int Kernel::run() {
XEvent event;
LOGDEBUG("main event loop launched");
ostringstream oss;
while (runlevel_ == Kernel::RUN) {
XCORE->nextEvent(&event);
switch (event.type) {
case ButtonPress:
LOGDEBUG("button press event");
handleButtonPress(&event.xbutton);
break;
case ButtonRelease:
LOGDEBUG("button release event");
handleButtonRelease(&event.xbutton);
break;
case ClientMessage:
LOGDEBUG("client message event");
handleClientMessage(&event.xclient);
break;
case ConfigureRequest:
LOGDEBUG("configure request event");
handleConfigureRequest(&event.xconfigurerequest);
break;
case DestroyNotify:
LOGDEBUG("destroy window event");
handleDestroyNotify(&event.xdestroywindow);
break;
case Expose:
LOGDEBUG("expose event");
handleExpose(&event.xexpose);
break;
case KeyPress:
LOGDEBUG("keypress event");
handleKeyPress(&event.xkey);
break;
case MapRequest:
LOGDEBUG("map request event");
handleMapRequest(&event.xmaprequest);
break;
case MotionNotify:
LOGDEBUG("motion event");
handleMotionNotify(&event.xmotion);
break;
case PropertyNotify:
LOGDEBUG("property event");
handlePropertyNotify(&event.xproperty);
break;
case UnmapNotify:
LOGDEBUG("unmap event");
handleUnmapNotify(&event.xunmap);
break;
}
}
return 0;
}
int main() {
trace_puts(">>> VfdClock main() init");
initGpio();
initRtc();
initTimer();
initUart();
SysTick_Config(72000); // 1kHz
trace_puts("<<< VfdClock main() init");
GPIO_WriteBit(LED_PORT, LED_PIN, RESET);
// Disable buzzer.
GPIO_WriteBit(BUZ_PORT, BUZ_PIN, RESET);
TIM_Cmd(TIM3, DISABLE);
backupLoad();
uint8_t digits[6] = {
DIGIT_BLANK, DIGIT_DASH, DIGIT_DASH, DIGIT_DASH, DIGIT_DASH, DIGIT_BLANK};
setDisplay(digits);
gSeconds = RTC_GetCounter();
time_t localtime;
struct tm *t = gmtime(&gSeconds);
// Logic loop.
while (1) {
// Read GPS data, if it exists.
if (strlen(gGpsLine) > 0) {
handleGpsLine();
} else if (gGpsNextPoll < gSeconds) {
gpsSetPushFreq("ZDA", 2);
}
handleDigits(digits, t);
handleButtonPress();
if (gSecondFlag) {
gSecondFlag = 0;
localtime = gSeconds + gUtcOffset;
t = gmtime(&localtime);
handleDigits(digits, t);
setDisplay(digits);
// Blink decimal point.
GPIO_WriteBit(DP_PORT, DP_PIN, SET);
gDpTick = 500;
}
}
}
int
main (int argc, char **argv)
{
int done = 0;
struct drawing canvas;
struct window win;
XEvent myevent;
initialize (&canvas, &win, argc, argv);
if (fractal_options.type == MANDELBROT)
mandelbrot (&canvas, &win);
else
julia (&canvas, &win);
while (!done)
{
XNextEvent (win.display, &myevent);
switch (myevent.type)
{
case ButtonPress:
handleButtonPress (&myevent, &canvas, &win);
break;
case Expose:
handleExpose (&myevent, &canvas, &win);
break;
case MappingNotify:
XRefreshKeyboardMapping ((XMappingEvent *) &myevent);
break;
case ReparentNotify:
handleReparentNotify (&myevent, &win);
break;
case KeyPress:
exit (EXIT_SUCCESS);
break;
}
}
XFreeGC (win.display, win.gc);
XDestroyWindow (win.display, win.win);
XCloseDisplay (win.display);
return EXIT_SUCCESS;
}
void
EventsHandler::Run() {
XSelectInput(mShared.display, mShared.RootWindow,
SubstructureRedirectMask|SubstructureNotifyMask|ButtonPressMask
|EnterWindowMask|LeaveWindowMask|StructureNotifyMask|PropertyChangeMask|KeyPressMask);
while (isRunning) {
XNextEvent(mShared.display, &event);
RunHandlers();
std::cout << event.type << std::endl;
//std::cout << "ConfigureRequest is " << ConfigureRequest << std::endl;
//std::cout << "RootWindow:" << mShared.RootWindow << std::endl;
switch (event.type) {
case Expose:
break;
case ConfigureRequest:
break;
case KeyPress:
handleKeyPress(&event);
break;
case ButtonPress:
handleButtonPress(&event);
break;
case MotionNotify:
handleMotion(&event);
break;
default:
//std::cout << event.type << std::endl;
break;
}
}
XCloseDisplay(mShared.display);
}
int main(int argc, char **argv)
{
AppInfo app;
XEvent event;
memset(&app, 0, sizeof(app));
progclass = "SshAskpass";
app.toplevelShell = XtAppInitialize(&(app.appContext), progclass,
NULL, 0, &argc, argv,
defaults, NULL, 0);
app.argc = argc;
app.argv = argv;
app.dpy = XtDisplay(app.toplevelShell);
app.screen = DefaultScreenOfDisplay(app.dpy);
app.rootWindow = RootWindowOfScreen(app.screen);
app.black = BlackPixel(app.dpy, DefaultScreen(app.dpy));
app.white = WhitePixel(app.dpy, DefaultScreen(app.dpy));
app.colormap = DefaultColormapOfScreen(app.screen);
app.resourceDb = XtDatabase(app.dpy);
XtGetApplicationNameAndClass(app.dpy, &progname, &progclass);
app.appName = progname;
app.appClass = progclass;
/* For resources.c. */
db = app.resourceDb;
/* Seconds after which keyboard/pointer grab fail. */
app.grabFailTimeout = 5;
/* Number of seconds to wait between grab attempts. */
app.grabRetryInterval = 1;
app.pid = getpid();
{
struct rlimit resourceLimit;
int status;
status = getrlimit(RLIMIT_CORE, &resourceLimit);
if (-1 == status) {
fprintf(stderr, "%s[%ld]: getrlimit failed (%s)\n", app.appName,
(long) app.pid, strerror(errno));
exit(EXIT_STATUS_ERROR);
}
resourceLimit.rlim_cur = 0;
status = setrlimit(RLIMIT_CORE, &resourceLimit);
if (-1 == status) {
fprintf(stderr, "%s[%ld]: setrlimit failed (%s)\n", app.appName,
(long) app.pid, strerror(errno));
exit(EXIT_STATUS_ERROR);
}
}
app.xResolution =
WidthOfScreen(app.screen) * 1000 / WidthMMOfScreen(app.screen);
app.yResolution =
HeightOfScreen(app.screen) * 1000 / HeightMMOfScreen(app.screen);
createDialog(&app);
createGCs(&app);
app.eventMask = 0;
app.eventMask |= ExposureMask;
app.eventMask |= ButtonPressMask;
app.eventMask |= ButtonReleaseMask;
app.eventMask |= Button1MotionMask;
app.eventMask |= KeyPressMask;
createDialogWindow(&app);
XMapWindow(app.dpy, app.dialog->dialogWindow);
if (app.inputTimeout > 0) {
app.inputTimeoutActive = True;
app.inputTimeoutTimerId =
XtAppAddTimeOut(app.appContext, app.inputTimeout,
handleInputTimeout, (XtPointer) &app);
}
while(True) {
XtAppNextEvent(app.appContext, &event);
switch (event.type) {
case Expose:
grabServer(&app);
grabKeyboard(&app);
grabPointer(&app);
if (event.xexpose.count) {
break;
}
paintDialog(&app);
break;
case ButtonPress:
case ButtonRelease:
handleButtonPress(&app, &event);
break;
case MotionNotify:
handlePointerMotion(&app, &event);
case KeyPress:
handleKeyPress(&app, &event);
break;
case ClientMessage:
if ((32 == event.xclient.format) &&
((unsigned long) event.xclient.data.l[0] ==
app.wmDeleteWindowAtom)) {
cancelAction(&app);
}
break;
default:
break;
}
}
fprintf(stderr, "%s[%ld]: This should not happen.\n", app.appName,
(long) app.pid);
return(EXIT_STATUS_ANOMALY);
}
void GUI::createEffectBox() {
// -------------------------------------------------
// | Position | PosX | PosY | PosZ | Random | row 0
// | Value | Slider-Slider-Slider | Value | row 1
// | EffectGravity | | EffectWind | row 2
// -------------------------------------------------
// col0 col1 col2 col 3 col4
// A Groupbox that will group all of the Source-related widgets in one box
QGroupBox* effectBox = new QGroupBox("Effect");
QGridLayout* boxLayout = new QGridLayout;
// Setting the position of the new Source
QLabel* positionText = new QLabel("Position");
boxLayout->addWidget(positionText, 0, 0, 1, 1);
// A validator that allows only floating point numbers in [-1,1] to be entered
QValidator* validator = new QDoubleValidator(-1.0, 1.0, 6);
// The textbox that holds the x component of the position
_effectPositionXText = new QLineEdit;
_effectPositionXText->setValidator(validator);
_effectPositionXText->setFixedWidth(65);
boxLayout->addWidget(_effectPositionXText, 0, 1, 1, 1);
// The textbox that holds the y component of the position
_effectPositionYText = new QLineEdit;
_effectPositionYText->setValidator(validator);
_effectPositionYText->setFixedWidth(65);
boxLayout->addWidget(_effectPositionYText, 0, 2, 1, 1);
// The textbox that holds the z component of the position
_effectPositionZText = new QLineEdit;
_effectPositionZText->setValidator(validator);
_effectPositionZText->setFixedWidth(65);
boxLayout->addWidget(_effectPositionZText, 0, 3, 1, 1);
// A checkbox that will disable the manual entries and generate random positions
_effectPositionRandomize = new QCheckBox("Randomize");
_effectPositionRandomize->setChecked(true);
connect(_effectPositionRandomize, SIGNAL(toggled(bool)), this, SLOT(handleEffectRandomize()));
boxLayout->addWidget(_effectPositionRandomize, 0, 4, 1, 1);
// A slider that is used to choose a value in [0,1] that can be used for whatever effect
QLabel* valueText = new QLabel("Value");
boxLayout->addWidget(valueText, 1, 0, 1, 1);
// A slider that is used to choose a value in [0,1] that can be used for whatever effect
_effectValueSlider = new QSlider;
_effectValueSlider->setOrientation(Qt::Horizontal);
_effectValueSlider->setMaximum(2000);
_effectValueSlider->setValue(2000/2);
connect(_effectValueSlider, SIGNAL(valueChanged(int)), this, SLOT(handleEffectSlider()));
boxLayout->addWidget(_effectValueSlider, 1, 1, 1, 3);
// This label will display the value that was chosen with the slider
_effectLabel = new QLabel;
_effectLabel->setFixedWidth(65);
_effectLabel->setAlignment(Qt::AlignHCenter);
boxLayout->addWidget(_effectLabel, 1, 4, 1, 1);
// The button that will call the callback '_effectAddedCallback' with Effect::Gravity when pressed
_effectGravityButton = new QPushButton("Effects Gravity");
connect(_effectGravityButton, SIGNAL(pressed()), this, SLOT(handleButtonPress()));
boxLayout->addWidget(_effectGravityButton, 2, 0, 1, 2);
// The button that will call the callback '_effectAddedCallback' with Effect::Wind when pressed
_effectWindButton = new QPushButton("Effects Wind");
connect(_effectWindButton, SIGNAL(pressed()), this, SLOT(handleButtonPress()));
boxLayout->addWidget(_effectWindButton, 2, 3, 1, 2);
effectBox->setLayout(boxLayout);
_layout->addWidget(effectBox, 1, 1, 1, 1);
// Update the text fields according to the randomize default value
handleEffectRandomize();
// Update the label value to the default slider value
handleEffectSlider();
}
void X11WindowedBackend::handleEvent(xcb_generic_event_t *e)
{
const uint8_t eventType = e->response_type & ~0x80;
switch (eventType) {
case XCB_BUTTON_PRESS:
case XCB_BUTTON_RELEASE:
handleButtonPress(reinterpret_cast<xcb_button_press_event_t*>(e));
break;
case XCB_MOTION_NOTIFY: {
auto event = reinterpret_cast<xcb_motion_notify_event_t*>(e);
auto it = std::find_if(m_windows.constBegin(), m_windows.constEnd(), [event] (const Output &o) { return o.window == event->event; });
if (it == m_windows.constEnd()) {
break;
}
pointerMotion(QPointF(event->root_x - (*it).xPosition.x() + (*it).internalPosition.x(),
event->root_y - (*it).xPosition.y() + (*it).internalPosition.y()),
event->time);
}
break;
case XCB_KEY_PRESS:
case XCB_KEY_RELEASE: {
auto event = reinterpret_cast<xcb_key_press_event_t*>(e);
if (eventType == XCB_KEY_PRESS) {
if (!m_keySymbols) {
m_keySymbols = xcb_key_symbols_alloc(m_connection);
}
const xcb_keysym_t kc = xcb_key_symbols_get_keysym(m_keySymbols, event->detail, 0);
if (kc == XK_Control_R) {
grabKeyboard(event->time);
}
keyboardKeyPressed(event->detail - 8, event->time);
} else {
keyboardKeyReleased(event->detail - 8, event->time);
}
}
break;
case XCB_CONFIGURE_NOTIFY:
updateSize(reinterpret_cast<xcb_configure_notify_event_t*>(e));
break;
case XCB_ENTER_NOTIFY: {
auto event = reinterpret_cast<xcb_enter_notify_event_t*>(e);
auto it = std::find_if(m_windows.constBegin(), m_windows.constEnd(), [event] (const Output &o) { return o.window == event->event; });
if (it == m_windows.constEnd()) {
break;
}
pointerMotion(QPointF(event->root_x - (*it).xPosition.x() + (*it).internalPosition.x(),
event->root_y - (*it).xPosition.y() + (*it).internalPosition.y()),
event->time);
}
break;
case XCB_CLIENT_MESSAGE:
handleClientMessage(reinterpret_cast<xcb_client_message_event_t*>(e));
break;
case XCB_EXPOSE:
handleExpose(reinterpret_cast<xcb_expose_event_t*>(e));
break;
case XCB_MAPPING_NOTIFY:
if (m_keySymbols) {
xcb_refresh_keyboard_mapping(m_keySymbols, reinterpret_cast<xcb_mapping_notify_event_t*>(e));
}
break;
default:
break;
}
}
