i = 0; while ( i < nCols && w <= viewW ) w += cellWidth( i++ ); } if ( w > viewW ) hScrollOn = TRUE; else hScrollOn = FALSE; } if ( testTableFlags(Tbl_autoVScrollBar) ) { if ( cellH ) { h = cellH*nRows; } else { i = 0; while ( i < nRows && h <= viewH ) h += cellHeight( i++ ); } if ( h > viewH ) vScrollOn = TRUE; else vScrollOn = FALSE; } if ( testTableFlags(Tbl_autoHScrollBar) && vScrollOn && !hScrollOn ) if ( w > viewW - VSBEXT ) hScrollOn = TRUE; if ( testTableFlags(Tbl_autoVScrollBar) && hScrollOn && !vScrollOn ) if ( h > viewH - HSBEXT ) vScrollOn = TRUE; setHorScrollBar( hScrollOn, FALSE ); setVerScrollBar( vScrollOn, FALSE ); updateFrameSize(); } /* \fn void TQtTableView::updateScrollBars() Updates the scroll bars' contents and presence to match the table's state. Generally, you should not need to call this. \sa setTableFlags() */ /* Updates the scroll bars' contents and presence to match the table's state \c or \a f. \sa setTableFlags() */ void TQtTableView::updateScrollBars( uint f ) { sbDirty = sbDirty | f; if ( inSbUpdate ) return; inSbUpdate = TRUE; if ( testTableFlags(Tbl_autoHScrollBar) && (sbDirty & horRange) || testTableFlags(Tbl_autoVScrollBar) && (sbDirty & verRange) ) // if range change and auto doAutoScrollBars(); // turn scroll bars on/off if needed if ( !autoUpdate() ) { inSbUpdate = FALSE; return; } if ( yOffset() > 0 && testTableFlags( Tbl_autoVScrollBar ) && !testTableFlags( Tbl_vScrollBar ) ) { setYOffset( 0 ); } if ( xOffset() > 0 && testTableFlags( Tbl_autoHScrollBar ) && !testTableFlags( Tbl_hScrollBar ) ) { setXOffset( 0 ); } if ( !isVisible() ) { inSbUpdate = FALSE; return; } if ( testTableFlags(Tbl_hScrollBar) && (sbDirty & horMask) != 0 ) { if ( sbDirty & horGeometry ) hScrollBar->setGeometry( 0,height() - HSBEXT, viewWidth() + frameWidth()*2, HSBEXT); if ( sbDirty & horSteps ) { if ( cellW ) hScrollBar->setSteps( TQMIN(cellW,viewWidth()/2), viewWidth() ); else hScrollBar->setSteps( 16, viewWidth() ); } if ( sbDirty & horRange ) hScrollBar->setRange( 0, maxXOffset() ); if ( sbDirty & horValue ) hScrollBar->setValue( xOffs ); // show scrollbar only when it has a sane geometry if ( !hScrollBar->isVisible() ) hScrollBar->show(); } if ( testTableFlags(Tbl_vScrollBar) && (sbDirty & verMask) != 0 ) { if ( sbDirty & verGeometry ) vScrollBar->setGeometry( width() - VSBEXT, 0, VSBEXT, viewHeight() + frameWidth()*2 ); if ( sbDirty & verSteps ) { if ( cellH ) vScrollBar->setSteps( TQMIN(cellH,viewHeight()/2), viewHeight() ); else vScrollBar->setSteps( 16, viewHeight() ); // fttb! ### } if ( sbDirty & verRange ) vScrollBar->setRange( 0, maxYOffset() ); if ( sbDirty & verValue ) vScrollBar->setValue( yOffs ); // show scrollbar only when it has a sane geometry if ( !vScrollBar->isVisible() ) vScrollBar->show(); } if ( coveringCornerSquare && ( (sbDirty & verGeometry ) || (sbDirty & horGeometry)) ) cornerSquare->move( maxViewX() + frameWidth() + 1, maxViewY() + frameWidth() + 1 ); sbDirty = 0; inSbUpdate = FALSE; } void TQtTableView::updateFrameSize() { int rw = width() - ( testTableFlags(Tbl_vScrollBar) ? VSBEXT : 0 ); int rh = height() - ( testTableFlags(Tbl_hScrollBar) ? HSBEXT : 0 ); if ( rw < 0 ) rw = 0; if ( rh < 0 ) rh = 0; if ( autoUpdate() ) { int fh = frameRect().height(); int fw = frameRect().width(); setFrameRect( TQRect(0,0,rw,rh) ); if ( rw != fw ) update( TQMIN(fw,rw) - frameWidth() - 2, 0, frameWidth()+4, rh ); if ( rh != fh ) update( 0, TQMIN(fh,rh) - frameWidth() - 2, rw, frameWidth()+4 ); } } /* Returns the maximum horizontal offset within the table of the view's left edge in \e table coordinates. This is used mainly to set the horizontal scroll bar's range. \sa maxColOffset(), maxYOffset(), totalWidth() */ int TQtTableView::maxXOffset() { int tw = totalWidth(); int maxOffs; if ( testTableFlags(Tbl_scrollLastHCell) ) { if ( nCols != 1) maxOffs = tw - ( cellW ? cellW : cellWidth( nCols - 1 ) ); else maxOffs = tw - viewWidth(); } else { if ( testTableFlags(Tbl_snapToHGrid) ) { if ( cellW ) { maxOffs = tw - (viewWidth()/cellW)*cellW; } else { int goal = tw - viewWidth(); int pos = tw; int nextCol = nCols - 1; int nextCellWidth = cellWidth( nextCol ); while( nextCol > 0 && pos > goal + nextCellWidth ) { pos -= nextCellWidth; nextCellWidth = cellWidth( --nextCol ); } if ( goal + nextCellWidth == pos ) maxOffs = goal; else if ( goal < pos ) maxOffs = pos; else maxOffs = 0; } } else { maxOffs = tw - viewWidth(); } } return maxOffs > 0 ? maxOffs : 0; } /* Returns the maximum vertical offset within the table of the view's top edge in \e table coordinates. This is used mainly to set the vertical scroll bar's range. \sa maxRowOffset(), maxXOffset(), totalHeight() */ int TQtTableView::maxYOffset() { int th = totalHeight(); int maxOffs; if ( testTableFlags(Tbl_scrollLastVCell) ) { if ( nRows != 1) maxOffs = th - ( cellH ? cellH : cellHeight( nRows - 1 ) ); else maxOffs = th - viewHeight(); } else { if ( testTableFlags(Tbl_snapToVGrid) ) { if ( cellH ) { maxOffs = th - (viewHeight()/cellH)*cellH; } else { int goal = th - viewHeight(); int pos = th; int nextRow = nRows - 1; int nextCellHeight = cellHeight( nextRow ); while( nextRow > 0 && pos > goal + nextCellHeight ) { pos -= nextCellHeight; nextCellHeight = cellHeight( --nextRow ); } if ( goal + nextCellHeight == pos ) maxOffs = goal; else if ( goal < pos ) maxOffs = pos; else maxOffs = 0; } } else { maxOffs = th - viewHeight(); } } return maxOffs > 0 ? maxOffs : 0; } /* Returns the index of the last column, which may be at the left edge of the view. Depending on the \link setTableFlags() Tbl_scrollLastHCell\endlink flag, this may or may not be the last column. \sa maxXOffset(), maxRowOffset() */ int TQtTableView::maxColOffset() { int mx = maxXOffset(); if ( cellW ) return mx/cellW; else { int xcd=0, col=0; while ( col < nCols && mx > (xcd=cellWidth(col)) ) { mx -= xcd; col++; } return col; } } /* Returns the index of the last row, which may be at the top edge of the view. Depending on the \link setTableFlags() Tbl_scrollLastVCell\endlink flag, this may or may not be the last row. \sa maxYOffset(), maxColOffset() */ int TQtTableView::maxRowOffset() { int my = maxYOffset(); if ( cellH ) return my/cellH; else { int ycd=0, row=0; while ( row < nRows && my > (ycd=cellHeight(row)) ) { my -= ycd; row++; } return row; } } void TQtTableView::showOrHideScrollBars() { if ( !autoUpdate() ) return; if ( vScrollBar ) { if ( testTableFlags(Tbl_vScrollBar) ) { if ( !vScrollBar->isVisible() ) sbDirty = sbDirty | verMask; } else { if ( vScrollBar->isVisible() ) vScrollBar->hide(); } } if ( hScrollBar ) { if ( testTableFlags(Tbl_hScrollBar) ) { if ( !hScrollBar->isVisible() ) sbDirty = sbDirty | horMask; } else { if ( hScrollBar->isVisible() ) hScrollBar->hide(); } } if ( cornerSquare ) { if ( testTableFlags(Tbl_hScrollBar) && testTableFlags(Tbl_vScrollBar) ) { if ( !cornerSquare->isVisible() ) cornerSquare->show(); } else { if ( cornerSquare->isVisible() ) cornerSquare->hide(); } } } /* Updates the scroll bars and internal state. Call this function when the table view's total size is changed; typically because the result of cellHeight() or cellWidth() have changed. This function does not repaint the widget. */ void TQtTableView::updateTableSize() { bool updateOn = autoUpdate(); setAutoUpdate( FALSE ); int xofs = xOffset(); xOffs++; //so that setOffset will not return immediately setOffset(xofs,yOffset(),FALSE); //to calculate internal state correctly setAutoUpdate(updateOn); updateScrollBars( horSteps | horRange | verSteps | verRange ); showOrHideScrollBars(); } #endif