From 0b6b69caaa4de4cd3bf5a2e2ebb1a94b1132e823 Mon Sep 17 00:00:00 2001
From: Matthias Melcher <fltk@matthiasm.com>
Date: Sat, 8 Jan 2011 16:31:55 +0000
Subject: Accidentaly copied here

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-/**
-
- \page basics FLTK Basics
- 
-This chapter teaches you the basics of compiling programs
-that use FLTK.
-
-\section basics_writing Writing Your First FLTK Program
-
-All programs must include the file <tt><FL/Fl.H></tt>.
-In addition the program must include a header file for each
-FLTK class it uses. Listing 1 shows a simple "Hello,
-World!" program that uses FLTK to display the window.
-
-\par Listing 1 - "hello.cxx"
-\code
-#include <FL/Fl.H>
-#include <FL/Fl_Window.H>
-#include <FL/Fl_Box.H>
-
-int main(int argc, char **argv) {
-  Fl_Window *window = new Fl_Window(340,180);
-  Fl_Box *box = new Fl_Box(20,40,300,100,"Hello, World!");
-  box->box(FL_UP_BOX);
-  box->labelfont(FL_BOLD+FL_ITALIC);
-  box->labelsize(36);
-  box->labeltype(FL_SHADOW_LABEL);
-  window->end();
-  window->show(argc, argv);
-  return Fl::run();
-}
-\endcode
-
-<!-- NEED 2in -->
-
-After including the required header files, the program then creates a
-window. All following widgets will automatically be children of this window.
-
-\code
-Fl_Window *window = new Fl_Window(340,180);
-\endcode
-
-Then we create a box with the "Hello, World!" string in it. FLTK automatically
-adds the new box to \p window, the current grouping widget.
-
-\code
-Fl_Box *box = new Fl_Box(20,40,300,100,"Hello, World!");
-\endcode
-
-Next, we set the type of box and the font, size, and style of the label:
-
-\code
-box->box(FL_UP_BOX);
-box->labelfont(FL_BOLD+FL_ITALIC);
-box->labelsize(36);
-box->labeltype(FL_SHADOW_LABEL);
-\endcode
-
-We tell FLTK that we will not add any more widgets to \p window.
-
-\code
-window->end();
-\endcode
-
-Finally, we show the window and enter the FLTK event loop:
-
-\code
-window->show(argc, argv);
-return Fl::run();
-\endcode
-
-The resulting program will display the window in Figure 2-1.
-You can quit the program by closing the window or pressing the
-<tt>ESC</tt>ape key.
-
-\image html hello.C.png "Figure 2-1: The Hello, World! Window"
-\image latex hello.C.png "The Hello, World! Window" width=8cm
-
-\subsection basics_creating Creating the Widgets
-
-The widgets are created using the C++ \p new operator.  For
-most widgets the arguments to the constructor are:
-
-\code
-Fl_Widget(x, y, width, height, label)
-\endcode
-
-The \p x and \p y parameters determine where the
-widget or window is placed on the screen. In FLTK the top left
-corner of the window or screen is the origin
-(i.e. <tt>x = 0, y = 0</tt>)
-and the units are in pixels.
-
-The \p width and \p height parameters determine
-the size of the widget or window in pixels. The maximum widget
-size is typically governed by the underlying window system or
-hardware.
-
-\p label is a pointer to a character string to label
-the widget with or \p NULL. If not specified the label
-defaults to \p NULL. The label string must be in static
-storage such as a string constant because FLTK does not make a
-copy of it - it just uses the pointer.
-
-\subsection basics_hierarchies Creating Widget hierarchies
-
-Widgets are commonly ordered into functional groups, which 
-in turn may be grouped again, creating a hierarchy of widgets. 
-FLTK makes it easy to fill groups by automatically adding all widgets 
-that are created between a
-<tt>myGroup->begin()</tt>
-and 
-<tt>myGroup->end()</tt>.
-In this example, \p myGroup would be the \e current group.
-
-Newly created groups and their derived widgets implicitly call
-\p begin() in the constructor, effectively adding all 
-subsequently created widgets to itself until \p end()
-is called.
-
-Setting the current group to \p NULL will stop automatic
-hierarchies. New widgets can now be added manually using 
-<tt>Fl_Group::add(...)</tt>
-and
-<tt>Fl_Group::insert(...)</tt>.
-
-\subsection basics_getset Get/Set Methods
-
-<tt>box->box(FL_UP_BOX)</tt>
-sets the type of box the Fl_Box draws, changing it from the default of
-\p FL_NO_BOX, which means that no box is drawn. In our
-"Hello, World!" example we use \p FL_UP_BOX,
-which means that a raised button border will be drawn around
-the widget. More details are available in the
-\ref common_boxtypes
-section.
-
-You could examine the boxtype in by doing
-<tt>box->box()</tt>. FLTK uses method name overloading to make
-short names for get/set methods. A "set" method is always of
-the form "void name(type)", and a "get" method is always
-of the form "type name() const".
-
-\subsection basics_redrawing Redrawing After Changing Attributes
-
-Almost all of the set/get pairs are very fast, short inline
-functions and thus very efficient. However, <i>the "set" methods
-do not call \p redraw()</i> - you have to call it
-yourself. This greatly reduces code size and execution time. The
-only common exceptions are \p value() which calls
-\p redraw() and \p label() which calls
-\p redraw_label() if necessary.
-
-\subsection basics_labels Labels
-
-All widgets support labels. In the case of window widgets,
-the label is used for the label in the title bar. Our example
-program calls the \p labelfont(), \p labelsize(),
-and \p labeltype() methods.
-
-The \p labelfont() method sets the typeface and style
-that is used for the label, which for this example we are using
-\p FL_BOLD and \p FL_ITALIC. You can also specify
-typefaces directly.
-
-The \p labelsize() method sets the height of the font in pixels.
-
-The \p labeltype()
-method sets the type of label. FLTK supports normal, embossed,
-and shadowed labels internally, and more types can be added as
-desired.
-
-A complete list of all label options can be found in the section on
-\ref common_labels.
-
-\subsection basics_showing Showing the Window
-
-The \p show() method shows the widget or window. For windows
-you can also provide the command-line arguments to allow users to
-customize the appearance, size, and position of your windows.
-
-\subsection basics_eventloop The Main Event Loop
-
-All FLTK applications (and most GUI applications in general)
-are based on a simple event processing model. User actions such
-as mouse movement, button clicks, and keyboard activity generate
-events that are sent to an application. The application may then
-ignore the events or respond to the user, typically by redrawing
-a button in the "down" position, adding the text to an input
-field, and so forth.
-
-FLTK also supports idle, timer, and file pseudo-events that
-cause a function to be called when they occur. Idle functions
-are called when no user input is present and no timers or files
-need to be handled - in short, when the application is not doing
-anything. Idle callbacks are often used to update a 3D display
-or do other background processing.
-
-Timer functions are called after a specific amount of time
-has expired. They can be used to pop up a progress dialog after
-a certain amount of time or do other things that need to happen
-at more-or-less regular intervals. FLTK timers are not 100%
-accurate, so they should not be used to measure time intervals,
-for example.
-
-File functions are called when data is ready to read or
-write, or when an error condition occurs on a file. They are
-most often used to monitor network connections (sockets) for
-data-driven displays.
-
-FLTK applications must periodically check (Fl::check()) 
-or wait (Fl::wait()) for events or use the Fl::run()
-method to enter a standard event processing loop. Calling
-Fl::run() is equivalent to the following code:
-
-\code
-while (Fl::wait());
-\endcode
-
-Fl::run() does not return until all of the windows
-under FLTK control are closed by the user or your program.
-
-\section basics_standard_compiler Compiling Programs with Standard Compilers
-
-Under UNIX (and under Microsoft Windows when using the GNU development
-tools) you will probably need to tell the compiler where to find the
-header files. This is usually done using the \p -I option:
-
-\code
-CC -I/usr/local/include ...
-gcc -I/usr/local/include ...
-\endcode
-
-The \p fltk-config script included with FLTK can be
-used to get the options that are required by your compiler:
-
-\code
-CC `fltk-config --cxxflags` ...
-\endcode
-
-Similarly, when linking your application you will need to tell the
-compiler to use the FLTK library:
-
-\code
-CC  ... -L/usr/local/lib -lfltk -lXext -lX11 -lm
-gcc ... -L/usr/local/lib -lfltk -lXext -lX11 -lm
-\endcode
-
-Aside from the "fltk" library, there is also a "fltk_forms"
-library for the XForms compatibility classes, "fltk_gl" for the
-OpenGL and GLUT classes, and "fltk_images" for the image file
-classes, Fl_Help_Dialog widget, and system icon support.
-
-\note
-The libraries are named "fltk.lib", "fltkgl.lib", "fltkforms.lib",
-and "fltkimages.lib", respectively under Windows.
-
-As before, the \p fltk-config script included with FLTK can be
-used to get the options that are required by your linker:
-
-\code
-CC ... `fltk-config --ldflags`
-\endcode
-
-<!-- NEED 2in -->
-
-The forms, GL, and images libraries are included with the "--use-foo"
-options, as follows:
-
-\code
-CC ... `fltk-config --use-forms --ldflags`
-CC ... `fltk-config --use-gl --ldflags`
-CC ... `fltk-config --use-images --ldflags`
-CC ... `fltk-config --use-forms --use-gl --use-images --ldflags`
-\endcode
-
-Finally, you can use the \p fltk-config script to
-compile a single source file as a FLTK program:
-
-\code
-fltk-config --compile filename.cpp
-fltk-config --use-forms --compile filename.cpp
-fltk-config --use-gl --compile filename.cpp
-fltk-config --use-images --compile filename.cpp
-fltk-config --use-forms --use-gl --use-images --compile filename.cpp
-\endcode
-
-Any of these will create an executable named \p filename.
-
-\section basics_makefile Compiling Programs with Makefiles
-
-The previous section described how to use \p fltk-config to
-build a program consisting of a single source file from the command
-line, and this is very convenient for small test programs.
-But \p fltk-config can also be used to set the compiler and
-linker options as variables within a \p Makefile that can be
-used to build programs out of multiple source files:
-
-\code
-CXX      = $(shell fltk-config --cxx)
-DEBUG    = -g
-CXXFLAGS = $(shell fltk-config --use-gl --use-images --cxxflags ) -I.
-LDFLAGS  = $(shell fltk-config --use-gl --use-images --ldflags )
-LDSTATIC = $(shell fltk-config --use-gl --use-images --ldstaticflags )
-LINK     = $(CXX)
-
-TARGET = cube
-OBJS = CubeMain.o CubeView.o CubeViewUI.o
-SRCS = CubeMain.cxx CubeView.cxx CubeViewUI.cxx
-
-.SUFFIXES: .o .cxx
-%.o: %.cxx
-	$(CXX) $(CXXFLAGS) $(DEBUG) -c $<
-
-all: $(TARGET)
-	$(LINK) -o $(TARGET) $(OBJS) $(LDSTATIC)
-
-$(TARGET): $(OBJS)
-CubeMain.o: CubeMain.cxx CubeViewUI.h
-CubeView.o: CubeView.cxx CubeView.h CubeViewUI.h
-CubeViewUI.o: CubeViewUI.cxx CubeView.h
-
-clean: $(TARGET) $(OBJS)
-	rm -f *.o 2> /dev/null
-	rm -f $(TARGET) 2> /dev/null
-\endcode
-
-\section basics_visual_cpp Compiling Programs with Microsoft Visual C++
-
-In Visual C++ you will need to tell the compiler where to
-find the FLTK header files. This can be done by selecting
-"Settings" from the "Project" menu and then changing the 
-"Preprocessor" settings under the "C/C++" tab. You will also 
-need to add the FLTK (<tt>FLTK.LIB</tt> or <tt>FLTKD.LIB</tt>) and the Windows
-Common Controls (<tt>COMCTL32.LIB</tt>) libraries to the "Link" settings.
-You must also define <tt>WIN32</tt>.
-
-More information can be found in <tt>README.MSWindows.txt</tt>.
-
-You can build your Microsoft Windows applications as Console or
-Desktop applications.  If you want to use the standard C \p main()
-function as the entry point, FLTK includes a \p WinMain()
-function that will call your \p main() function for you.
-
-\section basics_naming Naming
-
-All public symbols in FLTK start with the characters 'F' and 'L':
-
-\li Functions are either \p Fl::foo() or \p fl_foo().
-
-\li Class and type names are capitalized: \p Fl_Foo.
-
-\li \ref enumerations "Constants and enumerations"
-    are uppercase: \p FL_FOO.
-
-\li All header files start with <tt><FL/...></tt>.
-
-<!-- NEED 5in -->
-
-\section basics_headerfiles Header Files
-
-The proper way to include FLTK header files is:
-
-\code
-#include <FL/Fl_xyz.H>
-\endcode
-
-\note
-Case \e is significant on many operating systems,
-and the C standard uses the forward slash (/) to
-separate directories. <i>Do not use any of the following
-include lines:</i>
-
-\code
-#include <FL\Fl_xyz.H>
-#include <fl/fl_xyz.h>
-#include <Fl/fl_xyz.h>
-\endcode
-
-
-\htmlonly
-<hr>
-<table summary="navigation bar" width="100%" border="0">
-<tr>
-  <td width="45%" align="LEFT">
-    <a class="el" href="intro.html">
-    [Prev]
-    Introduction to FLTK
-    </a>
-  </td>
-  <td width="10%" align="CENTER">
-    <a class="el" href="main.html">[Index]</a>
-  </td>
-  <td width="45%" align="RIGHT">
-    <a class="el" href="common.html">
-    Common Widgets and Attributes
-    [Next]
-    </a>
-  </td>
-</tr>
-</table>
-\endhtmlonly
-
-*/
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