ref: f04872b91bf98edcce130faf9756e1fc71eb2ede
dir: /DoConfig/fltk/documentation/src/basics.dox/
/**
\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 4.1.
You can quit the program by closing the window or pressing the
<tt>ESC</tt>ape key.
\image html hello_cxx.png "Figure 4.1: The Hello, World! Window"
\image latex hello_cxx.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
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Common Widgets and Attributes
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