#include <core/gpio/gpio.h>
#include <core/timer32/timer32.h>
+
+#ifdef R0KET
#include <r0ketports.h>
+#else
+#include <badge/pinconfig.h>
+#endif
// We depend on input being popped often, so no queue.
static badge_event_t volatile event_buffer;
BADGE_EVENT_FLAG_TIMER = 2
};
-static uint8_t badge_input_raw(void) {
- uint8_t result = BTN_NONE;
+uint8_t badge_input_raw(void) {
+ uint8_t result = 0;
- if (gpioGetValue(RB_BTN3) == 0) { result |= BADGE_EVENT_KEY_UP ; }
- if (gpioGetValue(RB_BTN2) == 0) { result |= BADGE_EVENT_KEY_DOWN ; }
- if (gpioGetValue(RB_BTN4) == 0) { result |= BADGE_EVENT_KEY_CENTER; }
- if (gpioGetValue(RB_BTN0) == 0) { result |= BADGE_EVENT_KEY_LEFT ; }
- if (gpioGetValue(RB_BTN1) == 0) { result |= BADGE_EVENT_KEY_RIGHT ; }
- // TODO: Knöpfe.
- if (gpioGetValue(RB_HB0) == 0) { result |= BADGE_EVENT_KEY_UP ; }
- if (gpioGetValue(RB_HB1) == 0) { result |= BADGE_EVENT_KEY_UP ; }
+#ifdef R0KET
+ if (gpioGetValue(RB_BTN3) == 0) { result |= BADGE_EVENT_KEY_DOWN ; }
+ if (gpioGetValue(RB_BTN2) == 0) { result |= BADGE_EVENT_KEY_UP ; }
+ if (gpioGetValue(RB_BTN4) == 0) { result |= BADGE_EVENT_KEY_CENTER; }
+ if (gpioGetValue(RB_BTN0) == 0) { result |= BADGE_EVENT_KEY_RIGHT ; }
+ if (gpioGetValue(RB_BTN1) == 0) { result |= BADGE_EVENT_KEY_LEFT ; }
+ if (gpioGetValue(RB_HB0 ) == 0) { result |= BADGE_EVENT_KEY_BTN_A ; }
+ if (gpioGetValue(RB_HB1 ) == 0) { result |= BADGE_EVENT_KEY_BTN_B ; }
+#elif defined(HOB_REV2)
+ if (gpioGetValue(HOB_PORT(HOB_BTN_UP ), HOB_PIN(HOB_BTN_UP )) == 0) { result |= BADGE_EVENT_KEY_UP ; }
+ if (gpioGetValue(HOB_PORT(HOB_BTN_DOWN ), HOB_PIN(HOB_BTN_DOWN )) == 0) { result |= BADGE_EVENT_KEY_DOWN ; }
+ if (gpioGetValue(HOB_PORT(HOB_BTN_LEFT ), HOB_PIN(HOB_BTN_LEFT )) == 0) { result |= BADGE_EVENT_KEY_LEFT ; }
+ if (gpioGetValue(HOB_PORT(HOB_BTN_RIGHT ), HOB_PIN(HOB_BTN_RIGHT )) == 0) { result |= BADGE_EVENT_KEY_RIGHT ; }
+ if (gpioGetValue(HOB_PORT(HOB_BTN_A ), HOB_PIN(HOB_BTN_A )) == 0) { result |= BADGE_EVENT_KEY_BTN_A ; }
+ if (gpioGetValue(HOB_PORT(HOB_BTN_B ), HOB_PIN(HOB_BTN_B )) == 0) { result |= BADGE_EVENT_KEY_BTN_B ; }
+#else
+ if (gpioGetValue(HOB_PORT(HOB_BTN_UP ), HOB_PIN(HOB_BTN_UP )) == 1) { result |= BADGE_EVENT_KEY_UP ; }
+ if (gpioGetValue(HOB_PORT(HOB_BTN_DOWN ), HOB_PIN(HOB_BTN_DOWN )) == 1) { result |= BADGE_EVENT_KEY_DOWN ; }
+ if (gpioGetValue(HOB_PORT(HOB_BTN_CENTER), HOB_PIN(HOB_BTN_CENTER)) == 1) { result |= BADGE_EVENT_KEY_CENTER; }
+ if (gpioGetValue(HOB_PORT(HOB_BTN_LEFT ), HOB_PIN(HOB_BTN_LEFT )) == 1) { result |= BADGE_EVENT_KEY_LEFT ; }
+ if (gpioGetValue(HOB_PORT(HOB_BTN_RIGHT ), HOB_PIN(HOB_BTN_RIGHT )) == 1) { result |= BADGE_EVENT_KEY_RIGHT ; }
+ if (gpioGetValue(HOB_PORT(HOB_BTN_A ), HOB_PIN(HOB_BTN_A )) == 1) { result |= BADGE_EVENT_KEY_BTN_A ; }
+ if (gpioGetValue(HOB_PORT(HOB_BTN_B ), HOB_PIN(HOB_BTN_B )) == 1) { result |= BADGE_EVENT_KEY_BTN_B ; }
+#endif
- return result;
+ return result;
}
uint8_t badge_event_current_input_state(void) {
}
void badge_event_start(void) {
- timer32Init(0, TIMER32_CCLK_10MS * 2);
+ timer32Init(0, TIMER32_CCLK_10MS / 100 * 133);
timer32SetIntHandler(badge_event_irq);
timer32Enable(0);
}
+
+void badge_event_stop (void) {
+ timer32Disable(0);
+}