#include #include namespace Ion { namespace Events { static bool sleepWithTimeout(int duration, int * timeout) { if (*timeout >= duration) { msleep(duration); *timeout -= duration; return false; } else { msleep(*timeout); *timeout = 0; return true; } } Event sLastEvent = Events::None; Keyboard::State sLastKeyboardState; bool sEventIsRepeating = 0; constexpr int delayBeforeRepeat = 200; constexpr int delayBetweenRepeat = 50; bool canRepeatEvent(Event e) { return (e == Events::Left || e == Events::Up || e == Events::Down || e == Events::Right || e == Events::Backspace); } Event getEvent(int * timeout) { assert(*timeout > delayBeforeRepeat); assert(*timeout > delayBetweenRepeat); int time = 0; uint64_t keysSeenUp = 0; uint64_t keysSeenTransitionningFromUpToDown = 0; while (true) { Keyboard::State state = Keyboard::scan(); keysSeenUp |= ~state; keysSeenTransitionningFromUpToDown = keysSeenUp & state; if (keysSeenTransitionningFromUpToDown != 0) { sEventIsRepeating = false; /* The key that triggered the event corresponds to the first non-zero bit * in "match". This is a rather simple logic operation for the which many * processors have an instruction (ARM thumb uses CLZ). * Unfortunately there's no way to express this in standard C, so we have * to resort to using a builtin function. */ Keyboard::Key key = (Keyboard::Key)(63-__builtin_clzll(keysSeenTransitionningFromUpToDown)); Event event(key, isShiftActive(), isAlphaActive()); updateModifiersFromEvent(event); sLastEvent = event; sLastKeyboardState = state; return event; } if (sleepWithTimeout(10, timeout)) { // Timeout occured return Events::None; } time += 10; // At this point, we know that keysSeenTransitionningFromUpToDown has *always* been zero // In other words, no new key has been pressed if (canRepeatEvent(sLastEvent) && (state == sLastKeyboardState)) { int delay = (sEventIsRepeating ? delayBetweenRepeat : delayBeforeRepeat); if (time >= delay) { sEventIsRepeating = true; sLastKeyboardState = state; return sLastEvent; } } } } } }