fltk/src/Fl_arg.cxx
Manolo Gouy 1b3e273fa7 Rename Fl_System_Driver::flNoValue to Fl_System_Driver::fl_NoValue to follow the CMP
git-svn-id: file:///fltk/svn/fltk/branches/branch-1.3-porting@11988 ea41ed52-d2ee-0310-a9c1-e6b18d33e121
2016-09-26 19:35:20 +00:00

359 lines
10 KiB
C++

//
// "$Id$"
//
// Optional argument initialization code for the Fast Light Tool Kit (FLTK).
//
// 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
//
// OPTIONAL initialization code for a program using fltk.
// You do not need to call this! Feel free to make up your own switches.
#include <FL/Fl.H>
#include <FL/Fl_Window.H>
#include <FL/Fl_Window_Driver.H>
#include <FL/Fl_System_Driver.H>
#include <FL/Fl_Tooltip.H>
#include <FL/filename.H>
#include <FL/fl_draw.H>
#include <ctype.h>
#include "flstring.h"
static int fl_match(const char *a, const char *s, int atleast = 1) {
const char *b = s;
while (*a && (*a == *b || tolower(*a) == *b)) {a++; b++;}
return !*a && b >= s+atleast;
}
// flags set by previously parsed arguments:
static char arg_called;
static char return_i;
static const char *name;
static const char *geometry;
static const char *title;
// these are in Fl_get_system_colors and are set by the switches:
extern const char *fl_fg;
extern const char *fl_bg;
extern const char *fl_bg2;
/**
Parse a single switch from \p argv, starting at word \p i.
Returns the number of words eaten (1 or 2, or 0 if it is not
recognized) and adds the same value to \p i.
This is the default argument handler used internally by Fl::args(...),
but you can use this function if you prefer to step through the
standard FLTK switches yourself.
All standard FLTK switches except -bg2 may be abbreviated to just
one letter and case is ignored:
\li -bg color or -background color
<br>
Sets the background color using Fl::background().
\li -bg2 color or -background2 color
<br>
Sets the secondary background color using Fl::background2().
\li -display host:n.n
<br>
Sets the X display to use; this option is silently
ignored under WIN32 and MacOS.
\li -dnd and -nodnd
<br>
Enables or disables drag and drop text operations
using Fl::dnd_text_ops().
\li -fg color or -foreground color
<br>
Sets the foreground color using Fl::foreground().
\li -geometry WxH+X+Y
<br>
Sets the initial window position and size according
to the standard X geometry string.
\li -iconic
<br>
Iconifies the window using Fl_Window::iconize().
\li -kbd and -nokbd
<br>
Enables or disables visible keyboard focus for
non-text widgets using Fl::visible_focus().
\li -name string
<br>
Sets the window class using Fl_Window::xclass().
\li -scheme string
<br>
Sets the widget scheme using Fl::scheme().
\li -title string
<br>
Sets the window title using Fl_Window::label().
\li -tooltips and -notooltips
<br>
Enables or disables tooltips using Fl_Tooltip::enable().
If your program requires other switches in addition to the standard
FLTK options, you will need to pass your own argument handler to
Fl::args(int,char**,int&,Fl_Args_Handler) explicitly.
*/
int Fl::arg(int argc, char **argv, int &i) {
arg_called = 1;
const char *s = argv[i];
if (!s) {i++; return 1;} // something removed by calling program?
// a word that does not start with '-', or a word after a '--', or
// the word '-' by itself all start the "non-switch arguments" to
// a program. Return 0 to indicate that we don't understand the
// word, but set a flag (return_i) so that args() will return at
// that point:
if (s[0] != '-' || s[1] == '-' || !s[1]) {return_i = 1; return 0;}
s++; // point after the dash
if (fl_match(s, "iconic")) {
Fl_Window::show_iconic_ = 1;
i++;
return 1;
} else if (fl_match(s, "kbd")) {
Fl::visible_focus(1);
i++;
return 1;
} else if (fl_match(s, "nokbd", 3)) {
Fl::visible_focus(0);
i++;
return 1;
} else if (fl_match(s, "dnd", 2)) {
Fl::dnd_text_ops(1);
i++;
return 1;
} else if (fl_match(s, "nodnd", 3)) {
Fl::dnd_text_ops(0);
i++;
return 1;
} else if (fl_match(s, "tooltips", 2)) {
Fl_Tooltip::enable();
i++;
return 1;
} else if (fl_match(s, "notooltips", 3)) {
Fl_Tooltip::disable();
i++;
return 1;
} else if (Fl::system_driver()->single_arg(s)) {
i++;
return 1;
}
const char *v = argv[i+1];
if (i >= argc-1 || !v)
return 0; // all the rest need an argument, so if missing it is an error
if (fl_match(s, "geometry")) {
int flags, gx, gy; unsigned int gw, gh;
flags = Fl::system_driver()->XParseGeometry(v, &gx, &gy, &gw, &gh);
if (!flags) return 0;
geometry = v;
} else if (fl_match(s, "display", 2)) {
Fl::system_driver()->display_arg(v);
} else if (Fl::system_driver()->arg_and_value(s, v)) {
// nothing to do
} else if (fl_match(s, "title", 2)) {
title = v;
} else if (fl_match(s, "name", 2)) {
name = v;
} else if (fl_match(s, "bg2", 3) || fl_match(s, "background2", 11)) {
fl_bg2 = v;
} else if (fl_match(s, "bg", 2) || fl_match(s, "background", 10)) {
fl_bg = v;
} else if (fl_match(s, "fg", 2) || fl_match(s, "foreground", 10)) {
fl_fg = v;
} else if (fl_match(s, "scheme", 1)) {
Fl::scheme(v);
} else {
return 0; // unrecognized
}
i += 2;
return 2;
}
/**
Parse command line switches using the \p cb argument handler.
Returns 0 on error, or the number of words processed.
FLTK provides this as an <i>entirely optional</i> command line
switch parser. You don't have to call it if you don't want to.
Everything it can do can be done with other calls to FLTK.
To use the switch parser, call Fl::args(...) near the start
of your program. This does \b not open the display, instead
switches that need the display open are stashed into static
variables. Then you \b must display your first window by calling
<tt>window->show(argc,argv)</tt>, which will do anything stored
in the static variables.
Providing an argument handler callback \p cb lets you define
your own switches. It is called with the same \p argc and \p argv,
and with \p i set to the index of the switch to be processed.
The \p cb handler should return zero if the switch is unrecognized,
and not change \p i. It should return non-zero to indicate the
number of words processed if the switch is recognized, i.e. 1 for
just the switch, and more than 1 for the switch plus associated
parameters. \p i should be incremented by the same amount.
The \p cb handler is called \b before any other tests, so
<i>you can also override any standard FLTK switch</i>
(this is why FLTK can use very short switches instead of
the long ones all other toolkits force you to use).
See Fl::arg() for descriptions of the standard switches.
On return \p i is set to the index of the first non-switch.
This is either:
\li The first word that does not start with '-'.
\li The word '-' (used by many programs to name stdin as a file)
\li The first unrecognized switch (return value is 0).
\li \p argc
The return value is \p i unless an unrecognized switch is found,
in which case it is zero. If your program takes no arguments other
than switches you should produce an error if the return value is less
than \p argc.
A usage string is displayed if Fl::args() detects an invalid argument
on the command-line. You can change the message by setting the
Fl::help pointer.
A very simple command line parser can be found in <tt>examples/howto-parse-args.cxx</tt>
The simpler Fl::args(int argc, char **argv) form is useful if your program
does not have command line switches of its own.
*/
int Fl::args(int argc, char** argv, int& i, Fl_Args_Handler cb) {
arg_called = 1;
i = 1; // skip argv[0]
while (i < argc) {
if (cb && cb(argc,argv,i)) continue;
if (!arg(argc,argv,i)) return return_i ? i : 0;
}
return i;
}
// show a main window, use any parsed arguments
void Fl_Window::show(int argc, char **argv) {
if (argc && !arg_called) Fl::args(argc,argv);
Fl::get_system_colors();
pWindowDriver->show_with_args_begin();
// set colors first, so background_pixel is correct:
static char beenhere;
if (!beenhere) {
if (geometry) {
int fl = 0, gx = x(), gy = y(); unsigned int gw = w(), gh = h();
fl = Fl::system_driver()->XParseGeometry(geometry, &gx, &gy, &gw, &gh);
if (fl & Fl_System_Driver::fl_XNegative) gx = Fl::w()-w()+gx;
if (fl & Fl_System_Driver::fl_YNegative) gy = Fl::h()-h()+gy;
// int mw,mh; minsize(mw,mh);
// if (mw > gw) gw = mw;
// if (mh > gh) gh = mh;
Fl_Widget *r = resizable();
if (!r) resizable(this);
// for WIN32 we assume window is not mapped yet:
if (fl & (Fl_System_Driver::fl_XValue | Fl_System_Driver::fl_YValue))
x(-1), resize(gx,gy,gw,gh);
else
size(gw,gh);
resizable(r);
}
}
// set the class, which is used by X version of get_system_colors:
if (name) {xclass(name); name = 0;}
else if (!xclass()) xclass(fl_filename_name(argv[0]));
if (title) {label(title); title = 0;}
else if (!label()) label(xclass());
if (!beenhere) {
beenhere = 1;
Fl::scheme(Fl::scheme()); // opens display! May call Fl::fatal()
}
// Show the window AFTER we have set the colors and scheme.
show();
pWindowDriver->show_with_args_end(argc, argv);
}
// Calls useful for simple demo programs, with automatic help message:
static const char * const helpmsg =
"options are:\n"
" -bg2 color\n"
" -bg color\n"
" -di[splay] host:n.n\n"
" -dn[d]\n"
" -fg color\n"
" -g[eometry] WxH+X+Y\n"
" -i[conic]\n"
" -k[bd]\n"
" -na[me] classname\n"
" -nod[nd]\n"
" -nok[bd]\n"
" -not[ooltips]\n"
" -s[cheme] scheme\n"
" -ti[tle] windowtitle\n"
" -to[oltips]";
const char * const Fl::help = helpmsg+13;
/**
Parse all command line switches matching standard FLTK options only.
It parses all the switches, and if any are not recognized it calls
Fl::abort(Fl::help), i.e. unlike the long form, an unrecognized
switch generates an error message and causes the program to exit.
*/
void Fl::args(int argc, char **argv) {
int i; if (Fl::args(argc,argv,i) < argc) Fl::error(helpmsg);
}
//
// End of "$Id$".
//