X-Git-Url: https://git.gag.com/?a=blobdiff_plain;f=src%2Fcore%2Fao_data.h;h=86acd48fa8c94fe92e076bf7aa15da771c219910;hb=5caf56e89678637c1afa79700a2fa09aa67dea9b;hp=5412febeab42142b4a00677d1fd60ec44675fa9f;hpb=e053da3e7cb5a4c9ebbffd245cb5d83932183b22;p=fw%2Faltos diff --git a/src/core/ao_data.h b/src/core/ao_data.h index 5412febe..86acd48f 100644 --- a/src/core/ao_data.h +++ b/src/core/ao_data.h @@ -52,6 +52,8 @@ #define AO_DATA_MMA655X 0 #endif +#ifdef AO_DATA_RING + #define AO_DATA_ALL (AO_DATA_ADC|AO_DATA_MS5607|AO_DATA_MPU6000|AO_DATA_HMC5883|AO_DATA_MMA655X) struct ao_data { @@ -65,6 +67,9 @@ struct ao_data { #endif #if HAS_MPU6000 struct ao_mpu6000_sample mpu6000; +#if !HAS_MMA655X + int16_t z_accel; +#endif #endif #if HAS_HMC5883 struct ao_hmc5883_sample hmc5883; @@ -95,18 +100,29 @@ extern volatile __data uint8_t ao_data_count; } while (0); /* - * Wait for data to be completed by looking at the - * indicated bit + * Wait until it is time to write a sensor sample; this is + * signaled by the timer tick */ #define AO_DATA_WAIT() do { \ ao_sleep((void *) &ao_data_count); \ } while (0) +#endif /* AO_DATA_RING */ -#if HAS_MS5607 +#if !HAS_BARO && HAS_MS5607 + +/* Either an MS5607 or an MS5611 hooked to a SPI port + */ + +#define HAS_BARO 1 typedef int32_t pres_t; -typedef int32_t alt_t; + +#ifndef AO_ALT_TYPE +#define AO_ALT_TYPE int32_t +#endif + +typedef AO_ALT_TYPE alt_t; #define ao_data_pres_cook(packet) ao_ms5607_convert(&packet->ms5607_raw, &packet->ms5607_cooked) @@ -115,7 +131,11 @@ typedef int32_t alt_t; #define pres_to_altitude(p) ao_pa_to_altitude(p) -#else /* HAS_MS5607 */ +#endif + +#if !HAS_BARO && HAS_ADC + +#define HAS_BARO 1 typedef int16_t pres_t; typedef int16_t alt_t; @@ -125,7 +145,11 @@ typedef int16_t alt_t; #define pres_to_altitude(p) ao_pres_to_altitude(p) #define ao_data_pres_cook(p) -#endif /* else HAS_MS5607 */ +#endif + +#if !HAS_BARO +typedef int16_t alt_t; +#endif /* * Need a few macros to pull data from the sensors: @@ -136,17 +160,12 @@ typedef int16_t alt_t; * ao_data_accel_invert - flip rocket ends for positive acceleration */ -#if HAS_MPU6000 && !HAS_HIGHG_ACCEL +#if HAS_ACCEL -typedef int16_t accel_t; - -/* MPU6000 is hooked up so that positive y is positive acceleration */ -#define ao_data_accel(packet) ((packet)->mpu6000.accel_y) -#define ao_data_accel_cook(packet) (-(packet)->mpu6000.accel_y) -#define ao_data_set_accel(packet, accel) ((packet)->mpu6000.accel_y = (accel)) -#define ao_data_accel_invert(a) (-(a)) - -#else /* HAS_MPU6000 && !HAS_HIGHG_ACCEL */ +/* This section is for an analog accelerometer hooked to one of the ADC pins. As + * those are 5V parts, this also requires that the 5V supply be hooked to to anothe ADC + * pin so that the both can be measured to correct for changes between the 3.3V and 5V rails + */ typedef int16_t accel_t; #define ao_data_accel(packet) ((packet)->adc.accel) @@ -245,6 +264,35 @@ typedef int16_t accel_t; #endif /* HAS_ACCEL_REF */ -#endif /* else some other accel sensor */ +#endif /* HAS_ACCEL */ + +#if !HAS_ACCEL && HAS_MMA655X + +#define HAS_ACCEL 1 + +typedef int16_t accel_t; + +/* MMA655X is hooked up so that positive values represent negative acceleration */ + +#define ao_data_accel(packet) ((packet)->mma655x) +#define ao_data_accel_cook(packet) ((packet)->mma655x) +#define ao_data_set_accel(packet, accel) ((packet)->mma655x = (accel)) +#define ao_data_accel_invert(accel) (4095 - (accel)) + +#endif + +#if !HAS_ACCEL && HAS_MPU6000 + +#define HAS_ACCEL 1 + +typedef int16_t accel_t; + +/* MPU6000 is hooked up so that positive y is positive acceleration */ +#define ao_data_accel(packet) ((packet)->z_accel) +#define ao_data_accel_cook(packet) (-(packet)->mpu6000.accel_y) +#define ao_data_set_accel(packet, accel) ((packet)->z_accel = (accel)) +#define ao_data_accel_invert(a) (-(a)) + +#endif #endif /* _AO_DATA_H_ */