///////////////////////////////////////////////////////////////////////////// // Name: glcanvas.cpp // Purpose: wxGLCanvas, for using OpenGL/Mesa with wxWindows and GTK // Author: Robert Roebling // Modified by: // Created: 17/08/98 // RCS-ID: $Id$ // Copyright: (c) Robert Roebling // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// #ifdef __GNUG__ #pragma implementation "glcanvas.h" #endif #include "glcanvas.h" #include "wx/frame.h" #include "wx/colour.h" #include "wx/module.h" #include "wx/app.h" extern "C" { #include "gtk/gtk.h" #include "gdk/gdk.h" #include "gdk/gdkx.h" } #include "wx/gtk/win_gtk.h" //--------------------------------------------------------------------------- // global data //--------------------------------------------------------------------------- XVisualInfo *g_vi = (XVisualInfo*) NULL; //----------------------------------------------------------------------------- // idle system //----------------------------------------------------------------------------- extern void wxapp_install_idle_handler(); extern bool g_isIdle; //--------------------------------------------------------------------------- // wxGLContext //--------------------------------------------------------------------------- IMPLEMENT_CLASS(wxGLContext,wxObject) wxGLContext::wxGLContext( bool WXUNUSED(isRGB), wxWindow *win, const wxPalette& WXUNUSED(palette) ) { m_window = win; m_widget = win->m_wxwindow; wxGLCanvas *gc = (wxGLCanvas*) win; XVisualInfo *vi = (XVisualInfo *) gc->m_vi; wxCHECK_RET( vi, "invalid visual for OpenGl" ); m_glContext = glXCreateContext( GDK_DISPLAY(), vi, None, GL_TRUE ); wxCHECK_RET( m_glContext, "Couldn't create OpenGl context" ); } wxGLContext::wxGLContext( bool WXUNUSED(isRGB), wxWindow *win, const wxPalette& WXUNUSED(palette), const wxGLContext *other /* for sharing display lists */ ) { m_window = win; m_widget = win->m_wxwindow; wxGLCanvas *gc = (wxGLCanvas*) win; XVisualInfo *vi = (XVisualInfo *) gc->m_vi; wxCHECK_RET( vi, "invalid visual for OpenGl" ); if( other != 0 ) m_glContext = glXCreateContext( GDK_DISPLAY(), vi, other->m_glContext, GL_TRUE ); else m_glContext = glXCreateContext( GDK_DISPLAY(), vi, None, GL_TRUE ); wxCHECK_RET( m_glContext, "Couldn't create OpenGl context" ); } wxGLContext::~wxGLContext() { if (!m_glContext) return; if (m_glContext == glXGetCurrentContext()) { glXMakeCurrent( GDK_DISPLAY(), None, NULL); } glXDestroyContext( GDK_DISPLAY(), m_glContext ); } void wxGLContext::SwapBuffers() { if (m_glContext) { GdkWindow *window = GTK_PIZZA(m_widget)->bin_window; glXSwapBuffers( GDK_DISPLAY(), GDK_WINDOW_XWINDOW( window ) ); } } void wxGLContext::SetCurrent() { if (m_glContext) { GdkWindow *window = GTK_PIZZA(m_widget)->bin_window; glXMakeCurrent( GDK_DISPLAY(), GDK_WINDOW_XWINDOW(window), m_glContext ); } } void wxGLContext::SetColour(const char *colour) { float r = 0.0; float g = 0.0; float b = 0.0; wxColour *col = wxTheColourDatabase->FindColour(colour); if (col) { r = (float)(col->Red()/256.0); g = (float)(col->Green()/256.0); b = (float)(col->Blue()/256.0); glColor3f( r, g, b); } } void wxGLContext::SetupPixelFormat() { } void wxGLContext::SetupPalette( const wxPalette& WXUNUSED(palette) ) { } wxPalette wxGLContext::CreateDefaultPalette() { return wxNullPalette; } //----------------------------------------------------------------------------- // "realize" from m_wxwindow //----------------------------------------------------------------------------- static gint gtk_glwindow_realized_callback( GtkWidget * WXUNUSED(widget), wxGLCanvas *win ) { win->m_glContext = new wxGLContext( TRUE, win, wxNullPalette, win->m_sharedContext ); return FALSE; } //----------------------------------------------------------------------------- // "map" from m_wxwindow //----------------------------------------------------------------------------- static gint gtk_glwindow_map_callback( GtkWidget * WXUNUSED(widget), wxGLCanvas *win ) { if (win->m_glContext/* && win->m_exposed*/) { wxPaintEvent event( win->GetId() ); event.SetEventObject( win ); win->GetEventHandler()->ProcessEvent( event ); win->m_exposed = FALSE; win->GetUpdateRegion().Clear(); } return FALSE; } //----------------------------------------------------------------------------- // "expose_event" of m_wxwindow //----------------------------------------------------------------------------- static void gtk_glwindow_expose_callback( GtkWidget *WXUNUSED(widget), GdkEventExpose *gdk_event, wxGLCanvas *win ) { if (g_isIdle) wxapp_install_idle_handler(); win->m_exposed = TRUE; win->GetUpdateRegion().Union( gdk_event->area.x, gdk_event->area.y, gdk_event->area.width, gdk_event->area.height ); } //----------------------------------------------------------------------------- // "draw" of m_wxwindow //----------------------------------------------------------------------------- static void gtk_glwindow_draw_callback( GtkWidget *WXUNUSED(widget), GdkRectangle *rect, wxGLCanvas *win ) { if (g_isIdle) wxapp_install_idle_handler(); win->m_exposed = TRUE; win->GetUpdateRegion().Union( rect->x, rect->y, rect->width, rect->height ); } //----------------------------------------------------------------------------- // "size_allocate" of m_wxwindow //----------------------------------------------------------------------------- static void gtk_glcanvas_size_callback( GtkWidget *WXUNUSED(widget), GtkAllocation* alloc, wxGLCanvas *win ) { if (g_isIdle) wxapp_install_idle_handler(); if (!win->m_hasVMT) return; wxSizeEvent event( wxSize(win->m_width,win->m_height), win->GetId() ); event.SetEventObject( win ); win->GetEventHandler()->ProcessEvent( event ); } //--------------------------------------------------------------------------- // wxGlCanvas //--------------------------------------------------------------------------- IMPLEMENT_CLASS(wxGLCanvas, wxScrolledWindow) BEGIN_EVENT_TABLE(wxGLCanvas, wxScrolledWindow) EVT_SIZE(wxGLCanvas::OnSize) END_EVENT_TABLE() wxGLCanvas::wxGLCanvas( wxWindow *parent, wxWindowID id, const wxPoint& pos, const wxSize& size, long style, const wxString& name, int *attribList, const wxPalette& palette ) { Create( parent, NULL, id, pos, size, style, name, attribList, palette ); } wxGLCanvas::wxGLCanvas( wxWindow *parent, const wxGLContext *shared, wxWindowID id, const wxPoint& pos, const wxSize& size, long style, const wxString& name, int *attribList, const wxPalette& palette ) { Create( parent, shared, id, pos, size, style, name, attribList, palette ); } bool wxGLCanvas::Create( wxWindow *parent, const wxGLContext *shared, wxWindowID id, const wxPoint& pos, const wxSize& size, long style, const wxString& name, int *attribList, const wxPalette& palette) { m_sharedContext = (wxGLContext*)shared; // const_cast m_glContext = (wxGLContext*) NULL; m_exposed = FALSE; m_noExpose = TRUE; m_nativeSizeEvent = TRUE; if (!attribList) { int data[] = { GLX_RGBA, GLX_DOUBLEBUFFER, GLX_DEPTH_SIZE, 1, // use largest available depth buffer GLX_RED_SIZE, 1, GLX_GREEN_SIZE, 1, GLX_BLUE_SIZE, 1, GLX_ALPHA_SIZE, 0, None }; attribList = (int*) data; } else { int data[512], arg=0, p=0; while( (attribList[arg]!=0) && (p<512) ) { switch( attribList[arg++] ) { case WX_GL_RGBA: data[p++] = GLX_RGBA; break; case WX_GL_DOUBLEBUFFER: data[p++] = GLX_DOUBLEBUFFER; break; case WX_GL_DEPTH_SIZE: data[p++]=GLX_DEPTH_SIZE; data[p++]=attribList[arg++]; break; case WX_GL_MIN_RED: data[p++]=GLX_RED_SIZE; data[p++]=attribList[arg++]; break; case WX_GL_MIN_GREEN: data[p++]=GLX_GREEN_SIZE; data[p++]=attribList[arg++]; break; case WX_GL_MIN_BLUE: data[p++]=GLX_BLUE_SIZE; data[p++]=attribList[arg++]; break; default: break; } } data[p] = 0; attribList = (int*) data; } Display *dpy = GDK_DISPLAY(); XVisualInfo *vi = glXChooseVisual( dpy, DefaultScreen(dpy), attribList ); m_vi = vi; // safe for later use wxCHECK_MSG( m_vi, FALSE, "required visual couldn't be found" ); GdkVisual *visual = gdkx_visual_get( vi->visualid ); GdkColormap *colormap = gdk_colormap_new( gdkx_visual_get(vi->visualid), TRUE ); gtk_widget_push_colormap( colormap ); gtk_widget_push_visual( visual ); wxScrolledWindow::Create( parent, id, pos, size, style, name ); m_glWidget = m_wxwindow; gtk_pizza_set_clear( GTK_PIZZA(m_wxwindow), FALSE ); gtk_signal_connect( GTK_OBJECT(m_wxwindow), "realize", GTK_SIGNAL_FUNC(gtk_glwindow_realized_callback), (gpointer) this ); gtk_signal_connect( GTK_OBJECT(m_wxwindow), "map", GTK_SIGNAL_FUNC(gtk_glwindow_map_callback), (gpointer) this ); gtk_signal_connect( GTK_OBJECT(m_wxwindow), "expose_event", GTK_SIGNAL_FUNC(gtk_glwindow_expose_callback), (gpointer)this ); gtk_signal_connect( GTK_OBJECT(m_wxwindow), "draw", GTK_SIGNAL_FUNC(gtk_glwindow_draw_callback), (gpointer)this ); gtk_signal_connect( GTK_OBJECT(m_widget), "size_allocate", GTK_SIGNAL_FUNC(gtk_glcanvas_size_callback), (gpointer)this ); gtk_widget_pop_visual(); gtk_widget_pop_colormap(); return TRUE; } wxGLCanvas::~wxGLCanvas() { XVisualInfo *vi = (XVisualInfo *) m_vi; if (vi) XFree( vi ); if (m_glContext) delete m_glContext; } void wxGLCanvas::SwapBuffers() { if (m_glContext) m_glContext->SwapBuffers(); } void wxGLCanvas::OnSize(wxSizeEvent& WXUNUSED(event)) { int width, height; GetClientSize( &width, &height ); if (m_glContext && GTK_WIDGET_REALIZED(m_glWidget) ) { SetCurrent(); glViewport(0, 0, (GLint)width, (GLint)height ); glMatrixMode(GL_PROJECTION); glLoadIdentity(); glFrustum( -1.0, 1.0, -1.0, 1.0, 5.0, 15.0 ); glMatrixMode(GL_MODELVIEW); } } void wxGLCanvas::SetCurrent() { if (m_glContext) m_glContext->SetCurrent(); } void wxGLCanvas::SetColour( const char *colour ) { if (m_glContext) m_glContext->SetColour( colour ); } void wxGLCanvas::OnInternalIdle() { if (m_glContext && m_exposed) { wxPaintEvent event( GetId() ); event.SetEventObject( this ); GetEventHandler()->ProcessEvent( event ); m_exposed = FALSE; GetUpdateRegion().Clear(); } wxWindow::OnInternalIdle(); }