fltk/examples/table-sort.cxx

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//
// "$Id$"
//
// table-sort -- An example application using a sortable Fl_Table
//
// Originally the 'sortapp.cxx' example program that came with
// erco's Fl_Table widget. Added to FLTK in 2010.
//
// Example of a non-trivial application that uses Fl_Table
// with sortable columns. This example is not trying to be simple,
// but to demonstrate the complexities of an actual app.
//
// Copyright 2010 Greg Ercolano.
// Copyright 1998-2010 by Bill Spitzak and others.
//
// 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
//
#include <FL/Fl.H>
#include <FL/Fl_Double_Window.H>
#include <FL/fl_draw.H>
#include <FL/Fl_Table_Row.H>
#include <stdio.h>
#include <string.h>
#include <vector>
#include <algorithm> // STL sort
#define MARGIN 20
#ifdef WIN32
// WINDOWS
# define DIRCMD "dir"
# define DIRHEADER { "Date", "Time", "Size", "Filename", "", "", "", "", "" }
# ifdef _MSC_VER
# define popen _popen
# endif
#else /*WIN32*/
// UNIX
# include <ctype.h>
# define DIRCMD "ls -l"
# define DIRHEADER { "Perms", "#L", "Own", "Group", "Size", "Date", "", "", "Filename" }
#endif /*WIN32*/
// A single row of columns
class Row {
public:
std::vector<char*> cols;
};
// Sort class to handle sorting column using std::sort
class SortColumn {
int _col, _reverse;
public:
SortColumn(int col, int reverse) {
_col = col;
_reverse = reverse;
}
bool operator()(const Row &a, const Row &b) {
const char *ap = ( _col < (int)a.cols.size() ) ? a.cols[_col] : "",
*bp = ( _col < (int)b.cols.size() ) ? b.cols[_col] : "";
if ( isdigit(*ap) && isdigit(*bp) ) { // cheezy detection of numeric data
// Numeric sort
int av=0; sscanf(ap, "%d", &av);
int bv=0; sscanf(bp, "%d", &bv);
return( _reverse ? av < bv : bv < av );
} else {
// Alphabetic sort
return( _reverse ? strcmp(ap, bp) > 0 : strcmp(ap, bp) < 0 );
}
}
};
// Derive a custom class from Fl_Table_Row
class MyTable : public Fl_Table_Row {
private:
std::vector<Row> _rowdata; // data in each row
int _sort_reverse;
int _sort_lastcol;
static void event_callback(Fl_Widget*, void*);
void event_callback2(); // callback for table events
protected:
void draw_cell(TableContext context, int R=0, int C=0, // table cell drawing
int X=0, int Y=0, int W=0, int H=0);
void sort_column(int col, int reverse=0); // sort table by a column
void draw_sort_arrow(int X,int Y,int W,int H);
public:
// Ctor
MyTable(int x, int y, int w, int h, const char *l=0) : Fl_Table_Row(x,y,w,h,l) {
_sort_reverse = 0;
_sort_lastcol = -1;
end();
callback(event_callback, (void*)this);
}
~MyTable() { } // Dtor
void load_command(const char *cmd); // Load the output of a command into table
void autowidth(int pad); // Automatically set column widths to data
void resize_window(); // Resize parent window to size of table
};
// Sort a column up or down
void MyTable::sort_column(int col, int reverse) {
std::sort(_rowdata.begin(), _rowdata.end(), SortColumn(col, reverse));
redraw();
}
// Draw sort arrow
void MyTable::draw_sort_arrow(int X,int Y,int W,int H) {
int xlft = X+(W-6)-8;
int xctr = X+(W-6)-4;
int xrit = X+(W-6)-0;
int ytop = Y+(H/2)-4;
int ybot = Y+(H/2)+4;
if ( _sort_reverse ) {
// Engraved down arrow
fl_color(FL_WHITE);
fl_line(xrit, ytop, xctr, ybot);
fl_color(41); // dark gray
fl_line(xlft, ytop, xrit, ytop);
fl_line(xlft, ytop, xctr, ybot);
} else {
// Engraved up arrow
fl_color(FL_WHITE);
fl_line(xrit, ybot, xctr, ytop);
fl_line(xrit, ybot, xlft, ybot);
fl_color(41); // dark gray
fl_line(xlft, ybot, xctr, ytop);
}
}
// Handle drawing all cells in table
void MyTable::draw_cell(TableContext context, int R, int C, int X, int Y, int W, int H) {
const char *s = "";
if ( R < (int)_rowdata.size() && C < (int)_rowdata[R].cols.size() )
s = _rowdata[R].cols[C];
switch ( context ) {
case CONTEXT_COL_HEADER:
fl_push_clip(X,Y,W,H); {
static const char *head[] = DIRHEADER;
fl_draw_box(FL_THIN_UP_BOX, X,Y,W,H, FL_BACKGROUND_COLOR);
if ( C < 9 ) {
fl_font(FL_HELVETICA_BOLD, 16);
fl_color(FL_BLACK);
fl_draw(head[C], X+2,Y,W,H, FL_ALIGN_LEFT, 0, 0); // +2=pad left
// Draw sort arrow
if ( C == _sort_lastcol ) {
draw_sort_arrow(X,Y,W,H);
}
}
}
fl_pop_clip();
return;
case CONTEXT_CELL: {
fl_push_clip(X,Y,W,H); {
// Bg color
Fl_Color bgcolor = row_selected(R) ? selection_color() : FL_WHITE;
fl_color(bgcolor); fl_rectf(X,Y,W,H);
fl_font(FL_HELVETICA, 16);
fl_color(FL_BLACK); fl_draw(s, X+2,Y,W,H, FL_ALIGN_LEFT); // +2=pad left
// Border
fl_color(FL_LIGHT2); fl_rect(X,Y,W,H);
}
fl_pop_clip();
return;
}
default:
return;
}
}
// Automatically set column widths to widest data in each column
void MyTable::autowidth(int pad) {
fl_font(FL_COURIER, 16);
// Initialize all column widths to lowest value
for ( int c=0; c<cols(); c++ ) col_width(c, pad);
for ( int r=0; r<(int)_rowdata.size(); r++ ) {
int w, h;
for ( int c=0; c<(int)_rowdata[r].cols.size(); c++ ) {
fl_measure(_rowdata[r].cols[c], w, h, 0); // get pixel width of text
if ( (w + pad) > col_width(c)) col_width(c, w + pad);
}
}
table_resized();
redraw();
}
// Resize parent window to size of table
void MyTable::resize_window() {
// Determine exact outer width of table with all columns visible
int width = 4; // width of table borders
for ( int t=0; t<cols(); t++ ) width += col_width(t); // total width of all columns
width += MARGIN*2;
if ( width < 200 || width > Fl::w() ) return;
window()->resize(window()->x(), window()->y(), width, window()->h()); // resize window to fit
}
// Load table with output of 'cmd'
void MyTable::load_command(const char *cmd) {
char s[512];
FILE *fp = popen(cmd, "r");
cols(0);
for ( int r=0; fgets(s, sizeof(s)-1, fp); r++ ) {
// Add a new row
Row newrow; _rowdata.push_back(newrow);
std::vector<char*> &rc = _rowdata[r].cols;
// Break line into separate word 'columns'
char *ss;
const char *delim = " \t\n";
for(int t=0; (t==0)?(ss=strtok(s,delim)):(ss=strtok(NULL,delim)); t++) {
rc.push_back(strdup(ss));
}
// Keep track of max # columns
if ( (int)rc.size() > cols() ) {
cols((int)rc.size());
}
}
// How many rows we loaded
rows((int)_rowdata.size());
// Auto-calculate widths, with 20 pixel padding
autowidth(20);
}
// Callback whenever someone clicks on different parts of the table
void MyTable::event_callback(Fl_Widget*, void *data) {
MyTable *o = (MyTable*)data;
o->event_callback2();
}
void MyTable::event_callback2() {
//int ROW = callback_row(); // unused
int COL = callback_col();
TableContext context = callback_context();
switch ( context ) {
case CONTEXT_COL_HEADER: { // someone clicked on column header
if ( Fl::event() == FL_RELEASE && Fl::event_button() == 1 ) {
if ( _sort_lastcol == COL ) { // Click same column? Toggle sort
_sort_reverse ^= 1;
} else { // Click diff column? Up sort
_sort_reverse = 0;
}
sort_column(COL, _sort_reverse);
_sort_lastcol = COL;
}
break;
}
default:
return;
}
}
int main() {
Fl_Double_Window win(900,500,"Table Sorting");
MyTable table(MARGIN, MARGIN, win.w()-MARGIN*2, win.h()-MARGIN*2);
table.selection_color(FL_YELLOW);
table.col_header(1);
table.col_resize(1);
table.when(FL_WHEN_RELEASE); // handle table events on release
table.load_command(DIRCMD); // load table with a directory listing
table.row_height_all(18); // height of all rows
table.tooltip("Click on column headings to toggle column sorting");
table.color(FL_WHITE);
win.end();
win.resizable(table);
table.resize_window();
win.show();
return(Fl::run());
}
//
// End of "$Id$".
//