lyx_mirror/src/frontends/gnome/GUIRunTime.C

175 lines
4.2 KiB
C++
Raw Normal View History

/* This file is part of
* ======================================================
*
* LyX, The Document Processor
*
* Copyright 2000 The LyX Team.
*
*======================================================*/
#include <config.h>
#ifdef __GNUG__
#pragma implementation
#endif
#include FORMS_H_LOCATION
#include "GUIRunTime.h"
#include "debug.h"
#include <gnome--/main.h>
#include <glade/glade.h>
#include "graphics/GraphicsImageXPM.h"
using std::endl;
// I keep these here so that it will be processed as early in
// the compilation process as possible.
#if !defined(FL_REVISION) || FL_REVISION < 88 || FL_VERSION != 0
#error LyX will not compile with this version of XForms.\
Please get version 0.89.\
If you want to try to compile anyway, delete this test in src/frontends/gnome/GUIRunTime.C.
#endif
extern bool finished;
namespace {
int const xforms_include_version = FL_INCLUDE_VERSION;
} // namespace anon
int GUIRunTime::initApplication(int &, char * argv[])
{
// Check the XForms version in the forms.h header against
// the one in the libforms. If they don't match quit the
// execution of LyX. Better with a clean fast exit than
// a strange segfault later.
// I realize that this check have to be moved when we
// support several toolkits, but IMO all the toolkits
// should try to have the same kind of check. This could
// be done by having a CheckHeaderAndLib function in
// all the toolkit implementations, this function is
// responsible for notifing the user.
// if (!CheckHeaderAndLib()) {
// // header vs. lib version failed
// return 1;
// }
int xforms_lib_version = fl_library_version(0, 0);
if (xforms_include_version != xforms_lib_version) {
cerr << "You are either running LyX with wrong "
"version of a dynamic XForms library\n"
"or you have build LyX with conflicting header "
"and library (different\n"
"versions of XForms. Sorry but there is no point "
"in continuing executing LyX!" << endl;
return 1;
}
// I belive that this should be done at a later stage, in
// lyx_gui, the same place as xforms does the same. (Lgb)
string app_id(PACKAGE);
string app_version(VERSION);
static Gnome::Main a(app_id, app_version, 1, argv);
glade_gnome_init(); // Initialize the glade library.
return 0;
}
void GUIRunTime::processEvents()
{
while (Gnome::Main::instance()->events_pending())
Gnome::Main::instance()->iteration(FALSE);
}
void GUIRunTime::runTime()
{
XEvent ev;
while (!finished) {
processEvents();
if (fl_check_forms() == FL_EVENT) {
fl_XNextEvent(&ev);
lyxerr << "Received unhandled X11 event" << endl;
lyxerr << "Type: 0x" << hex << ev.xany.type <<
"Target: 0x" << hex << ev.xany.window << endl;
}
}
}
void GUIRunTime::setDefaults()
{
FL_IOPT cntl;
cntl.buttonFontSize = FL_NORMAL_SIZE;
cntl.browserFontSize = FL_NORMAL_SIZE;
cntl.labelFontSize = FL_NORMAL_SIZE;
cntl.choiceFontSize = FL_NORMAL_SIZE;
cntl.inputFontSize = FL_NORMAL_SIZE;
cntl.menuFontSize = FL_NORMAL_SIZE;
cntl.borderWidth = -1;
cntl.vclass = FL_DefaultVisual;
fl_set_defaults(FL_PDVisual
| FL_PDButtonFontSize
| FL_PDBrowserFontSize
| FL_PDLabelFontSize
| FL_PDChoiceFontSize
| FL_PDInputFontSize
| FL_PDMenuFontSize
| FL_PDBorderWidth, &cntl);
}
#include "XFormsView.h"
LyXView * GUIRunTime::createMainView(int w, int h)
{
return new XFormsView(w, h);
}
// Called bu the graphics cache to connect the approriate frontend
// image loading routines to the LyX kernel.
void GUIRunTime::initialiseGraphics()
{
using namespace grfx;
using SigC::slot;
// connect the image loader based on the XPM library
GImage::newImage.connect(slot(&GImageXPM::newImage));
GImage::loadableFormats.connect(slot(&GImageXPM::loadableFormats));
}
Display * GUIRunTime::x11Display()
{
return fl_get_display();
}
int GUIRunTime::x11Screen()
{
return fl_screen;
}
Colormap GUIRunTime::x11Colormap()
{
return fl_state[fl_get_vclass()].colormap;
}
int GUIRunTime::x11VisualDepth()
{
return fl_get_visual_depth();
}
float GUIRunTime::getScreenDPI()
{
Screen * scr = ScreenOfDisplay(fl_get_display(), fl_screen);
return ((HeightOfScreen(scr) * 25.4 / HeightMMOfScreen(scr)) +
(WidthOfScreen(scr) * 25.4 / WidthMMOfScreen(scr))) / 2;
}