#include "ao.h"
#endif
+#ifndef HAS_ACCEL
+#error Please define HAS_ACCEL
+#endif
+
+#ifndef HAS_GPS
+#error Please define HAS_GPS
+#endif
+
+#ifndef HAS_USB
+#error Please define HAS_USB
+#endif
+
/* Main flight thread. */
__pdata enum ao_flight_state ao_flight_state; /* current flight state */
__pdata uint16_t ao_flight_tick; /* time of last data */
__pdata uint16_t ao_flight_prev_tick; /* time of previous data */
-__pdata int16_t ao_flight_accel; /* filtered acceleration */
__pdata int16_t ao_flight_pres; /* filtered pressure */
__pdata int16_t ao_ground_pres; /* startup pressure */
-__pdata int16_t ao_ground_accel; /* startup acceleration */
__pdata int16_t ao_min_pres; /* minimum recorded pressure */
__pdata uint16_t ao_launch_tick; /* time of launch detect */
__pdata int16_t ao_main_pres; /* pressure to eject main */
+#if HAS_ACCEL
+__pdata int16_t ao_flight_accel; /* filtered acceleration */
+__pdata int16_t ao_ground_accel; /* startup acceleration */
+#endif
/*
* track min/max data over a long interval to detect
* resting
*/
__pdata uint16_t ao_interval_end;
-__pdata int16_t ao_interval_cur_min_accel;
-__pdata int16_t ao_interval_cur_max_accel;
__pdata int16_t ao_interval_cur_min_pres;
__pdata int16_t ao_interval_cur_max_pres;
-__pdata int16_t ao_interval_min_accel;
-__pdata int16_t ao_interval_max_accel;
__pdata int16_t ao_interval_min_pres;
__pdata int16_t ao_interval_max_pres;
+#if HAS_ACCEL
+__pdata int16_t ao_interval_cur_min_accel;
+__pdata int16_t ao_interval_cur_max_accel;
+__pdata int16_t ao_interval_min_accel;
+__pdata int16_t ao_interval_max_accel;
+#endif
__data uint8_t ao_flight_adc;
-__pdata int16_t ao_raw_accel, ao_raw_accel_prev, ao_raw_pres;
-__pdata int16_t ao_accel_2g;
-
+__pdata int16_t ao_raw_pres;
__xdata uint8_t ao_flight_force_idle;
+#if HAS_ACCEL
+__pdata int16_t ao_raw_accel, ao_raw_accel_prev;
+__pdata int16_t ao_accel_2g;
+
/* Accelerometer calibration
*
* We're sampling the accelerometer through a resistor divider which
#define ACCEL_VEL_MACH VEL_MPS_TO_COUNT(200)
#define ACCEL_VEL_BOOST VEL_MPS_TO_COUNT(5)
+#endif
+
/*
* Barometer calibration
*
#define BOOST_TICKS_MAX AO_SEC_TO_TICKS(15)
+#if HAS_ACCEL
/* This value is scaled in a weird way. It's a running total of accelerometer
* readings minus the ground accelerometer reading. That means it measures
* velocity, and quite accurately too. As it gets updated 100 times a second,
__pdata int32_t ao_min_vel;
__pdata int32_t ao_old_vel;
__pdata int16_t ao_old_vel_tick;
-__xdata int32_t ao_raw_accel_sum, ao_raw_pres_sum;
+__xdata int32_t ao_raw_accel_sum;
+#endif
+
+__xdata int32_t ao_raw_pres_sum;
/* Landing is detected by getting constant readings from both pressure and accelerometer
* for a fairly long time (AO_INTERVAL_TICKS)
__pdata static uint16_t nsamples = 0;
ao_flight_adc = ao_adc_head;
+ ao_raw_pres = 0;
+#if HAS_ACCEL
ao_raw_accel_prev = 0;
ao_raw_accel = 0;
- ao_raw_pres = 0;
+#endif
ao_flight_tick = 0;
for (;;) {
ao_wakeup(DATA_TO_XDATA(&ao_flight_adc));
ao_sleep(DATA_TO_XDATA(&ao_adc_head));
while (ao_flight_adc != ao_adc_head) {
+#if HAS_ACCEL
__pdata uint8_t ticks;
__pdata int16_t ao_vel_change;
+#endif
__xdata struct ao_adc *ao_adc;
ao_flight_prev_tick = ao_flight_tick;
/* Capture a sample */
ao_adc = &ao_adc_ring[ao_flight_adc];
ao_flight_tick = ao_adc->tick;
+ ao_raw_pres = ao_adc->pres;
+ ao_flight_pres -= ao_flight_pres >> 4;
+ ao_flight_pres += ao_raw_pres >> 4;
+
+#if HAS_ACCEL
ao_raw_accel = ao_adc->accel;
#if HAS_ACCEL_REF
/*
ao_raw_accel = (uint16_t) ((((uint32_t) ao_raw_accel << 16) / (ao_accel_ref[ao_flight_adc] << 1))) >> 1;
ao_adc->accel = ao_raw_accel;
#endif
- ao_raw_pres = ao_adc->pres;
ao_flight_accel -= ao_flight_accel >> 4;
ao_flight_accel += ao_raw_accel >> 4;
- ao_flight_pres -= ao_flight_pres >> 4;
- ao_flight_pres += ao_raw_pres >> 4;
/* Update velocity
*
* The accelerometer is mounted so that
ao_flight_vel += (int32_t) ao_vel_change;
else
ao_flight_vel += (int32_t) ao_vel_change * (int32_t) ticks;
+#endif
ao_flight_adc = ao_adc_ring_next(ao_flight_adc);
}
if (ao_flight_pres < ao_min_pres)
ao_min_pres = ao_flight_pres;
+#if HAS_ACCEL
if (ao_flight_vel >= 0) {
if (ao_flight_vel < ao_min_vel)
ao_min_vel = ao_flight_vel;
if (-ao_flight_vel < ao_min_vel)
ao_min_vel = -ao_flight_vel;
}
+#endif
switch (ao_flight_state) {
case ao_flight_startup:
* data and average them to find the resting values
*/
if (nsamples < 512) {
+#if HAS_ACCEL
ao_raw_accel_sum += ao_raw_accel;
+#endif
ao_raw_pres_sum += ao_raw_pres;
++nsamples;
continue;
}
+#if HAS_ACCEL
ao_ground_accel = ao_raw_accel_sum >> 9;
+#endif
ao_ground_pres = ao_raw_pres_sum >> 9;
ao_min_pres = ao_ground_pres;
ao_config_get();
ao_main_pres = ao_altitude_to_pres(ao_pres_to_altitude(ao_ground_pres) + ao_config.main_deploy);
+#if HAS_ACCEL
ao_accel_2g = ao_config.accel_minus_g - ao_config.accel_plus_g;
ao_flight_vel = 0;
ao_min_vel = 0;
ao_old_vel = ao_flight_vel;
ao_old_vel_tick = ao_flight_tick;
+#endif
/* Check to see what mode we should go to.
* - Invalid mode if accel cal appears to be out
* - idle mode otherwise
*/
ao_config_get();
+#if HAS_ACCEL
if (ao_config.accel_plus_g == 0 ||
ao_config.accel_minus_g == 0 ||
ao_flight_accel < ao_config.accel_plus_g - ACCEL_NOSE_UP ||
*/
ao_packet_slave_start();
- } else if (ao_flight_accel < ao_config.accel_plus_g + ACCEL_NOSE_UP &&
- !ao_flight_force_idle)
+ } else
+#endif
+ if (!ao_flight_force_idle
+#if HAS_ACCEL
+ && ao_flight_accel < ao_config.accel_plus_g + ACCEL_NOSE_UP
+#endif
+ )
{
/* Set pad mode - we can fly! */
ao_flight_state = ao_flight_pad;
+#if HAS_USB
/* Disable the USB controller in flight mode
* to save power
*/
ao_usb_disable();
-
+#endif
/* Turn on telemetry system */
ao_rdf_set(1);
ao_telemetry_set_interval(AO_TELEMETRY_INTERVAL_PAD);
break;
case ao_flight_pad:
+#if HAS_ACCEL
/* Trim velocity
*
* Once a second, remove any velocity from
ao_flight_vel -= ao_old_vel;
ao_old_vel = ao_flight_vel;
}
+#endif
/* pad to boost:
*
* accelerometer: > 2g AND velocity > 5m/s
* the barometer, but we use both to make sure this
* transition is detected
*/
- if ((ao_flight_accel < ao_ground_accel - ACCEL_BOOST &&
- ao_flight_vel > ACCEL_VEL_BOOST) ||
+ if (
+#if HAS_ACCEL
+ (ao_flight_accel < ao_ground_accel - ACCEL_BOOST &&
+ ao_flight_vel > ACCEL_VEL_BOOST) ||
+#endif
ao_flight_pres < ao_ground_pres - BARO_LAUNCH)
{
+#if HAS_ACCEL
ao_flight_state = ao_flight_boost;
+#else
+ ao_flight_state = ao_flight_coast;
+#endif
ao_launch_tick = ao_flight_tick;
/* start logging data */
/* disable RDF beacon */
ao_rdf_set(0);
+#if HAS_GPS
/* Record current GPS position by waking up GPS log tasks */
ao_wakeup(&ao_gps_data);
ao_wakeup(&ao_gps_tracking_data);
+#endif
ao_wakeup(DATA_TO_XDATA(&ao_flight_state));
break;
}
break;
+#if HAS_ACCEL
case ao_flight_boost:
/* boost to fast:
ao_wakeup(DATA_TO_XDATA(&ao_flight_state));
}
break;
+#endif
case ao_flight_coast:
/* apogee detect: coast to drogue deploy:
/* Set the 'last' limits to max range to prevent
* early resting detection
*/
+#if HAS_ACCEL
ao_interval_min_accel = 0;
ao_interval_max_accel = 0x7fff;
+#endif
ao_interval_min_pres = 0;
ao_interval_max_pres = 0x7fff;
ao_interval_end = ao_flight_tick + AO_INTERVAL_TICKS;
ao_interval_cur_min_pres = ao_interval_cur_max_pres = ao_flight_pres;
+#if HAS_ACCEL
ao_interval_cur_min_accel = ao_interval_cur_max_accel = ao_flight_accel;
+#endif
/* and enter drogue state */
ao_flight_state = ao_flight_drogue;
ao_interval_cur_min_pres = ao_flight_pres;
if (ao_flight_pres > ao_interval_cur_max_pres)
ao_interval_cur_max_pres = ao_flight_pres;
+#if HAS_ACCEL
if (ao_flight_accel < ao_interval_cur_min_accel)
ao_interval_cur_min_accel = ao_flight_accel;
if (ao_flight_accel > ao_interval_cur_max_accel)
ao_interval_cur_max_accel = ao_flight_accel;
+#endif
if ((int16_t) (ao_flight_tick - ao_interval_end) >= 0) {
ao_interval_max_pres = ao_interval_cur_max_pres;
ao_interval_min_pres = ao_interval_cur_min_pres;
+ ao_interval_cur_min_pres = ao_interval_cur_max_pres = ao_flight_pres;
+#if HAS_ACCEL
ao_interval_max_accel = ao_interval_cur_max_accel;
ao_interval_min_accel = ao_interval_cur_min_accel;
- ao_interval_end = ao_flight_tick + AO_INTERVAL_TICKS;
- ao_interval_cur_min_pres = ao_interval_cur_max_pres = ao_flight_pres;
ao_interval_cur_min_accel = ao_interval_cur_max_accel = ao_flight_accel;
+#endif
+ ao_interval_end = ao_flight_tick + AO_INTERVAL_TICKS;
- if ((uint16_t) (ao_interval_max_accel - ao_interval_min_accel) < (uint16_t) ACCEL_INT_LAND &&
+ if (
+#if HAS_ACCEL
+ (uint16_t) (ao_interval_max_accel - ao_interval_min_accel) < (uint16_t) ACCEL_INT_LAND &&
+#endif
ao_flight_pres > ao_ground_pres - BARO_LAND &&
(uint16_t) (ao_interval_max_pres - ao_interval_min_pres) < (uint16_t) BARO_INT_LAND)
{
MORSE4(1,0,0,1), /* invalid 'X' */
};
-#if 1
-#define signal(time) ao_beep_for(AO_BEEP_MID, time)
+#if HAS_BEEP
+#define low(time) ao_beep_for(AO_BEEP_LOW, time)
+#define mid(time) ao_beep_for(AO_BEEP_MID, time)
+#define high(time) ao_beep_for(AO_BEEP_HIGH, time)
#else
-#define signal(time) ao_led_for(AO_LED_RED, time)
+#define low(time) ao_led_for(AO_LED_RED, time)
+#define mid(time) ao_led_for(AO_LED_RED|AO_LED_GREEN, time)
+#define high(time) ao_led_for(AO_LED_GREEN, time)
#endif
#define pause(time) ao_delay(time)
return;
while (l--) {
if (r & 8)
- signal(AO_MS_TO_TICKS(600));
+ mid(AO_MS_TO_TICKS(600));
else
- signal(AO_MS_TO_TICKS(200));
+ mid(AO_MS_TO_TICKS(200));
pause(AO_MS_TO_TICKS(200));
r >>= 1;
}
ao_report_digit(uint8_t digit) __reentrant
{
if (!digit) {
- signal(AO_MS_TO_TICKS(500));
+ mid(AO_MS_TO_TICKS(500));
pause(AO_MS_TO_TICKS(200));
} else {
while (digit--) {
- signal(AO_MS_TO_TICKS(200));
- pause(AO_MS_TO_TICKS(200));
+ mid(AO_MS_TO_TICKS(200));
+ mid(AO_MS_TO_TICKS(200));
}
}
pause(AO_MS_TO_TICKS(300));
(ao_report_igniter_ready(ao_igniter_main) << 1));
if (c) {
while (c--) {
- ao_beep_for(AO_BEEP_HIGH, AO_MS_TO_TICKS(25));
+ high(AO_MS_TO_TICKS(25));
pause(AO_MS_TO_TICKS(100));
}
} else {
c = 10;
while (c--) {
- ao_beep_for(AO_BEEP_HIGH, AO_MS_TO_TICKS(20));
- ao_beep_for(AO_BEEP_LOW, AO_MS_TO_TICKS(20));
+ high(AO_MS_TO_TICKS(20));
+ low(AO_MS_TO_TICKS(20));
}
}
if (ao_log_full()) {
pause(AO_MS_TO_TICKS(100));
c = 2;
while (c--) {
- ao_beep_for(AO_BEEP_LOW, AO_MS_TO_TICKS(100));
- ao_beep_for(AO_BEEP_MID, AO_MS_TO_TICKS(100));
- ao_beep_for(AO_BEEP_HIGH, AO_MS_TO_TICKS(100));
- ao_beep_for(AO_BEEP_MID, AO_MS_TO_TICKS(100));
+ low(AO_MS_TO_TICKS(100));
+ mid(AO_MS_TO_TICKS(100));
+ high(AO_MS_TO_TICKS(100));
+ mid(AO_MS_TO_TICKS(100));
}
}
c = 50;