fltk/FL/Fl_Table.H
Albrecht Schlosser e934dd5468 Fix compiler warnings (STR #2988).
gcc issued lots of warnings if compiled with -Wundef. This shows access
to undefined preprocessor macros, particularly for config tests.

This update is similar, but not identical to fltk-cpp-fixes.patch as
posted on STR #2988 (file #1). There have been changes in the configure
script and the  macros in configh.in and configh.cmake.in meanwhile.

This commit compiles with -Wundef w/o such warnings under Linux and
Windows (MinGW).


git-svn-id: file:///fltk/svn/fltk/branches/branch-1.3@11094 ea41ed52-d2ee-0310-a9c1-e6b18d33e121
2016-01-31 02:49:56 +00:00

1156 lines
35 KiB
C++

//
// "$Id$"
//
// Fl_Table -- A table widget
//
// Copyright 2002 by Greg Ercolano.
// Copyright (c) 2004 O'ksi'D
//
// This library is free software. Distribution and use rights are outlined in
// the file "COPYING" which should have been included with this file. If this
// file is missing or damaged, see the license at:
//
// http://www.fltk.org/COPYING.php
//
// Please report all bugs and problems on the following page:
//
// http://www.fltk.org/str.php
//
#ifndef _FL_TABLE_H
#define _FL_TABLE_H
#include <sys/types.h>
#include <string.h> // memcpy
#ifdef WIN32
#include <malloc.h> // WINDOWS: malloc/realloc
#else /*WIN32*/
#include <stdlib.h> // UNIX: malloc/realloc
#endif /*WIN32*/
#include <FL/Fl.H>
#include <FL/Fl_Group.H>
#include <FL/Fl_Scroll.H>
#include <FL/Fl_Box.H>
#include <FL/Fl_Scrollbar.H>
/**
A table of widgets or other content.
This is the base class for table widgets.
To be useful it must be subclassed and several virtual functions defined.
Normally applications use widgets derived from this widget, and do not use this
widget directly; this widget is usually too low level to be used directly by
applications.
This widget does \em not handle the data in the table. The draw_cell()
method must be overridden by a subclass to manage drawing the contents of
the cells.
This widget can be used in several ways:
- As a custom widget; see examples/table-simple.cxx and test/table.cxx.
Very optimal for even extremely large tables.
- As a table made up of a single FLTK widget instanced all over the table,
simulating a numeric spreadsheet. See examples/table-spreadsheet.cxx and
examples/table-spreadsheet-with-keyboard-nav.cxx. Optimal for large tables.
- As a regular container of FLTK widgets, one widget per cell.
See examples/table-as-container.cxx. \em Not recommended for large tables.
\image html table-simple.png
\image latex table-simple.png "table-simple example" width=6cm
\image html table-as-container.png
\image latex table-as-container.png "table-as-container example" width=6cm
When acting as part of a custom widget, events on the cells and/or headings
generate callbacks when they are clicked by the user. You control when events
are generated based on the setting for Fl_Table::when().
When acting as a container for FLTK widgets, the FLTK widgets maintain
themselves. Although the draw_cell() method must be overridden, its contents
can be very simple. See the draw_cell() code in examples/table-simple.cxx.
The following variables are available to classes deriving from Fl_Table:
\image html table-dimensions.png
\image latex table-dimensions.png "Fl_Table Dimensions" width=6cm
<table border=0>
<tr><td>x()/y()/w()/h()</td>
<td>Fl_Table widget's outer dimension. The outer edge of the border of the
Fl_Table. (Red in the diagram above)</td></tr>
<tr><td>wix/wiy/wiw/wih</td>
<td>Fl_Table widget's inner dimension. The inner edge of the border of the
Fl_Table. eg. if the Fl_Table's box() is FL_NO_BOX, these values are the same
as x()/y()/w()/h(). (Yellow in the diagram above)</td></tr>
<tr><td>tox/toy/tow/toh</td>
<td>The table's outer dimension. The outer edge of the border around the cells,
but inside the row/col headings and scrollbars. (Green in the diagram above)
</td></tr>
<tr><td>tix/tiy/tiw/tih</td>
<td>The table's inner dimension. The inner edge of the border around the cells,
but inside the row/col headings and scrollbars. AKA the table's clip region.
eg. if the table_box() is FL_NO_BOX, these values are the same as
tox/toy/tow/toh. (Blue in the diagram above)
</td></tr></table>
CORE DEVELOPERS
- Greg Ercolano : 12/16/2002 - initial implementation 12/16/02. Fl_Table, Fl_Table_Row, docs.
- Jean-Marc Lienher : 02/22/2004 - added keyboard nav + mouse selection, and ported Fl_Table into fltk-utf8-1.1.4
OTHER CONTRIBUTORS
- Inspired by the Feb 2000 version of FLVW's Flvw_Table widget. Mucho thanks to those folks.
- Mister Satan : 04/07/2003 - MinGW porting mods, and singleinput.cxx; a cool Fl_Input oriented spreadsheet example
- Marek Paliwoda : 01/08/2003 - Porting mods for Borland
- Ori Berger : 03/16/2006 - Optimizations for >500k rows/cols
LICENSE
Greg added the following license to the original distribution of Fl_Table. He
kindly gave his permission to integrate Fl_Table and Fl_Table_Row into FLTK,
allowing FLTK license to apply while his widgets are part of the library.
If used on its own, this is the license that applies:
\verbatim
Fl_Table License
December 16, 2002
The Fl_Table library and included programs are provided under the terms
of the GNU Library General Public License (LGPL) with the following
exceptions:
1. Modifications to the Fl_Table configure script, config
header file, and makefiles by themselves to support
a specific platform do not constitute a modified or
derivative work.
The authors do request that such modifications be
contributed to the Fl_Table project - send all
contributions to "erco at seriss dot com".
2. Widgets that are subclassed from Fl_Table widgets do not
constitute a derivative work.
3. Static linking of applications and widgets to the
Fl_Table library does not constitute a derivative work
and does not require the author to provide source
code for the application or widget, use the shared
Fl_Table libraries, or link their applications or
widgets against a user-supplied version of Fl_Table.
If you link the application or widget to a modified
version of Fl_Table, then the changes to Fl_Table must be
provided under the terms of the LGPL in sections
1, 2, and 4.
4. You do not have to provide a copy of the Fl_Table license
with programs that are linked to the Fl_Table library, nor
do you have to identify the Fl_Table license in your
program or documentation as required by section 6
of the LGPL.
However, programs must still identify their use of Fl_Table.
The following example statement can be included in user
documentation to satisfy this requirement:
[program/widget] is based in part on the work of
the Fl_Table project http://seriss.com/people/erco/fltk/Fl_Table/
\endverbatim
*/
class FL_EXPORT Fl_Table : public Fl_Group {
public:
/**
The context bit flags for Fl_Table related callbacks.
Used in draw_cell(), callback(), etc.
*/
enum TableContext {
CONTEXT_NONE = 0, ///< no known context
CONTEXT_STARTPAGE = 0x01, ///< before a page is redrawn
CONTEXT_ENDPAGE = 0x02, ///< after a page is redrawn
CONTEXT_ROW_HEADER = 0x04, ///< in the row header
CONTEXT_COL_HEADER = 0x08, ///< in the col header
CONTEXT_CELL = 0x10, ///< in one of the cells
CONTEXT_TABLE = 0x20, ///< in a dead zone of table
CONTEXT_RC_RESIZE = 0x40 ///< column or row being resized
};
private:
int _rows, _cols; // total rows/cols
int _row_header_w; // width of row header
int _col_header_h; // height of column header
int _row_position; // last row_position set (not necessarily == toprow!)
int _col_position; // last col_position set (not necessarily == leftcol!)
char _row_header; // row header enabled?
char _col_header; // col header enabled?
char _row_resize; // row resizing enabled?
char _col_resize; // col resizing enabled?
int _row_resize_min; // row minimum resizing height (default=1)
int _col_resize_min; // col minimum resizing width (default=1)
// OPTIMIZATION: partial row/column redraw variables
int _redraw_toprow;
int _redraw_botrow;
int _redraw_leftcol;
int _redraw_rightcol;
Fl_Color _row_header_color;
Fl_Color _col_header_color;
int _auto_drag;
int _selecting;
#if FLTK_ABI_VERSION >= 10301
int _scrollbar_size;
#endif
#if FLTK_ABI_VERSION >= 10303
enum {
TABCELLNAV = 1<<0, ///> tab cell navigation flag
};
unsigned int flags_;
#endif
// An STL-ish vector without templates
class FL_EXPORT IntVector {
int *arr;
unsigned int _size;
void init() {
arr = NULL;
_size = 0;
}
void copy(int *newarr, unsigned int newsize) {
size(newsize);
memcpy(arr, newarr, newsize * sizeof(int));
}
public:
IntVector() { init(); } // CTOR
~IntVector() { if ( arr ) free(arr); arr = NULL; } // DTOR
IntVector(IntVector&o) { init(); copy(o.arr, o._size); } // COPY CTOR
IntVector& operator=(IntVector&o) { // ASSIGN
init();
copy(o.arr, o._size);
return(*this);
}
int operator[](int x) const { return(arr[x]); }
int& operator[](int x) { return(arr[x]); }
unsigned int size() { return(_size); }
void size(unsigned int count) {
if ( count != _size ) {
arr = (int*)realloc(arr, count * sizeof(int));
_size = count;
}
}
int pop_back() { int tmp = arr[_size-1]; _size--; return(tmp); }
void push_back(int val) { unsigned int x = _size; size(_size+1); arr[x] = val; }
int back() { return(arr[_size-1]); }
};
IntVector _colwidths; // column widths in pixels
IntVector _rowheights; // row heights in pixels
Fl_Cursor _last_cursor; // last mouse cursor before changed to 'resize' cursor
// EVENT CALLBACK DATA
TableContext _callback_context; // event context
int _callback_row, _callback_col; // event row/col
// handle() state variables.
// Put here instead of local statics in handle(), so more
// than one Fl_Table can exist without crosstalk between them.
//
int _resizing_col; // column being dragged
int _resizing_row; // row being dragged
int _dragging_x; // starting x position for horiz drag
int _dragging_y; // starting y position for vert drag
int _last_row; // last row we FL_PUSH'ed
// Redraw single cell
void _redraw_cell(TableContext context, int R, int C);
void _start_auto_drag();
void _stop_auto_drag();
void _auto_drag_cb();
static void _auto_drag_cb2(void *d);
protected:
enum ResizeFlag {
RESIZE_NONE = 0,
RESIZE_COL_LEFT = 1,
RESIZE_COL_RIGHT = 2,
RESIZE_ROW_ABOVE = 3,
RESIZE_ROW_BELOW = 4
};
int table_w, table_h; // table's virtual size (in pixels)
int toprow, botrow, leftcol, rightcol; // four corners of viewable table
// selection
int current_row, current_col;
int select_row, select_col;
// OPTIMIZATION: Precomputed scroll positions for the toprow/leftcol
int toprow_scrollpos;
int leftcol_scrollpos;
// Dimensions
int tix, tiy, tiw, tih; // data table inner dimension xywh
int tox, toy, tow, toh; // data table outer dimension xywh
int wix, wiy, wiw, wih; // widget inner dimension xywh
Fl_Scroll *table; // container for child fltk widgets (if any)
Fl_Scrollbar *vscrollbar; // vertical scrollbar
Fl_Scrollbar *hscrollbar; // horizontal scrollbar
// Fltk
int handle(int e); // fltk handle() override
// Class maintenance
void recalc_dimensions();
void table_resized(); // table resized; recalc
void table_scrolled(); // table scrolled; recalc
void get_bounds(TableContext context, // return x/y/w/h bounds for context
int &X, int &Y, int &W, int &H);
void change_cursor(Fl_Cursor newcursor); // change mouse cursor to some other shape
TableContext cursor2rowcol(int &R, int &C, ResizeFlag &resizeflag);
// find r/c given current x/y event
int find_cell(TableContext context, // find cell's x/y/w/h given r/c
int R, int C, int &X, int &Y, int &W, int &H);
int row_col_clamp(TableContext context, int &R, int &C);
// clamp r/c to known universe
/**
Subclass should override this method to handle drawing the cells.
This method will be called whenever the table is redrawn, once per cell.
Only cells that are completely (or partially) visible will be told to draw.
\p context will be one of the following:
<table border=1>
<tr>
<td>\p Fl_Table::CONTEXT_STARTPAGE</td>
<td>When table, or parts of the table, are about to be redrawn.<br>
Use to initialize static data, such as font selections.<p>
R/C will be zero,<br>
X/Y/W/H will be the dimensions of the table's entire data area.<br>
(Useful for locking a database before accessing; see
also visible_cells())</td>
</tr><tr>
<td>\p Fl_Table::CONTEXT_ENDPAGE</td>
<td>When table has completed being redrawn.<br>
R/C will be zero, X/Y/W/H dimensions of table's data area.<br>
(Useful for unlocking a database after accessing)</td>
</tr><tr>
<td>\p Fl_Table::CONTEXT_ROW_HEADER</td>
<td>Whenever a row header cell needs to be drawn.<br>
R will be the row number of the header being redrawn,<br>
C will be zero,<br>
X/Y/W/H will be the fltk drawing area of the row header in the window </td>
</tr><tr>
<td>\p Fl_Table::CONTEXT_COL_HEADER</td>
<td>Whenever a column header cell needs to be drawn.<br>
R will be zero, <br>
C will be the column number of the header being redrawn,<br>
X/Y/W/H will be the fltk drawing area of the column header in the window </td>
</tr><tr>
<td>\p Fl_Table::CONTEXT_CELL</td>
<td>Whenever a data cell in the table needs to be drawn.<br>
R/C will be the row/column of the cell to be drawn,<br>
X/Y/W/H will be the fltk drawing area of the cell in the window </td>
</tr><tr>
<td>\p Fl_Table::CONTEXT_RC_RESIZE</td>
<td>Whenever table or row/column is resized or scrolled,
either interactively or via col_width() or row_height().<br>
R/C/X/Y/W/H will all be zero.
<p>
Useful for fltk containers that need to resize or move
the child fltk widgets.</td>
</tr>
</table>
\p row and \p col will be set to the row and column number
of the cell being drawn. In the case of row headers, \p col will be \a 0.
In the case of column headers, \p row will be \a 0.
<tt>x/y/w/h</tt> will be the position and dimensions of where the cell
should be drawn.
In the case of custom widgets, a minimal draw_cell() override might
look like the following. With custom widgets it is up to the caller to handle
drawing everything within the dimensions of the cell, including handling the
selection color. Note all clipping must be handled as well; this allows drawing
outside the dimensions of the cell if so desired for 'custom effects'.
\code
// This is called whenever Fl_Table wants you to draw a cell
void MyTable::draw_cell(TableContext context, int R=0, int C=0, int X=0, int Y=0, int W=0, int H=0) {
static char s[40];
sprintf(s, "%d/%d", R, C); // text for each cell
switch ( context ) {
case CONTEXT_STARTPAGE: // Fl_Table telling us it's starting to draw page
fl_font(FL_HELVETICA, 16);
return;
case CONTEXT_ROW_HEADER: // Fl_Table telling us to draw row/col headers
case CONTEXT_COL_HEADER:
fl_push_clip(X, Y, W, H);
{
fl_draw_box(FL_THIN_UP_BOX, X, Y, W, H, color());
fl_color(FL_BLACK);
fl_draw(s, X, Y, W, H, FL_ALIGN_CENTER);
}
fl_pop_clip();
return;
case CONTEXT_CELL: // Fl_Table telling us to draw cells
fl_push_clip(X, Y, W, H);
{
// BG COLOR
fl_color( row_selected(R) ? selection_color() : FL_WHITE);
fl_rectf(X, Y, W, H);
// TEXT
fl_color(FL_BLACK);
fl_draw(s, X, Y, W, H, FL_ALIGN_CENTER);
// BORDER
fl_color(FL_LIGHT2);
fl_rect(X, Y, W, H);
}
fl_pop_clip();
return;
default:
return;
}
//NOTREACHED
}
\endcode
*/
virtual void draw_cell(TableContext context, int R=0, int C=0,
int X=0, int Y=0, int W=0, int H=0)
{ } // overridden by deriving class
long row_scroll_position(int row); // find scroll position of row (in pixels)
long col_scroll_position(int col); // find scroll position of col (in pixels)
int is_fltk_container() { // does table contain fltk widgets?
return( Fl_Group::children() > 3 ); // (ie. more than box and 2 scrollbars?)
}
static void scroll_cb(Fl_Widget*,void*); // h/v scrollbar callback
void damage_zone(int r1, int c1, int r2, int c2, int r3 = 0, int c3 = 0);
void redraw_range(int topRow, int botRow, int leftCol, int rightCol) {
if ( _redraw_toprow == -1 ) {
// Initialize redraw range
_redraw_toprow = topRow;
_redraw_botrow = botRow;
_redraw_leftcol = leftCol;
_redraw_rightcol = rightCol;
} else {
// Extend redraw range
if ( topRow < _redraw_toprow ) _redraw_toprow = topRow;
if ( botRow > _redraw_botrow ) _redraw_botrow = botRow;
if ( leftCol < _redraw_leftcol ) _redraw_leftcol = leftCol;
if ( rightCol > _redraw_rightcol ) _redraw_rightcol = rightCol;
}
// Indicate partial redraw needed of some cells
damage(FL_DAMAGE_CHILD);
}
public:
/**
The constructor for the Fl_Table.
This creates an empty table with no rows or columns,
with headers and row/column resize behavior disabled.
*/
Fl_Table(int X, int Y, int W, int H, const char *l=0);
/**
The destructor for the Fl_Table.
Destroys the table and its associated widgets.
*/
~Fl_Table();
/**
Clears the table to zero rows (rows(0)), zero columns (cols(0)), and clears
any widgets (table->clear()) that were added with begin()/end() or add()/insert()/etc.
\see rows(int), cols(int)
*/
virtual void clear() { rows(0); cols(0); table->clear(); }
// \todo: add topline(), middleline(), bottomline()
/**
Sets the kind of box drawn around the data table,
the default being FL_NO_BOX. Changing this value will cause the table
to redraw.
*/
inline void table_box(Fl_Boxtype val) {
table->box(val);
table_resized();
}
/**
Returns the current box type used for the data table.
*/
inline Fl_Boxtype table_box( void ) {
return(table->box());
}
/**
Sets the number of rows in the table, and the table is redrawn.
*/
virtual void rows(int val); // set/get number of rows
/**
Returns the number of rows in the table.
*/
inline int rows() {
return(_rows);
}
/**
Set the number of columns in the table and redraw.
*/
virtual void cols(int val); // set/get number of columns
/**
Get the number of columns in the table.
*/
inline int cols() {
return(_cols);
}
/**
Returns the range of row and column numbers for all visible
and partially visible cells in the table.
These values can be used e.g. by your draw_cell() routine during
CONTEXT_STARTPAGE to figure out what cells are about to be redrawn
for the purposes of locking the data from a database before it's drawn.
\code
leftcol rightcol
: :
toprow .. .-------------------.
| |
| V I S I B L E |
| |
| T A B L E |
| |
botrow .. '-------------------`
\endcode
e.g. in a table where the visible rows are 5-20, and the
visible columns are 100-120, then those variables would be:
- toprow = 5
- botrow = 20
- leftcol = 100
- rightcol = 120
*/
inline void visible_cells(int& r1, int& r2, int& c1, int& c2) {
r1 = toprow;
r2 = botrow;
c1 = leftcol;
c2 = rightcol;
}
/**
Returns 1 if someone is interactively resizing a row or column.
You can currently call this only from within your callback().
*/
int is_interactive_resize() {
return(_resizing_row != -1 || _resizing_col != -1);
}
/**
Returns if row resizing by the user is allowed.
*/
inline int row_resize() {
return(_row_resize);
}
/**
Allows/disallows row resizing by the user.
1=allow interactive resizing, 0=disallow interactive resizing.
Since interactive resizing is done via the row headers,
row_header() must also be enabled to allow resizing.
*/
void row_resize(int flag) { // enable row resizing
_row_resize = flag;
}
/**
Returns if column resizing by the user is allowed.
*/
inline int col_resize() {
return(_col_resize);
}
/**
Allows/disallows column resizing by the user.
1=allow interactive resizing, 0=disallow interactive resizing.
Since interactive resizing is done via the column headers,
\p col_header() must also be enabled to allow resizing.
*/
void col_resize(int flag) { // enable col resizing
_col_resize = flag;
}
/**
Returns the current column minimum resize value.
*/
inline int col_resize_min() { // column minimum resizing width
return(_col_resize_min);
}
/**
Sets the current column minimum resize value.
This is used to prevent the user from interactively resizing
any column to be smaller than 'pixels'. Must be a value >=1.
*/
void col_resize_min(int val) {
_col_resize_min = ( val < 1 ) ? 1 : val;
}
/**
Returns the current row minimum resize value.
*/
inline int row_resize_min() { // column minimum resizing width
return(_row_resize_min);
}
/**
Sets the current row minimum resize value.
This is used to prevent the user from interactively resizing
any row to be smaller than 'pixels'. Must be a value >=1.
*/
void row_resize_min(int val) {
_row_resize_min = ( val < 1 ) ? 1 : val;
}
/**
Returns if row headers are enabled or not.
*/
inline int row_header() { // set/get row header enable flag
return(_row_header);
}
/**
Enables/disables showing the row headers. 1=enabled, 0=disabled.
If changed, the table is redrawn.
*/
void row_header(int flag) {
_row_header = flag;
table_resized();
redraw();
}
/**
Returns if column headers are enabled or not.
*/
inline int col_header() { // set/get col header enable flag
return(_col_header);
}
/**
Enable or disable column headers.
If changed, the table is redrawn.
*/
void col_header(int flag) {
_col_header = flag;
table_resized();
redraw();
}
/**
Sets the height in pixels for column headers and redraws the table.
*/
inline void col_header_height(int height) { // set/get col header height
_col_header_h = height;
table_resized();
redraw();
}
/**
Gets the column header height.
*/
inline int col_header_height() {
return(_col_header_h);
}
/**
Sets the row header width to n and causes the screen to redraw.
*/
inline void row_header_width(int width) { // set/get row header width
_row_header_w = width;
table_resized();
redraw();
}
/**
Returns the current row header width (in pixels).
*/
inline int row_header_width() {
return(_row_header_w);
}
/**
Sets the row header color and causes the screen to redraw.
*/
inline void row_header_color(Fl_Color val) { // set/get row header color
_row_header_color = val;
redraw();
}
/**
Returns the current row header color.
*/
inline Fl_Color row_header_color() {
return(_row_header_color);
}
/**
Sets the color for column headers and redraws the table.
*/
inline void col_header_color(Fl_Color val) { // set/get col header color
_col_header_color = val;
redraw();
}
/**
Gets the color for column headers.
*/
inline Fl_Color col_header_color() {
return(_col_header_color);
}
/**
Sets the height of the specified row in pixels,
and the table is redrawn.
callback() will be invoked with CONTEXT_RC_RESIZE
if the row's height was actually changed, and when() is FL_WHEN_CHANGED.
*/
void row_height(int row, int height); // set/get row height
/**
Returns the current height of the specified row as a value in pixels.
*/
inline int row_height(int row) {
return((row<0 || row>=(int)_rowheights.size()) ? 0 : _rowheights[row]);
}
/**
Sets the width of the specified column in pixels, and the table is redrawn.
callback() will be invoked with CONTEXT_RC_RESIZE
if the column's width was actually changed, and when() is FL_WHEN_CHANGED.
*/
void col_width(int col, int width); // set/get a column's width
/**
Returns the current width of the specified column in pixels.
*/
inline int col_width(int col) {
return((col<0 || col>=(int)_colwidths.size()) ? 0 : _colwidths[col]);
}
/**
Convenience method to set the height of all rows to the
same value, in pixels. The screen is redrawn.
*/
void row_height_all(int height) { // set all row/col heights
for ( int r=0; r<rows(); r++ ) {
row_height(r, height);
}
}
/**
Convenience method to set the width of all columns to the
same value, in pixels. The screen is redrawn.
*/
void col_width_all(int width) {
for ( int c=0; c<cols(); c++ ) {
col_width(c, width);
}
}
/**
Sets the row scroll position to 'row', and causes the screen to redraw.
*/
void row_position(int row); // set/get table's current scroll position
/**
Sets the column scroll position to column 'col', and causes the screen to redraw.
*/
void col_position(int col);
/**
Returns the current row scroll position as a row number.
*/
int row_position() { // current row position
return(_row_position);
}
/**
Returns the current column scroll position as a column number.
*/
int col_position() { // current col position
return(_col_position);
}
/**
Sets which row should be at the top of the table,
scrolling as necessary, and the table is redrawn. If the table
cannot be scrolled that far, it is scrolled as far as possible.
*/
inline void top_row(int row) { // set/get top row (deprecated)
row_position(row);
}
/**
Returns the current top row shown in the table.
This row may be partially obscured.
*/
inline int top_row() {
return(row_position());
}
int is_selected(int r, int c); // selected cell
void get_selection(int &row_top, int &col_left, int &row_bot, int &col_right);
void set_selection(int row_top, int col_left, int row_bot, int col_right);
int move_cursor(int R, int C, int shiftselect);
int move_cursor(int R, int C);
/**
Changes the size of the Fl_Table, causing it to redraw.
*/
void resize(int X, int Y, int W, int H); // fltk resize() override
void draw(void); // fltk draw() override
// This crashes sortapp() during init.
// void box(Fl_Boxtype val) {
// Fl_Group::box(val);
// if ( table ) {
// resize(x(), y(), w(), h());
// }
// }
// Fl_Boxtype box(void) const {
// return(Fl_Group::box());
// }
// Child group
void init_sizes() {
table->init_sizes();
table->redraw();
}
void add(Fl_Widget& wgt) {
table->add(wgt);
if ( table->children() > 2 ) {
table->show();
} else {
table->hide();
}
}
void add(Fl_Widget* wgt) {
add(*wgt);
}
void insert(Fl_Widget& wgt, int n) {
table->insert(wgt,n);
}
void insert(Fl_Widget& wgt, Fl_Widget* w2) {
table->insert(wgt,w2);
}
void remove(Fl_Widget& wgt) {
table->remove(wgt);
}
void begin() {
table->begin();
}
void end() {
table->end();
// HACK: Avoid showing Fl_Scroll; seems to erase screen
// causing unnecessary flicker, even if its box() is FL_NO_BOX.
//
if ( table->children() > 2 ) {
table->show();
} else {
table->hide();
}
Fl_Group::current(Fl_Group::parent());
}
Fl_Widget * const *array() {
return(table->array());
}
/**
Returns the child widget by an index.
When using the Fl_Table as a container for FLTK widgets, this method returns
the widget pointer from the internal array of widgets in the container.
Typically used in loops, eg:
\code
for ( int i=0; i<children(); i++ ) {
Fl_Widget *w = child(i);
[..]
}
\endcode
*/
Fl_Widget *child(int n) const {
return(table->child(n));
}
/**
Returns the number of children in the table.
When using the Fl_Table as a container for FLTK widgets, this method returns
how many child widgets the table has.
\see child(int)
*/
int children() const {
return(table->children()-2); // -2: skip Fl_Scroll's h/v scrollbar widgets
}
int find(const Fl_Widget *wgt) const {
return(table->find(wgt));
}
int find(const Fl_Widget &wgt) const {
return(table->find(wgt));
}
// CALLBACKS
/**
* Returns the current row the event occurred on.
*
* This function should only be used from within the user's callback function.
*/
int callback_row() {
return(_callback_row);
}
/**
* Returns the current column the event occurred on.
*
* This function should only be used from within the user's callback function.
*/
int callback_col() {
return(_callback_col);
}
/**
* Returns the current 'table context'.
*
* This function should only be used from within the user's callback function.
*/
TableContext callback_context() {
return(_callback_context);
}
void do_callback(TableContext context, int row, int col) {
_callback_context = context;
_callback_row = row;
_callback_col = col;
Fl_Widget::do_callback();
}
#ifdef FL_DOXYGEN
/**
The Fl_Widget::when() function is used to set a group of flags, determining
when the widget callback is called:
<table border=1>
<tr>
<td>\p FL_WHEN_CHANGED</td>
<td>
callback() will be called when rows or columns are resized (interactively or
via col_width() or row_height()), passing CONTEXT_RC_RESIZE via
callback_context().
</td>
</tr><tr>
<td>\p FL_WHEN_RELEASE</td>
<td>
callback() will be called during FL_RELEASE events, such as when someone
releases a mouse button somewhere on the table.
</td>
</tr>
</table>
The callback() routine is sent a TableContext that indicates the context the
event occurred in, such as in a cell, in a header, or elsewhere on the table.
When an event occurs in a cell or header, callback_row() and
callback_col() can be used to determine the row and column. The callback
can also look at the regular fltk event values (ie. Fl::event() and
Fl::event_button()) to determine what kind of event is occurring.
*/
void when(Fl_When flags);
#endif
#ifdef FL_DOXYGEN
/**
Callbacks will be called depending on the setting of Fl_Widget::when().
Callback functions should use the following functions to determine the
context/row/column:
- Fl_Table::callback_row() returns current row
- Fl_Table::callback_col() returns current column
- Fl_Table::callback_context() returns current table context
callback_row() and callback_col() will be set to the row and column number the
event occurred on. If someone clicked on a row header, \p col will be \a 0.
If someone clicked on a column header, \p row will be \a 0.
callback_context() will return one of the following:
<table border=1>
<tr><td><tt>Fl_Table::CONTEXT_ROW_HEADER</tt></td>
<td>Someone clicked on a row header. Excludes resizing.</td>
</tr><tr>
<td><tt>Fl_Table::CONTEXT_COL_HEADER</tt></td>
<td>Someone clicked on a column header. Excludes resizing.</td>
</tr><tr>
<td><tt>Fl_Table::CONTEXT_CELL</tt></td>
<td>
Someone clicked on a cell.
To receive callbacks for FL_RELEASE events, you must set
when(FL_WHEN_RELEASE).
</td>
</tr><tr>
<td><tt>Fl_Table::CONTEXT_RC_RESIZE</tt></td>
<td>
Someone is resizing rows/columns either interactively,
or via the col_width() or row_height() API.
Use is_interactive_resize()
to determine interactive resizing.
If resizing a column, R=0 and C=column being resized.
If resizing a row, C=0 and R=row being resized.
NOTE: To receive resize events, you must set when(FL_WHEN_CHANGED).
</td>
</tr>
</table>
\code
class MyTable : public Fl_Table {
[..]
private:
// Handle events that happen on the table
void event_callback2() {
int R = callback_row(), // row where event occurred
C = callback_col(); // column where event occurred
TableContext context = callback_context(); // which part of table
fprintf(stderr, "callback: Row=%d Col=%d Context=%d Event=%d\n",
R, C, (int)context, (int)Fl::event());
}
// Actual static callback
static void event_callback(Fl_Widget*, void* data) {
MyTable *o = (MyTable*)data;
o->event_callback2();
}
public:
// Constructor
MyTable() {
[..]
table.callback(&event_callback, (void*)this); // setup callback
table.when(FL_WHEN_CHANGED|FL_WHEN_RELEASE); // when to call it
}
};
\endcode
*/
void callback(Fl_Widget*, void*);
#endif
#if FLTK_ABI_VERSION >= 10301
// NEW
/**
Gets the current size of the scrollbars' troughs, in pixels.
If this value is zero (default), this widget will use the
Fl::scrollbar_size() value as the scrollbar's width.
\returns Scrollbar size in pixels, or 0 if the global Fl::scrollbar_size() is being used.
\see Fl::scrollbar_size(int)
*/
int scrollbar_size() const {
return(_scrollbar_size);
}
/**
Sets the pixel size of the scrollbars' troughs to \p newSize, in pixels.
Normally you should not need this method, and should use
Fl::scrollbar_size(int) instead to manage the size of ALL your
widgets' scrollbars. This ensures your application has a consistent
UI, is the default behavior, and is normally what you want.
Only use THIS method if you really need to override the global
scrollbar size. The need for this should be rare.
Setting \p newSize to the special value of 0 causes the widget to
track the global Fl::scrollbar_size(), which is the default.
\param[in] newSize Sets the scrollbar size in pixels.\n
If 0 (default), scrollbar size tracks the global Fl::scrollbar_size()
\see Fl::scrollbar_size()
*/
void scrollbar_size(int newSize) {
if ( newSize != _scrollbar_size ) redraw();
_scrollbar_size = newSize;
}
#endif
#if FLTK_ABI_VERSION >= 10303
/**
Flag to control if Tab navigates table cells or not.
If on, Tab key navigates table cells.
If off, Tab key navigates fltk widget focus. (default)
As of fltk 1.3, the default behavior of the Tab key is to navigate focus off
of the current widget, and on to the next one. But in some applications,
it's useful for Tab to be used to navigate cells in the Fl_Table.
\param [in] val If \p val is 1, Tab key navigates cells in table, not fltk widgets.<BR>
If \p val is 0, Tab key will advance focus to the next fltk widget (default), and does not navigate cells in table.
*/
void tab_cell_nav(int val) {
if ( val ) flags_ |= TABCELLNAV;
else flags_ &= ~TABCELLNAV;
}
/**
Get state of table's 'Tab' key cell navigation flag.
\returns 1 if Tab configured to navigate cells in table<br>0 to navigate widget focus (default)
\see tab_cell_nav(int)
*/
int tab_cell_nav() const {
return(flags_ & TABCELLNAV ? 1 : 0);
}
#endif
};
#endif /*_FL_TABLE_H*/
//
// End of "$Id$".
//