static uint8_t tick(void) { a++; set_quadphase(ADDR_QF1, -38,255,0,0); set_quadphase(ADDR_QF2, -38,255,0,0); return 1; }
static uint8_t tick(void) { a++; set_quadphase(ADDR_QF1, -38,255,0,0); set_quadphase(ADDR_QF2, -38,255,0,0); set_par56(ADDR_LED1, 255,0,0); set_par56(ADDR_LED2, 255,0,0); //set_par56(ADDR_LED3, 255,0,0); set_par56(ADDR_LED4, 255,0,0); return 1; }
static uint8_t tick(void) { a++; if(((a % 80) == 0)||((a % 80) == 10)) { set_quadphase(ADDR_QF1, -38,255,0,0); set_quadphase(ADDR_QF2, -38,255,0,0); set_par56(ADDR_LED1, 255,0,0); set_par56(ADDR_LED2, 255,0,0); set_par56(ADDR_LED3, 0,0,0); set_par56(ADDR_LED4, 255,0,0); } if(((a % 80) == 1)||((a % 80) == 11)) { set_quadphase(ADDR_QF1, -38,0,0,0); set_quadphase(ADDR_QF2, -38,0,0,0); set_par56(ADDR_LED1, 0,0,0); set_par56(ADDR_LED2, 0,0,0); set_par56(ADDR_LED3, 0,0,0); set_par56(ADDR_LED4, 0,0,0); } if(((a % 80) == 40)||((a % 80) == 50)) { set_quadphase(ADDR_QF1, -38,0,0,255); set_quadphase(ADDR_QF2, -38,0,0,255); set_par56(ADDR_LED1, 0,0,255); set_par56(ADDR_LED2, 0,0,255); set_par56(ADDR_LED3, 0,0,0); set_par56(ADDR_LED4, 0,0,255); } if(((a % 80) == 41)||((a % 80) == 51)) { set_quadphase(ADDR_QF1, -38,0,0,0); set_quadphase(ADDR_QF2, -38,0,0,0); set_par56(ADDR_LED1, 0,0,0); set_par56(ADDR_LED2, 0,0,0); set_par56(ADDR_LED3, 0,0,0); set_par56(ADDR_LED4, 0,0,0); } return 1; }