ao_lco_show_pad(uint8_t pad)
{
ao_mutex_get(&ao_lco_display_mutex);
- ao_seven_segment_set(AO_LCO_PAD_DIGIT, pad | (ao_lco_drag_race << 4));
+ ao_seven_segment_set(AO_LCO_PAD_DIGIT, (uint8_t) (pad | (ao_lco_drag_race << 4)));
ao_mutex_put(&ao_lco_display_mutex);
}
ao_lco_show_box(uint16_t box)
{
ao_mutex_get(&ao_lco_display_mutex);
- ao_seven_segment_set(AO_LCO_BOX_DIGIT_1, box % 10 | (ao_lco_drag_race << 4));
- ao_seven_segment_set(AO_LCO_BOX_DIGIT_10, box / 10 | (ao_lco_drag_race << 4));
+ ao_seven_segment_set(AO_LCO_BOX_DIGIT_1, (uint8_t) (box % 10 | (ao_lco_drag_race << 4)));
+ ao_seven_segment_set(AO_LCO_BOX_DIGIT_10, (uint8_t) (box / 10 | (ao_lco_drag_race << 4)));
ao_mutex_put(&ao_lco_display_mutex);
}
uint8_t tens, ones, tenths;
PRINTD("voltage %d\n", decivolts);
- tenths = decivolts % 10;
- ones = (decivolts / 10) % 10;
- tens = (decivolts / 100) % 10;
+ tenths = (uint8_t) (decivolts % 10);
+ ones = (uint8_t) ((decivolts / 10) % 10);
+ tens = (uint8_t) ((decivolts / 100) % 10);
ao_mutex_get(&ao_lco_display_mutex);
ao_seven_segment_set(AO_LCO_PAD_DIGIT, tenths);
ao_seven_segment_set(AO_LCO_BOX_DIGIT_1, ones | 0x10);
static void
ao_lco_step_box(int8_t dir)
{
- int16_t new_box = ao_lco_box;
+ int32_t new_box = (int32_t) ao_lco_box;
do {
new_box += dir;
new_box = ao_lco_max_box;
if (new_box == ao_lco_box)
break;
- } while (!ao_lco_box_present(new_box));
- ao_lco_set_box(new_box);
+ } while (!ao_lco_box_present((uint16_t) new_box));
+ ao_lco_set_box((uint16_t) new_box);
}
static struct ao_task ao_lco_drag_task;
static void
ao_lco_drag_monitor(void)
{
- AO_TICK_TYPE delay = ~0;
+ AO_TICK_TYPE delay = ~0UL;
AO_TICK_TYPE now;
ao_beep_for(AO_BEEP_MID, AO_MS_TO_TICKS(200));
for (;;) {
- PRINTD("Drag monitor count %d delay %d\n", ao_lco_drag_beep_count, delay);
+ PRINTD("Drag monitor count %d delay %lu\n", ao_lco_drag_beep_count, (unsigned long) delay);
if (delay == (AO_TICK_TYPE) ~0)
ao_sleep(&ao_lco_drag_beep_count);
else
ao_sleep_for(&ao_lco_drag_beep_count, delay);
- delay = ~0;
+ delay = ~0UL;
now = ao_time();
delay = ao_lco_drag_warn_check(now, delay);
delay = ao_lco_drag_beep_check(now, delay);
for (;;) {
ao_event_get(&event);
- PRINTD("event type %d unit %d value %d\n",
- event.type, event.unit, event.value);
+ PRINTD("event type %d unit %d value %ld\n",
+ event.type, event.unit, (long) event.value);
switch (event.type) {
case AO_EVENT_QUADRATURE:
switch (event.unit) {
case AO_EVENT_BUTTON:
switch (event.unit) {
case AO_BUTTON_ARM:
- ao_lco_set_armed(event.value);
+ ao_lco_set_armed((uint8_t) event.value);
ao_lco_set_select();
break;
case AO_BUTTON_FIRE:
if (ao_lco_armed)
- ao_lco_set_firing(event.value);
+ ao_lco_set_firing((uint8_t) event.value);
break;
case AO_BUTTON_DRAG_SELECT:
if (event.value)
ao_adc_single_get(&packet);
decivolt = ao_battery_decivolt(packet.v_batt);
- ao_lco_show_voltage(decivolt);
+ ao_lco_show_voltage((uint16_t) decivolt);
ao_delay(AO_MS_TO_TICKS(1000));
}
static void
ao_lco_set_debug(void)
{
- uint16_t r = ao_cmd_decimal();
+ uint32_t r = ao_cmd_decimal();
if (ao_cmd_status == ao_cmd_success)
ao_lco_debug = r != 0;
}