eb7d55e218
Also fix indenting in src/Fl_win32.cxx. git-svn-id: file:///fltk/svn/fltk/branches/branch-1.3@10820 ea41ed52-d2ee-0310-a9c1-e6b18d33e121
653 lines
23 KiB
C++
653 lines
23 KiB
C++
//
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// "$Id$"
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//
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// Window header file for the Fast Light Tool Kit (FLTK).
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//
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// Copyright 1998-2012 by Bill Spitzak and others.
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//
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// This library is free software. Distribution and use rights are outlined in
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// the file "COPYING" which should have been included with this file. If this
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// file is missing or damaged, see the license at:
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//
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// http://www.fltk.org/COPYING.php
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//
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// Please report all bugs and problems on the following page:
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//
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// http://www.fltk.org/str.php
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//
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/** \file
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Fl_Window widget . */
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#ifndef Fl_Window_H
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#define Fl_Window_H
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#ifdef WIN32
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#include <windows.h>
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#endif
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#include "Fl_Group.H"
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#include "Fl_Bitmap.H"
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#include <stdlib.h>
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#define FL_WINDOW 0xF0 ///< window type id all subclasses have type() >= this
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#define FL_DOUBLE_WINDOW 0xF1 ///< double window type id
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class Fl_X;
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class Fl_RGB_Image;
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/**
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This widget produces an actual window. This can either be a main
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window, with a border and title and all the window management controls,
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or a "subwindow" inside a window. This is controlled by whether or not
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the window has a parent().
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Once you create a window, you usually add children Fl_Widget
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's to it by using window->add(child) for each new widget.
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See Fl_Group for more information on how to add and remove children.
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There are several subclasses of Fl_Window that provide
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double-buffering, overlay, menu, and OpenGL support.
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The window's callback is done if the user tries to close a window
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using the window manager and Fl::modal() is zero or equal to the
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window. Fl_Window has a default callback that calls Fl_Window::hide().
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*/
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class FL_EXPORT Fl_Window : public Fl_Group {
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static char *default_xclass_;
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// Note: we must use separate statements for each of the following 8 variables,
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// with the static attribute, otherwise MS VC++ 2008/2010 complains :-(
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// AlbrechtS 04/2012
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#if FLTK_ABI_VERSION < 10301
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static // when these members are static, ABI compatibility with 1.3.0 is respected
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#endif
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int no_fullscreen_x;
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#if FLTK_ABI_VERSION < 10301
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static // when these members are static, ABI compatibility with 1.3.0 is respected
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#endif
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int no_fullscreen_y;
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#if FLTK_ABI_VERSION < 10301
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static // when these members are static, ABI compatibility with 1.3.0 is respected
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#endif
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int no_fullscreen_w;
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#if FLTK_ABI_VERSION < 10301
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static // when these members are static, ABI compatibility with 1.3.0 is respected
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#endif
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int no_fullscreen_h;
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#if FLTK_ABI_VERSION < 10303
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static // when these members are static, ABI compatibility with 1.3.0 is respected
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#endif
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int fullscreen_screen_top;
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#if FLTK_ABI_VERSION < 10303
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static // when these members are static, ABI compatibility with 1.3.0 is respected
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#endif
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int fullscreen_screen_bottom;
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#if FLTK_ABI_VERSION < 10303
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static // when these members are static, ABI compatibility with 1.3.0 is respected
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#endif
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int fullscreen_screen_left;
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#if FLTK_ABI_VERSION < 10303
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static // when these members are static, ABI compatibility with 1.3.0 is respected
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#endif
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int fullscreen_screen_right;
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friend class Fl_X;
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Fl_X *i; // points at the system-specific stuff
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struct icon_data {
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const void *legacy_icon;
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Fl_RGB_Image **icons;
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int count;
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#ifdef WIN32
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HICON big_icon;
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HICON small_icon;
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#endif
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};
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const char* iconlabel_;
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char* xclass_;
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struct icon_data *icon_;
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// size_range stuff:
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int minw, minh, maxw, maxh;
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int dw, dh, aspect;
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uchar size_range_set;
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// cursor stuff
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Fl_Cursor cursor_default;
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#if FLTK_ABI_VERSION < 10303
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// legacy, not used
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Fl_Color cursor_fg, cursor_bg;
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#endif
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protected:
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/** Data supporting a non-rectangular window shape */
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struct shape_data_type {
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int lw_; ///< width of shape image
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int lh_; ///< height of shape image
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Fl_Image* shape_; ///< shape image
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#if defined(__APPLE__)
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typedef struct CGImage* CGImageRef;
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CGImageRef mask;
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#endif
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Fl_Bitmap *todelete_; ///< auxiliary bitmap image
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};
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#if FLTK_ABI_VERSION < 10303 && !defined(FL_DOXYGEN)
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static
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#endif
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shape_data_type *shape_data_; ///< non-null means the window has a non-rectangular shape
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private:
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void shape_bitmap_(Fl_Image* b);
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void shape_alpha_(Fl_Image* img, int offset);
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void shape_pixmap_(Fl_Image* pixmap);
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public:
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void shape(const Fl_Image* img);
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/** Set the window's shape with an Fl_Image.
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\see void shape(const Fl_Image* img)
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*/
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inline void shape(const Fl_Image& b) { shape(&b); }
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#if ! (defined(WIN32) || defined(__APPLE__) || defined(FL_DOXYGEN))
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void combine_mask(void);
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#endif
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private:
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void size_range_();
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void _Fl_Window(); // constructor innards
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void fullscreen_x(); // platform-specific part of sending a window to full screen
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void fullscreen_off_x(int X, int Y, int W, int H);// platform-specific part of leaving full screen
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// unimplemented copy ctor and assignment operator
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Fl_Window(const Fl_Window&);
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Fl_Window& operator=(const Fl_Window&);
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protected:
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/** Stores the last window that was made current. See current() const */
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static Fl_Window *current_;
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virtual void draw();
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/** Forces the window to be drawn, this window is also made current and calls draw(). */
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virtual void flush();
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/**
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Sets an internal flag that tells FLTK and the window manager to
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honor position requests.
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This is used internally and should not be needed by user code.
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\param[in] force 1 to set the FORCE_POSITION flag, 0 to clear it
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*/
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void force_position(int force) {
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if (force) set_flag(FORCE_POSITION);
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else clear_flag(FORCE_POSITION);
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}
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/**
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Returns the internal state of the window's FORCE_POSITION flag.
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\retval 1 if flag is set
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\retval 0 otherwise
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\see force_position(int)
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*/
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int force_position() const { return ((flags() & FORCE_POSITION)?1:0); }
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void free_icons();
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public:
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/**
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Creates a window from the given size and title.
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If Fl_Group::current() is not NULL, the window is created as a
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subwindow of the parent window.
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The (w,h) form of the constructor creates a top-level window
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and asks the window manager to position the window. The (x,y,w,h)
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form of the constructor either creates a subwindow or a
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top-level window at the specified location (x,y) , subject to window
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manager configuration. If you do not specify the position of the
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window, the window manager will pick a place to show the window
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or allow the user to pick a location. Use position(x,y)
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or hotspot() before calling show() to request a
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position on the screen. See Fl_Window::resize()
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for some more details on positioning windows.
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Top-level windows initially have visible() set to 0
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and parent() set to NULL. Subwindows initially
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have visible() set to 1 and parent() set to
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the parent window pointer.
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Fl_Widget::box() defaults to FL_FLAT_BOX. If you plan to
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completely fill the window with children widgets you should
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change this to FL_NO_BOX. If you turn the window border off
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you may want to change this to FL_UP_BOX.
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\see Fl_Window(int x, int y, int w, int h, const char* title)
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*/
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Fl_Window(int w, int h, const char* title= 0);
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/** Creates a window from the given position, size and title.
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\see Fl_Window(int w, int h, const char *title)
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*/
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Fl_Window(int x, int y, int w, int h, const char* title = 0);
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/**
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The destructor <I>also deletes all the children</I>. This allows a
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whole tree to be deleted at once, without having to keep a pointer to
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all the children in the user code. A kludge has been done so the
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Fl_Window and all of its children can be automatic (local)
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variables, but you must declare the Fl_Window <I>first</I> so
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that it is destroyed last.
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*/
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virtual ~Fl_Window();
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virtual int handle(int);
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/**
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Changes the size and position of the window. If shown() is true,
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these changes are communicated to the window server (which may
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refuse that size and cause a further resize). If shown() is
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false, the size and position are used when show() is called.
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See Fl_Group for the effect of resizing on the child widgets.
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You can also call the Fl_Widget methods size(x,y) and position(w,h),
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which are inline wrappers for this virtual function.
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A top-level window can not force, but merely suggest a position and
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size to the operating system. The window manager may not be willing or
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able to display a window at the desired position or with the given
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dimensions. It is up to the application developer to verify window
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parameters after the resize request.
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*/
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virtual void resize(int X,int Y,int W,int H);
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/**
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Sets whether or not the window manager border is around the
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window. The default value is true. void border(int) can be
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used to turn the border on and off. <I>Under most X window
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managers this does not work after show() has been called,
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although SGI's 4DWM does work.</I>
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*/
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void border(int b);
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/**
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Fast inline function to turn the window manager border
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off. It only works before show() is called.
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*/
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void clear_border() {set_flag(NOBORDER);}
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/** See void Fl_Window::border(int) */
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unsigned int border() const {return !(flags() & NOBORDER);}
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/** Activates the flags NOBORDER|FL_OVERRIDE */
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void set_override() {set_flag(NOBORDER|OVERRIDE);}
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/** Returns non zero if FL_OVERRIDE flag is set, 0 otherwise. */
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unsigned int override() const { return flags()&OVERRIDE; }
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/**
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A "modal" window, when shown(), will prevent any events from
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being delivered to other windows in the same program, and will also
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remain on top of the other windows (if the X window manager supports
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the "transient for" property). Several modal windows may be shown at
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once, in which case only the last one shown gets events. You can see
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which window (if any) is modal by calling Fl::modal().
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*/
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void set_modal() {set_flag(MODAL);}
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/** Returns true if this window is modal. */
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unsigned int modal() const {return flags() & MODAL;}
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/**
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A "non-modal" window (terminology borrowed from Microsoft Windows)
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acts like a modal() one in that it remains on top, but it has
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no effect on event delivery. There are <I>three</I> states for a
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window: modal, non-modal, and normal.
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*/
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void set_non_modal() {set_flag(NON_MODAL);}
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/** Returns true if this window is modal or non-modal. */
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unsigned int non_modal() const {return flags() & (NON_MODAL|MODAL);}
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/**
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Clears the "modal" flags and converts a "modal" or "non-modal"
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window back into a "normal" window.
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Note that there are <I>three</I> states for a window: modal,
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non-modal, and normal.
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You can not change the "modality" of a window whilst
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it is shown, so it is necessary to first hide() the window,
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change its "modality" as required, then re-show the window
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for the new state to take effect.
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This method can also be used to change a "modal" window into a
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"non-modal" one. On several supported platforms, the "modal" state
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over-rides the "non-modal" state, so the "modal" state must be
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cleared before the window can be set into the "non-modal"
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state.
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In general, the following sequence should work:
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\code
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win->hide();
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win->clear_modal_states();
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//Set win to new state as desired, or leave "normal", e.g...
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win->set_non_modal();
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win->show();
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\endcode
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\note Under some window managers, the sequence of hiding the
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window and changing its modality will often cause it to be
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re-displayed at a different position when it is subsequently
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shown. This is an irritating feature but appears to be
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unavoidable at present.
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As a result we would advise to use this method only when
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absolutely necessary.
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\see void set_modal(), void set_non_modal()
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*/
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void clear_modal_states() {clear_flag(NON_MODAL | MODAL);}
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/**
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Marks the window as a menu window.
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This is intended for internal use, but it can also be used if you
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write your own menu handling. However, this is not recommended.
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This flag is used for correct "parenting" of windows in communication
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with the windowing system. Modern X window managers can use different
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flags to distinguish menu and tooltip windows from normal windows.
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This must be called before the window is shown and cannot be changed
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later.
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*/
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void set_menu_window() {set_flag(MENU_WINDOW);}
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/** Returns true if this window is a menu window. */
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unsigned int menu_window() const {return flags() & MENU_WINDOW;}
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/**
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Marks the window as a tooltip window.
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This is intended for internal use, but it can also be used if you
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write your own tooltip handling. However, this is not recommended.
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This flag is used for correct "parenting" of windows in communication
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with the windowing system. Modern X window managers can use different
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flags to distinguish menu and tooltip windows from normal windows.
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This must be called before the window is shown and cannot be changed
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later.
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\note Since Fl_Tooltip_Window is derived from Fl_Menu_Window, this
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also \b clears the menu_window() state.
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*/
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void set_tooltip_window() { set_flag(TOOLTIP_WINDOW);
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clear_flag(MENU_WINDOW); }
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/** Returns true if this window is a tooltip window. */
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unsigned int tooltip_window() const {return flags() & TOOLTIP_WINDOW;}
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/**
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Positions the window so that the mouse is pointing at the given
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position, or at the center of the given widget, which may be the
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window itself. If the optional offscreen parameter is
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non-zero, then the window is allowed to extend off the screen (this
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does not work with some X window managers). \see position()
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*/
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void hotspot(int x, int y, int offscreen = 0);
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/** See void Fl_Window::hotspot(int x, int y, int offscreen = 0) */
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void hotspot(const Fl_Widget*, int offscreen = 0);
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/** See void Fl_Window::hotspot(int x, int y, int offscreen = 0) */
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void hotspot(const Fl_Widget& p, int offscreen = 0) {hotspot(&p,offscreen);}
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/**
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Undoes the effect of a previous resize() or show() so that the next time
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show() is called the window manager is free to position the window.
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This is for Forms compatibility only.
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\deprecated please use force_position(0) instead
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*/
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void free_position() {clear_flag(FORCE_POSITION);}
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/**
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Sets the allowable range the user can resize this window to.
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This only works for top-level windows.
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<UL>
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<LI>\p minw and \p minh are the smallest the window can be.
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Either value must be greater than 0.</LI>
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<LI>\p maxw and \p maxh are the largest the window can be. If either is
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<I>equal</I> to the minimum then you cannot resize in that direction.
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If either is zero then FLTK picks a maximum size in that direction
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such that the window will fill the screen.</LI>
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<LI>\p dw and \p dh are size increments. The window will be constrained
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to widths of minw + N * dw, where N is any non-negative integer.
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If these are less or equal to 1 they are ignored (this is ignored
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on WIN32).</LI>
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<LI>\p aspect is a flag that indicates that the window should preserve its
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aspect ratio. This only works if both the maximum and minimum have
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the same aspect ratio (ignored on WIN32 and by many X window managers).
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</LI>
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</UL>
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If this function is not called, FLTK tries to figure out the range
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from the setting of resizable():
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<UL>
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<LI>If resizable() is NULL (this is the default) then the window cannot
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be resized and the resize border and max-size control will not be
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displayed for the window.</LI>
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<LI>If either dimension of resizable() is less than 100, then that is
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considered the minimum size. Otherwise the resizable() has a minimum
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size of 100.</LI>
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<LI>If either dimension of resizable() is zero, then that is also the
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maximum size (so the window cannot resize in that direction).</LI>
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</UL>
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It is undefined what happens if the current size does not fit in the
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constraints passed to size_range().
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*/
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void size_range(int minw, int minh, int maxw=0, int maxh=0, int dw=0, int dh=0, int aspect=0) {
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this->minw = minw;
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this->minh = minh;
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this->maxw = maxw;
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this->maxh = maxh;
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this->dw = dw;
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this->dh = dh;
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this->aspect = aspect;
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size_range_();
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}
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/** See void Fl_Window::label(const char*) */
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const char* label() const {return Fl_Widget::label();}
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/** See void Fl_Window::iconlabel(const char*) */
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const char* iconlabel() const {return iconlabel_;}
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/** Sets the window title bar label. */
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void label(const char*);
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/** Sets the icon label. */
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void iconlabel(const char*);
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/** Sets the icon label. */
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void label(const char* label, const char* iconlabel); // platform dependent
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void copy_label(const char* a);
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static void default_xclass(const char*);
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static const char *default_xclass();
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const char* xclass() const;
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void xclass(const char* c);
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static void default_icon(const Fl_RGB_Image*);
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static void default_icons(const Fl_RGB_Image*[], int);
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void icon(const Fl_RGB_Image*);
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void icons(const Fl_RGB_Image*[], int);
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#ifdef WIN32
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static void default_icons(HICON big_icon, HICON small_icon);
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void icons(HICON big_icon, HICON small_icon);
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#endif
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/* for legacy compatibility */
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const void* icon() const;
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void icon(const void * ic);
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/**
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Returns non-zero if show() has been called (but not hide()
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). You can tell if a window is iconified with (w->shown()
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&& !w->visible()).
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*/
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int shown() {return i != 0;}
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/**
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Puts the window on the screen. Usually (on X) this has the side
|
|
effect of opening the display.
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|
|
|
If the window is already shown then it is restored and raised to the
|
|
top. This is really convenient because your program can call show()
|
|
at any time, even if the window is already up. It also means that
|
|
show() serves the purpose of raise() in other toolkits.
|
|
|
|
Fl_Window::show(int argc, char **argv) is used for top-level
|
|
windows and allows standard arguments to be parsed from the
|
|
command-line.
|
|
|
|
\note For some obscure reasons Fl_Window::show() resets the current
|
|
group by calling Fl_Group::current(0). The comments in the code
|
|
say "get rid of very common user bug: forgot end()". Although
|
|
this is true it may have unwanted side effects if you show() an
|
|
unrelated window (maybe for an error message or warning) while
|
|
building a window or any other group widget.
|
|
|
|
\todo Check if we can remove resetting the current group in a later
|
|
FLTK version (after 1.3.x). This may break "already broken" programs
|
|
though if they rely on this "feature".
|
|
|
|
\see Fl_Window::show(int argc, char **argv)
|
|
*/
|
|
virtual void show();
|
|
/**
|
|
Removes the window from the screen. If the window is already hidden or
|
|
has not been shown then this does nothing and is harmless.
|
|
*/
|
|
virtual void hide();
|
|
/**
|
|
Puts the window on the screen and parses command-line arguments.
|
|
|
|
Usually (on X) this has the side effect of opening the display.
|
|
|
|
This form should be used for top-level windows, at least for the
|
|
first (main) window. It allows standard arguments to be parsed
|
|
from the command-line. You can use \p argc and \p argv from
|
|
main(int argc, char **argv) for this call.
|
|
|
|
The first call also sets up some system-specific internal
|
|
variables like the system colors.
|
|
|
|
\todo explain which system parameters are set up.
|
|
|
|
\param argc command-line argument count, usually from main()
|
|
\param argv command-line argument vector, usually from main()
|
|
|
|
\see virtual void Fl_Window::show()
|
|
*/
|
|
void show(int argc, char **argv);
|
|
|
|
// Enables synchronous show(), docs in Fl_Window.cxx
|
|
void wait_for_expose();
|
|
|
|
/**
|
|
Makes the window completely fill one or more screens, without any
|
|
window manager border visible. You must use fullscreen_off() to
|
|
undo this.
|
|
|
|
\note On some platforms, this can result in the keyboard being
|
|
grabbed. The window may also be recreated, meaning hide() and
|
|
show() will be called.
|
|
|
|
\see void Fl_Window::fullscreen_screens()
|
|
*/
|
|
void fullscreen();
|
|
/**
|
|
Turns off any side effects of fullscreen()
|
|
*/
|
|
void fullscreen_off();
|
|
/**
|
|
Turns off any side effects of fullscreen() and does
|
|
resize(x,y,w,h).
|
|
*/
|
|
void fullscreen_off(int X,int Y,int W,int H);
|
|
/**
|
|
Returns non zero if FULLSCREEN flag is set, 0 otherwise.
|
|
*/
|
|
unsigned int fullscreen_active() const { return flags() & FULLSCREEN; }
|
|
/**
|
|
Sets which screens should be used when this window is in fullscreen
|
|
mode. The window will be resized to the top of the screen with index
|
|
\p top, the bottom of the screen with index \p bottom, etc.
|
|
|
|
If this method is never called, or if any argument is < 0, then the
|
|
window will be resized to fill the screen it is currently on.
|
|
|
|
\see void Fl_Window::fullscreen()
|
|
*/
|
|
void fullscreen_screens(int top, int bottom, int left, int right);
|
|
/**
|
|
Iconifies the window. If you call this when shown() is false
|
|
it will show() it as an icon. If the window is already
|
|
iconified this does nothing.
|
|
|
|
Call show() to restore the window.
|
|
|
|
When a window is iconified/restored (either by these calls or by the
|
|
user) the handle() method is called with FL_HIDE and
|
|
FL_SHOW events and visible() is turned on and off.
|
|
|
|
There is no way to control what is drawn in the icon except with the
|
|
string passed to Fl_Window::xclass(). You should not rely on
|
|
window managers displaying the icons.
|
|
*/
|
|
void iconize();
|
|
|
|
int x_root() const ;
|
|
int y_root() const ;
|
|
|
|
static Fl_Window *current();
|
|
/**
|
|
Sets things up so that the drawing functions in <FL/fl_draw.H> will go
|
|
into this window. This is useful for incremental update of windows, such
|
|
as in an idle callback, which will make your program behave much better
|
|
if it draws a slow graphic. <B>Danger: incremental update is very hard to
|
|
debug and maintain!</B>
|
|
|
|
This method only works for the Fl_Window and Fl_Gl_Window derived classes.
|
|
*/
|
|
void make_current();
|
|
|
|
// Note: Doxygen docs in Fl_Widget.H to avoid redundancy.
|
|
virtual Fl_Window* as_window() { return this; }
|
|
|
|
/**
|
|
Changes the cursor for this window. This always calls the system, if
|
|
you are changing the cursor a lot you may want to keep track of how
|
|
you set it in a static variable and call this only if the new cursor
|
|
is different.
|
|
|
|
The type Fl_Cursor is an enumeration defined in <FL/Enumerations.H>.
|
|
|
|
\see cursor(const Fl_RGB_Image*, int, int), default_cursor()
|
|
*/
|
|
void cursor(Fl_Cursor);
|
|
void cursor(const Fl_RGB_Image*, int, int);
|
|
void default_cursor(Fl_Cursor);
|
|
|
|
/* for legacy compatibility */
|
|
void cursor(Fl_Cursor c, Fl_Color, Fl_Color=FL_WHITE);
|
|
void default_cursor(Fl_Cursor c, Fl_Color, Fl_Color=FL_WHITE);
|
|
|
|
static void default_callback(Fl_Window*, void* v);
|
|
|
|
/** Returns the window width including any frame added by the window manager.
|
|
|
|
Same as w() if applied to a subwindow.
|
|
*/
|
|
int decorated_w();
|
|
/** Returns the window height including any window title bar and any frame
|
|
added by the window manager.
|
|
|
|
Same as h() if applied to a subwindow.
|
|
*/
|
|
int decorated_h();
|
|
|
|
};
|
|
|
|
#endif
|
|
|
|
//
|
|
// End of "$Id$".
|
|
//
|