GLAreaRef
public struct GLAreaRef : GLAreaProtocol, GWeakCapturing
GtkGLArea
is a widget that allows drawing with OpenGL.
GtkGLArea
sets up its own GdkGLContext
for the window it creates, and
creates a custom GL framebuffer that the widget will do GL rendering onto.
It also ensures that this framebuffer is the default GL rendering target
when rendering.
In order to draw, you have to connect to the GtkGLArea::render
signal,
or subclass GtkGLArea
and override the GtkGLAreaClass.render
()
virtual
function.
The GtkGLArea
widget ensures that the GdkGLContext
is associated with
the widget’s drawing area, and it is kept updated when the size and
position of the drawing area changes.
Drawing with GtkGLArea
The simplest way to draw using OpenGL commands in a GtkGLArea
is to
create a widget instance and connect to the GtkGLArea::render
signal:
(C Language Example):
// create a GtkGLArea instance
GtkWidget *gl_area = gtk_gl_area_new ();
// connect to the "render" signal
g_signal_connect (gl_area, "render", G_CALLBACK (render), NULL);
The render()
function will be called when the GtkGLArea
is ready
for you to draw its content:
(C Language Example):
static gboolean
render (GtkGLArea *area, GdkGLContext *context)
{
// inside this function it's safe to use GL; the given
// #GdkGLContext has been made current to the drawable
// surface used by the #GtkGLArea and the viewport has
// already been set to be the size of the allocation
// we can start by clearing the buffer
glClearColor (0, 0, 0, 0);
glClear (GL_COLOR_BUFFER_BIT);
// draw your object
draw_an_object ();
// we completed our drawing; the draw commands will be
// flushed at the end of the signal emission chain, and
// the buffers will be drawn on the window
return TRUE;
}
If you need to initialize OpenGL state, e.g. buffer objects or
shaders, you should use the GtkWidget::realize
signal; you
can use the GtkWidget::unrealize
signal to clean up. Since the
GdkGLContext
creation and initialization may fail, you will
need to check for errors, using gtk_gl_area_get_error()
. An example
of how to safely initialize the GL state is:
(C Language Example):
static void
on_realize (GtkGLarea *area)
{
// We need to make the context current if we want to
// call GL API
gtk_gl_area_make_current (area);
// If there were errors during the initialization or
// when trying to make the context current, this
// function will return a #GError for you to catch
if (gtk_gl_area_get_error (area) != NULL)
return;
// You can also use gtk_gl_area_set_error() in order
// to show eventual initialization errors on the
// GtkGLArea widget itself
GError *internal_error = NULL;
init_buffer_objects (&error);
if (error != NULL)
{
gtk_gl_area_set_error (area, error);
g_error_free (error);
return;
}
init_shaders (&error);
if (error != NULL)
{
gtk_gl_area_set_error (area, error);
g_error_free (error);
return;
}
}
If you need to change the options for creating the GdkGLContext
you should use the GtkGLArea::create-context
signal.
The GLAreaRef
type acts as a lightweight Swift reference to an underlying GtkGLArea
instance.
It exposes methods that can operate on this data type through GLAreaProtocol
conformance.
Use GLAreaRef
only as an unowned
reference to an existing GtkGLArea
instance.
-
Untyped pointer to the underlying `GtkGLArea` instance.
For type-safe access, use the generated, typed pointer
gl_area_ptr
property instead.Declaration
Swift
public let ptr: UnsafeMutableRawPointer!
-
Designated initialiser from the underlying
C
data typeDeclaration
Swift
@inlinable init(_ p: UnsafeMutablePointer<GtkGLArea>)
-
Designated initialiser from a constant pointer to the underlying
C
data typeDeclaration
Swift
@inlinable init(_ p: UnsafePointer<GtkGLArea>)
-
Conditional initialiser from an optional pointer to the underlying
C
data typeDeclaration
Swift
@inlinable init!(_ maybePointer: UnsafeMutablePointer<GtkGLArea>?)
-
Conditional initialiser from an optional, non-mutable pointer to the underlying
C
data typeDeclaration
Swift
@inlinable init!(_ maybePointer: UnsafePointer<GtkGLArea>?)
-
Conditional initialiser from an optional
gpointer
Declaration
Swift
@inlinable init!(gpointer g: gpointer?)
-
Conditional initialiser from an optional, non-mutable
gconstpointer
Declaration
Swift
@inlinable init!(gconstpointer g: gconstpointer?)
-
Reference intialiser for a related type that implements
GLAreaProtocol
Declaration
Swift
@inlinable init<T>(_ other: T) where T : GLAreaProtocol
-
This factory is syntactic sugar for setting weak pointers wrapped in
GWeak<T>
Declaration
Swift
@inlinable static func unowned<T>(_ other: T) -> GLAreaRef where T : GLAreaProtocol
-
Unsafe typed initialiser. Do not use unless you know the underlying data type the pointer points to conforms to
GLAreaProtocol
.Declaration
Swift
@inlinable init<T>(cPointer: UnsafeMutablePointer<T>)
-
Unsafe typed initialiser. Do not use unless you know the underlying data type the pointer points to conforms to
GLAreaProtocol
.Declaration
Swift
@inlinable init<T>(constPointer: UnsafePointer<T>)
-
Unsafe untyped initialiser. Do not use unless you know the underlying data type the pointer points to conforms to
GLAreaProtocol
.Declaration
Swift
@inlinable init(mutating raw: UnsafeRawPointer)
-
Unsafe untyped initialiser. Do not use unless you know the underlying data type the pointer points to conforms to
GLAreaProtocol
.Declaration
Swift
@inlinable init(raw: UnsafeMutableRawPointer)
-
Unsafe untyped initialiser. Do not use unless you know the underlying data type the pointer points to conforms to
GLAreaProtocol
.Declaration
Swift
@inlinable init(opaquePointer: OpaquePointer)
-
Creates a new
GtkGLArea
widget.Declaration
Swift
@inlinable init()