int main(int argc, char **argv)
{
#ifdef MEMLEAK_CHECK
atexit(DumpUnfreed);
#endif
#ifdef OBJECT_DEBUG
atexit(object_dump);
#endif
gst_init(&argc, &argv);
// set pythonpath if unset
setenv("PYTHONPATH", eEnv::resolve("${libdir}/enigma2/python").c_str(), 0);
printf("PYTHONPATH: %s\n", getenv("PYTHONPATH"));
bsodLogInit();
ePython python;
eMain main;
#if 1
ePtr<gMainDC> my_dc;
gMainDC::getInstance(my_dc);
//int double_buffer = my_dc->haveDoubleBuffering();
ePtr<gLCDDC> my_lcd_dc;
gLCDDC::getInstance(my_lcd_dc);
/* ok, this is currently hardcoded for arabic. */
/* some characters are wrong in the regular font, force them to use the replacement font */
for (int i = 0x60c; i <= 0x66d; ++i)
eTextPara::forceReplacementGlyph(i);
eTextPara::forceReplacementGlyph(0xfdf2);
for (int i = 0xfe80; i < 0xff00; ++i)
eTextPara::forceReplacementGlyph(i);
// eWidgetDesktop dsk(eSize(720, 576));
eWidgetDesktop dsk(eSize(1280, 720));
eWidgetDesktop dsk_lcd(my_lcd_dc->size());
dsk.setStyleID(0);
dsk_lcd.setStyleID(my_lcd_dc->size().width() == 96 ? 2 : 1);
/* if (double_buffer)
{
eDebug(" - double buffering found, enable buffered graphics mode.");
dsk.setCompositionMode(eWidgetDesktop::cmBuffered);
} */
wdsk = &dsk;
lcddsk = &dsk_lcd;
dsk.setDC(my_dc);
dsk_lcd.setDC(my_lcd_dc);
dsk.setBackgroundColor(gRGB(0,0,0,0xFF));
#endif
/* redrawing is done in an idle-timer, so we have to set the context */
dsk.setRedrawTask(main);
dsk_lcd.setRedrawTask(main);
eDebug("Loading spinners...");
{
int i;
#define MAX_SPINNER 64
ePtr<gPixmap> wait[MAX_SPINNER];
for (i=0; i<MAX_SPINNER; ++i)
{
char filename[64];
std::string rfilename;
snprintf(filename, sizeof(filename), "${datadir}/enigma2/skin_default/spinner/wait%d.png", i + 1);
rfilename = eEnv::resolve(filename);
loadPNG(wait[i], rfilename.c_str());
if (!wait[i])
{
if (!i)
eDebug("failed to load %s! (%m)", rfilename.c_str());
else
eDebug("found %d spinner!\n", i);
break;
}
}
if (i)
my_dc->setSpinner(eRect(ePoint(100, 100), wait[0]->size()), wait, i);
else
my_dc->setSpinner(eRect(100, 100, 0, 0), wait, 1);
}
gRC::getInstance()->setSpinnerDC(my_dc);
eRCInput::getInstance()->keyEvent.connect(slot(keyEvent));
printf("executing main\n");
bsodCatchSignals();
setIoPrio(IOPRIO_CLASS_BE, 3);
// python.execute("mytest", "__main__");
python.execFile(eEnv::resolve("${libdir}/enigma2/python/mytest.py").c_str());
extern void setFullsize(); // definend in lib/gui/evideo.cpp
setFullsize();
if (exit_code == 5) /* python crash */
{
eDebug("(exit code 5)");
bsodFatal(0);
}
dsk.paint();
dsk_lcd.paint();
{
gPainter p(my_lcd_dc);
p.resetClip(eRect(ePoint(0, 0), my_lcd_dc->size()));
p.clear();
p.flush();
}
return exit_code;
}
int main(int argc, char **argv)
{
#ifdef MEMLEAK_CHECK
atexit(DumpUnfreed);
#endif
#ifdef OBJECT_DEBUG
atexit(object_dump);
#endif
#ifdef HAVE_GSTREAMER
gst_init(&argc, &argv);
#endif
// set pythonpath if unset
setenv("PYTHONPATH", LIBDIR "/enigma2/python", 0);
printf("PYTHONPATH: %s\n", getenv("PYTHONPATH"));
bsodLogInit();
ePython python;
eMain main;
#if 1
#ifdef WITH_SDL
ePtr<gSDLDC> my_dc;
gSDLDC::getInstance(my_dc);
#else
ePtr<gFBDC> my_dc;
gFBDC::getInstance(my_dc);
int double_buffer = my_dc->haveDoubleBuffering();
#endif
ePtr<gLCDDC> my_lcd_dc;
gLCDDC::getInstance(my_lcd_dc);
/* ok, this is currently hardcoded for arabic. */
/* some characters are wrong in the regular font, force them to use the replacement font */
for (int i = 0x60c; i <= 0x66d; ++i)
eTextPara::forceReplacementGlyph(i);
eTextPara::forceReplacementGlyph(0xfdf2);
for (int i = 0xfe80; i < 0xff00; ++i)
eTextPara::forceReplacementGlyph(i);
eWidgetDesktop dsk(eSize(720, 576));
eWidgetDesktop dsk_lcd(eSize(132, 64));
dsk.setStyleID(0);
dsk_lcd.setStyleID(1);
/* if (double_buffer)
{
eDebug(" - double buffering found, enable buffered graphics mode.");
dsk.setCompositionMode(eWidgetDesktop::cmBuffered);
} */
wdsk = &dsk;
lcddsk = &dsk_lcd;
dsk.setDC(my_dc);
dsk_lcd.setDC(my_lcd_dc);
ePtr<gPixmap> m_pm;
loadPNG(m_pm, DATADIR "/enigma2/skin_default/pal.png");
if (!m_pm)
{
eFatal("pal.png not found!");
} else
dsk.setPalette(*m_pm);
dsk.setBackgroundColor(gRGB(0,0,0,0xFF));
#endif
/* redrawing is done in an idle-timer, so we have to set the context */
dsk.setRedrawTask(main);
dsk_lcd.setRedrawTask(main);
eDebug("Loading spinners...");
{
int i;
#define MAX_SPINNER 64
ePtr<gPixmap> wait[MAX_SPINNER];
for (i=0; i<MAX_SPINNER; ++i)
{
char filename[strlen(DATADIR) + 41];
sprintf(filename, DATADIR "/enigma2/skin_default/spinner/wait%d.png", i + 1);
loadPNG(wait[i], filename);
if (!wait[i])
{
if (!i)
eDebug("failed to load %s! (%m)", filename);
else
eDebug("found %d spinner!\n", i);
break;
}
}
if (i)
my_dc->setSpinner(eRect(ePoint(100, 100), wait[0]->size()), wait, i);
else
my_dc->setSpinner(eRect(100, 100, 0, 0), wait, 1);
}
gRC::getInstance()->setSpinnerDC(my_dc);
eRCInput::getInstance()->keyEvent.connect(slot(keyEvent));
#if defined(__sh__)
evfd * vfd = new evfd;
vfd->init();
delete vfd;
#endif
printf("executing main\n");
bsodCatchSignals();
setIoPrio(IOPRIO_CLASS_BE, 3);
// python.execute("mytest", "__main__");
python.execFile("/usr/lib/enigma2/python/mytest.py");
if (exit_code == 5) /* python crash */
{
eDebug("(exit code 5)");
bsodFatal(0);
}
dsk.paint();
dsk_lcd.paint();
{
gPainter p(my_lcd_dc);
p.resetClip(eRect(0, 0, 132, 64));
p.clear();
}
return exit_code;
}
int main(int argc, char **argv)
{
#ifdef MEMLEAK_CHECK
atexit(DumpUnfreed);
#endif
#ifdef OBJECT_DEBUG
atexit(object_dump);
#endif
#ifndef ENABLE_LIBEPLAYER3
gst_init(&argc, &argv);
#endif
// set pythonpath if unset
setenv("PYTHONPATH", eEnv::resolve("${libdir}/enigma2/python").c_str(), 0);
printf("PYTHONPATH: %s\n", getenv("PYTHONPATH"));
printf("DVB_API_VERSION %d DVB_API_VERSION_MINOR %d\n", DVB_API_VERSION, DVB_API_VERSION_MINOR);
bsodLogInit();
CheckPrintkLevel();
ePython python;
eMain main;
#if 1
ePtr<gMainDC> my_dc;
gMainDC::getInstance(my_dc);
//int double_buffer = my_dc->haveDoubleBuffering();
ePtr<gLCDDC> my_lcd_dc;
gLCDDC::getInstance(my_lcd_dc);
/* ok, this is currently hardcoded for arabic. */
/* some characters are wrong in the regular font, force them to use the replacement font */
for (int i = 0x60c; i <= 0x66d; ++i)
eTextPara::forceReplacementGlyph(i);
eTextPara::forceReplacementGlyph(0xfdf2);
for (int i = 0xfe80; i < 0xff00; ++i)
eTextPara::forceReplacementGlyph(i);
eWidgetDesktop dsk(my_dc->size());
eWidgetDesktop dsk_lcd(my_lcd_dc->size());
dsk.setStyleID(0);
#ifdef HAVE_GRAPHLCD
dsk_lcd.setStyleID(my_lcd_dc->size().width() == 320 ? 1 : 2);
#else
dsk_lcd.setStyleID(my_lcd_dc->size().width() == 96 ? 2 : 1);
#endif
/* if (double_buffer)
{
eDebug("[MAIN] - double buffering found, enable buffered graphics mode.");
dsk.setCompositionMode(eWidgetDesktop::cmBuffered);
} */
wdsk = &dsk;
lcddsk = &dsk_lcd;
dsk.setDC(my_dc);
dsk_lcd.setDC(my_lcd_dc);
dsk.setBackgroundColor(gRGB(0,0,0,0xFF));
#endif
/* redrawing is done in an idle-timer, so we have to set the context */
dsk.setRedrawTask(main);
dsk_lcd.setRedrawTask(main);
eDebug("[MAIN] Loading spinners...");
{
unsigned int i = 0;
bool def = false;
const char *path = "${sysconfdir}/enigma2";
#define MAX_SPINNER 64
ePtr<gPixmap> wait[MAX_SPINNER];
while(i < MAX_SPINNER)
{
char filename[64];
std::string rfilename;
snprintf(filename, sizeof(filename), "%s/spinner/wait%d.png", path, i + 1);
rfilename = eEnv::resolve(filename);
loadPNG(wait[i], rfilename.c_str());
if (!wait[i])
{
if (!i)
{
if (def)
eDebug("[MAIN] failed to load %s! (%m)", rfilename.c_str());
else
{
def = true;
path = "${datadir}/enigma2/skin_default";
continue;
}
}
else
eDebug("[MAIN] found %d spinner!", i);
break;
}
i++;
}
if (i)
my_dc->setSpinner(eRect(ePoint(100, 100), wait[0]->size()), wait, i);
else
my_dc->setSpinner(eRect(100, 100, 0, 0), wait, 1);
}
gRC::getInstance()->setSpinnerDC(my_dc);
#ifdef ENABLE_SIGC2
eRCInput::getInstance()->keyEvent.connect(sigc::ptr_fun(keyEvent));
#else
eRCInput::getInstance()->keyEvent.connect(slot(keyEvent));
#endif
#if defined(__sh__) // initialise the vfd class
evfd * vfd = new evfd;
vfd->init();
delete vfd;
#endif
printf("[MAIN] executing main\n");
bsodCatchSignals();
catchTermSignal();
setIoPrio(IOPRIO_CLASS_BE, 3);
/* start at full size */
eVideoWidget::setFullsize(true);
// python.execute("mytest", "__main__");
python.execFile(eEnv::resolve("${libdir}/enigma2/python/mytest.py").c_str());
/* restore both decoders to full size */
eVideoWidget::setFullsize(true);
if (exit_code == 5) /* python crash */
{
eDebug("[MAIN] (exit code 5)");
bsodFatal(0);
}
dsk.paint();
dsk_lcd.paint();
{
gPainter p(my_lcd_dc);
p.resetClip(eRect(ePoint(0, 0), my_lcd_dc->size()));
p.clear();
p.flush();
}
return exit_code;
}
int main(int argc, char **argv)
{
#ifdef MEMLEAK_CHECK
atexit(DumpUnfreed);
#endif
#ifdef OBJECT_DEBUG
atexit(object_dump);
#endif
gst_init(&argc, &argv);
for (int i = 0; i < argc; i++)
{
if (!(strcmp(argv[i], "--debug-no-color")) or !(strcmp(argv[i], "--nc")))
{
logOutputColors = 0;
}
}
m_erroroutput = new eErrorOutput();
m_erroroutput->run();
// set pythonpath if unset
setenv("PYTHONPATH", eEnv::resolve("${libdir}/enigma2/python").c_str(), 0);
printf("PYTHONPATH: %s\n", getenv("PYTHONPATH"));
printf("DVB_API_VERSION %d DVB_API_VERSION_MINOR %d\n", DVB_API_VERSION, DVB_API_VERSION_MINOR);
bsodLogInit();
ePython python;
eMain main;
#if 1
ePtr<gMainDC> my_dc;
gMainDC::getInstance(my_dc);
//int double_buffer = my_dc->haveDoubleBuffering();
ePtr<gLCDDC> my_lcd_dc;
gLCDDC::getInstance(my_lcd_dc);
/* ok, this is currently hardcoded for arabic. */
/* some characters are wrong in the regular font, force them to use the replacement font */
for (int i = 0x60c; i <= 0x66d; ++i)
eTextPara::forceReplacementGlyph(i);
eTextPara::forceReplacementGlyph(0xfdf2);
for (int i = 0xfe80; i < 0xff00; ++i)
eTextPara::forceReplacementGlyph(i);
eWidgetDesktop dsk(my_dc->size());
eWidgetDesktop dsk_lcd(my_lcd_dc->size());
dsk.setStyleID(0);
dsk_lcd.setStyleID(my_lcd_dc->size().width() == 96 ? 2 : 1);
/* if (double_buffer)
{
eDebug(" - double buffering found, enable buffered graphics mode.");
dsk.setCompositionMode(eWidgetDesktop::cmBuffered);
} */
wdsk = &dsk;
lcddsk = &dsk_lcd;
dsk.setDC(my_dc);
dsk_lcd.setDC(my_lcd_dc);
dsk.setBackgroundColor(gRGB(0,0,0,0xFF));
#endif
/* redrawing is done in an idle-timer, so we have to set the context */
dsk.setRedrawTask(main);
dsk_lcd.setRedrawTask(main);
eDebug("Checking box...");
FILE *infile;
char line[100];
char command[64];
if((infile = fopen("/proc/stb/info/boxtype", "r")) != NULL)
{
fgets(line, sizeof(line), infile);
if(strcmp(line, "ini-5000sv\n") == 0)
{
eDebug("Miraclebox Premium Twin detected");
}
else if(strcmp(line, "ini-1000sv\n") == 0)
{
eDebug("Miraclebox Premium Mini detected");
}
else if(strcmp(line, "ini-2000sv\n") == 0)
{
eDebug("Miraclebox Premium Mini+ detected");
}
else if(strcmp(line, "ini-8000sv\n") == 0)
{
eDebug("Miraclebox Premium Ultra detected");
}
else if(strcmp(line, "7000S\n") == 0)
{
eDebug("Miraclebox Premium Micro detected");
}
else if(strcmp(line, "7005S\n") == 0)
{
eDebug("Miraclebox Premium Micro v2 detected");
}
else if(strcmp(line, "g300\n") == 0)
{
eDebug("Miraclebox Premium Twin+ detected");
}
else
{
eDebug("Wrong HW, this image can be only run on Miraclbox Premium Series");
sprintf(command, "showiframe /usr/share/enigma2/box.mvi > /dev/null");
system(command);
//sprintf(command, "flash_erase /dev/mtd/2 0 0");
//system(command);
//sprintf(command, "flash_erase /dev/mtd/4 0 0");
//system(command);
sprintf(command, "sleep 5;reboot -f");
}
fclose(infile);
}
std::string active_skin = getConfigCurrentSpinner("config.skin.primary_skin");
eDebug("Loading spinners...");
{
int i;
#define MAX_SPINNER 64
ePtr<gPixmap> wait[MAX_SPINNER];
for (i=0; i<MAX_SPINNER; ++i)
{
char filename[64];
std::string rfilename;
snprintf(filename, sizeof(filename), "${datadir}/enigma2/%s/wait%d.png", active_skin.c_str(), i + 1);
rfilename = eEnv::resolve(filename);
loadPNG(wait[i], rfilename.c_str());
if (!wait[i])
{
if (!i)
eDebug("failed to load %s! (%m)", rfilename.c_str());
else
eDebug("found %d spinner!", i);
break;
}
}
if (i)
my_dc->setSpinner(eRect(ePoint(100, 100), wait[0]->size()), wait, i);
else
my_dc->setSpinner(eRect(100, 100, 0, 0), wait, 1);
}
gRC::getInstance()->setSpinnerDC(my_dc);
eRCInput::getInstance()->keyEvent.connect(slot(keyEvent));
printf("executing main\n");
bsodCatchSignals();
catchTermSignal();
setIoPrio(IOPRIO_CLASS_BE, 3);
/* start at full size */
eVideoWidget::setFullsize(true);
// python.execute("mytest", "__main__");
python.execFile(eEnv::resolve("${libdir}/enigma2/python/mytest.py").c_str());
/* restore both decoders to full size */
eVideoWidget::setFullsize(true);
if (exit_code == 5) /* python crash */
{
eDebug("(exit code 5)");
bsodFatal(0);
}
dsk.paint();
dsk_lcd.paint();
{
gPainter p(my_lcd_dc);
p.resetClip(eRect(ePoint(0, 0), my_lcd_dc->size()));
p.clear();
p.flush();
}
m_erroroutput = NULL;
return exit_code;
}