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https://github.com/oliverschmidt/contiki.git
synced 2024-12-22 10:30:13 +00:00
Added interrupt configuration for the weather meter
This commit is contained in:
parent
103911f619
commit
aacbcd904f
@ -55,7 +55,9 @@
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#include <stdio.h>
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#include <stdint.h>
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/*---------------------------------------------------------------------------*/
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#define READ_SENSOR_PERIOD CLOCK_SECOND
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#define READ_SENSOR_PERIOD CLOCK_SECOND
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#define ANEMOMETER_THRESHOLD_TICK 8
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#define RAIN_GAUGE_THRESHOLD_TICK 15
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/*---------------------------------------------------------------------------*/
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static struct etimer et;
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/*---------------------------------------------------------------------------*/
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@ -63,15 +65,17 @@ PROCESS(test_weather_meter_sensors, "Test Weather meter sensors");
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AUTOSTART_PROCESSES(&test_weather_meter_sensors);
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/*---------------------------------------------------------------------------*/
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static void
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rain_callback(uint8_t value)
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rain_callback(uint16_t value)
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{
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printf("*** Rain\n");
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printf("*** Rain gauge over threshold (%u ticks)\n", value);
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weather_meter.configure(WEATHER_METER_RAIN_GAUGE_INT_OVER,
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(value + RAIN_GAUGE_THRESHOLD_TICK));
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}
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/*---------------------------------------------------------------------------*/
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static void
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wind_speed_callback(uint8_t value)
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wind_speed_callback(uint16_t value)
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{
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printf("*** Wind speed\n");
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printf("*** Wind speed over threshold (%u ticks)\n", value);
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}
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/*---------------------------------------------------------------------------*/
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PROCESS_THREAD(test_weather_meter_sensors, ev, data)
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@ -86,8 +90,17 @@ PROCESS_THREAD(test_weather_meter_sensors, ev, data)
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WEATHER_METER_REGISTER_ANEMOMETER_INT(wind_speed_callback);
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WEATHER_METER_REGISTER_RAIN_GAUGE_INT(rain_callback);
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/* Enable the sensors, this has to be called before any of the interrupt calls
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* like the ones below
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*/
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SENSORS_ACTIVATE(weather_meter);
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/* And the upper threshold value to compare and generate an interrupt */
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weather_meter.configure(WEATHER_METER_ANEMOMETER_INT_OVER,
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ANEMOMETER_THRESHOLD_TICK);
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weather_meter.configure(WEATHER_METER_RAIN_GAUGE_INT_OVER,
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RAIN_GAUGE_THRESHOLD_TICK);
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etimer_set(&et, READ_SENSOR_PERIOD);
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while(1) {
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@ -100,17 +113,17 @@ PROCESS_THREAD(test_weather_meter_sensors, ev, data)
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#if WEATHER_METER_RAIN_RETURN_TICKS
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rain *= WEATHER_METER_AUX_RAIN_MM;
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if(rain > (WEATHER_METER_AUX_RAIN_MM * 3)) {
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printf("Rain: %lu.%lu mm\n", (rain / 10000), (rain % 10000));
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printf("Rain: %lu.%lu mm, ", (rain / 10000), (rain % 10000));
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#else
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if(rain >= 10) {
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printf("Rain: %u.%u mm\n", (rain / 10), (rain % 10));
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printf("Rain: %u.%u mm, ", (rain / 10), (rain % 10));
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#endif
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} else {
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printf("Rain: 0.%lu mm\n", rain);
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printf("Rain: 0.%lu mm, ", rain);
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}
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printf("Wind direction: %u metres/hour\n", wind_dir);
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printf("Wind speed %u\n", wind_speed);
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printf("Wind (dir: %u deg, ", wind_dir);
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printf("speed %u m/h)\n", wind_speed);
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etimer_reset(&et);
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}
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@ -47,6 +47,7 @@
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#include "contiki.h"
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#include "dev/adc-sensors.h"
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#include "dev/weather-meter.h"
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#include "dev/zoul-sensors.h"
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#include "lib/sensors.h"
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#include "dev/sys-ctrl.h"
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#include "dev/gpio.h"
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@ -54,22 +55,24 @@
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#include "sys/timer.h"
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#include "sys/etimer.h"
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/*---------------------------------------------------------------------------*/
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#define DEBUG 1
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#define DEBUG 0
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#if DEBUG
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#define PRINTF(...) printf(__VA_ARGS__)
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#else
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#define PRINTF(...)
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#endif
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/*---------------------------------------------------------------------------*/
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#define DEBOUNCE_DURATION (CLOCK_SECOND >> 6)
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#define DEBOUNCE_DURATION (CLOCK_SECOND >> 4)
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/*---------------------------------------------------------------------------*/
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#define ANEMOMETER_SENSOR_PORT_BASE GPIO_PORT_TO_BASE(ANEMOMETER_SENSOR_PORT)
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#define ANEMOMETER_SENSOR_PIN_MASK GPIO_PIN_MASK(ANEMOMETER_SENSOR_PIN)
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#define RAIN_GAUGE_SENSOR_PORT_BASE GPIO_PORT_TO_BASE(RAIN_GAUGE_SENSOR_PORT)
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#define RAIN_GAUGE_SENSOR_PIN_MASK GPIO_PIN_MASK(RAIN_GAUGE_SENSOR_PIN)
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/*---------------------------------------------------------------------------*/
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void (*rain_gauge_int_callback)(uint8_t value);
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void (*anemometer_int_callback)(uint8_t value);
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void (*rain_gauge_int_callback)(uint16_t value);
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void (*anemometer_int_callback)(uint16_t value);
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/*---------------------------------------------------------------------------*/
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static uint8_t enabled;
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/*---------------------------------------------------------------------------*/
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process_event_t anemometer_int_event;
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process_event_t rain_gauge_int_event;
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@ -80,12 +83,14 @@ static struct timer debouncetimer;
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typedef struct {
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uint16_t ticks;
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uint16_t value;
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} a_ticking_sensor_t;
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uint8_t int_en;
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uint16_t int_thres;
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} weather_meter_sensors_t;
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typedef struct {
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uint16_t wind_vane;
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a_ticking_sensor_t rain_gauge;
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a_ticking_sensor_t anemometer;
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weather_meter_sensors_t rain_gauge;
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weather_meter_sensors_t anemometer;
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} weather_meter_sensors;
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static weather_meter_sensors weather_sensors;
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/*---------------------------------------------------------------------------*/
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@ -103,9 +108,19 @@ PROCESS_THREAD(weather_meter_int_process, ev, data)
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while(1) {
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PROCESS_YIELD();
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/* The anemometer ticks twice per rotation, and a wind speed of 2.4 km/h
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* makes the switch close every second, convert RPM to linear velocity
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*/
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if((ev == anemometer_int_event) && (weather_sensors.anemometer.int_en)) {
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if(weather_sensors.anemometer.ticks >=
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weather_sensors.anemometer.int_thres) {
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anemometer_int_callback(weather_sensors.anemometer.ticks);
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}
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}
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if((ev == rain_gauge_int_event) && (weather_sensors.rain_gauge.int_en)) {
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if(weather_sensors.rain_gauge.ticks >=
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weather_sensors.rain_gauge.int_thres) {
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rain_gauge_int_callback(weather_sensors.rain_gauge.ticks);
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}
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}
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if(ev == PROCESS_EVENT_TIMER) {
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@ -113,9 +128,10 @@ PROCESS_THREAD(weather_meter_int_process, ev, data)
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GPIO_DISABLE_INTERRUPT(ANEMOMETER_SENSOR_PORT_BASE,
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ANEMOMETER_SENSOR_PIN_MASK);
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/* Two ticks per rotation */
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/* The anemometer ticks twice per rotation, and a wind speed of 2.4 km/h
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* makes the switch close every second, convert RPM to linear velocity
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*/
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rpm = weather_sensors.anemometer.ticks * 30;
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mph = rpm * WEATHER_METER_AUX_ANGULAR;
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mph /= 1000;
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@ -130,9 +146,6 @@ PROCESS_THREAD(weather_meter_int_process, ev, data)
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ANEMOMETER_SENSOR_PIN_MASK);
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etimer_restart(&et);
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}
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// anemometer_int_callback(0);
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// rain_gauge_int_callback(0);
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}
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PROCESS_END();
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}
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@ -175,6 +188,11 @@ value(int type)
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return WEATHER_METER_ERROR;
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}
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if(!enabled) {
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PRINTF("Weather: module is not configured\n");
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return WEATHER_METER_ERROR;
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}
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switch(type) {
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case WEATHER_METER_WIND_VANE:
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/* FIXME: return the values in degrees */
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@ -203,56 +221,92 @@ value(int type)
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static int
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configure(int type, int value)
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{
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if(type != WEATHER_METER_ACTIVE) {
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if((type != WEATHER_METER_ACTIVE) &&
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(type != WEATHER_METER_ANEMOMETER_INT_OVER) &&
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(type != WEATHER_METER_RAIN_GAUGE_INT_OVER) &&
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(type != WEATHER_METER_ANEMOMETER_INT_DIS) &&
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(type != WEATHER_METER_RAIN_GAUGE_INT_DIS)) {
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PRINTF("Weather: invalid configuration option\n");
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return WEATHER_METER_ERROR;
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}
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weather_sensors.wind_vane = 0;
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weather_sensors.anemometer.ticks = 0;
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weather_sensors.anemometer.value = 0;
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weather_sensors.rain_gauge.ticks = 0;
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weather_sensors.rain_gauge.value = 0;
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if(type == WEATHER_METER_ACTIVE) {
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if(!value) {
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anemometer_int_callback = NULL;
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rain_gauge_int_callback = NULL;
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GPIO_DISABLE_INTERRUPT(ANEMOMETER_SENSOR_PORT_BASE,
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ANEMOMETER_SENSOR_PIN_MASK);
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GPIO_DISABLE_INTERRUPT(RAIN_GAUGE_SENSOR_PORT_BASE,
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RAIN_GAUGE_SENSOR_PIN_MASK);
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weather_sensors.anemometer.int_en = 0;
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weather_sensors.rain_gauge.int_en = 0;
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weather_sensors.anemometer.ticks = 0;
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weather_sensors.rain_gauge.ticks = 0;
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if(!value) {
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anemometer_int_callback = NULL;
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rain_gauge_int_callback = NULL;
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GPIO_DISABLE_INTERRUPT(ANEMOMETER_SENSOR_PORT_BASE,
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ANEMOMETER_SENSOR_PIN_MASK);
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GPIO_DISABLE_INTERRUPT(RAIN_GAUGE_SENSOR_PORT_BASE,
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RAIN_GAUGE_SENSOR_PIN_MASK);
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process_exit(&weather_meter_int_process);
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enabled = 0;
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PRINTF("Weather: disabled\n");
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return WEATHER_METER_SUCCESS;
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}
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/* Configure the wind vane */
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adc_sensors.configure(SENSORS_HW_INIT, WIND_VANE_ADC);
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/* Configure anemometer interruption */
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GPIO_SOFTWARE_CONTROL(ANEMOMETER_SENSOR_PORT_BASE, ANEMOMETER_SENSOR_PIN_MASK);
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GPIO_SET_INPUT(ANEMOMETER_SENSOR_PORT_BASE, ANEMOMETER_SENSOR_PIN_MASK);
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GPIO_DETECT_RISING(ANEMOMETER_SENSOR_PORT_BASE, ANEMOMETER_SENSOR_PIN_MASK);
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GPIO_TRIGGER_SINGLE_EDGE(ANEMOMETER_SENSOR_PORT_BASE,
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ANEMOMETER_SENSOR_PIN_MASK);
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ioc_set_over(ANEMOMETER_SENSOR_PORT, ANEMOMETER_SENSOR_PIN, IOC_OVERRIDE_DIS);
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gpio_register_callback(weather_meter_interrupt_handler, ANEMOMETER_SENSOR_PORT,
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ANEMOMETER_SENSOR_PIN);
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/* Configure rain gauge interruption */
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GPIO_SOFTWARE_CONTROL(RAIN_GAUGE_SENSOR_PORT_BASE, RAIN_GAUGE_SENSOR_PIN_MASK);
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GPIO_SET_INPUT(RAIN_GAUGE_SENSOR_PORT_BASE, RAIN_GAUGE_SENSOR_PIN_MASK);
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GPIO_DETECT_RISING(RAIN_GAUGE_SENSOR_PORT_BASE, RAIN_GAUGE_SENSOR_PIN_MASK);
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GPIO_TRIGGER_SINGLE_EDGE(RAIN_GAUGE_SENSOR_PORT_BASE,
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RAIN_GAUGE_SENSOR_PIN_MASK);
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ioc_set_over(RAIN_GAUGE_SENSOR_PORT, RAIN_GAUGE_SENSOR_PIN, IOC_OVERRIDE_DIS);
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gpio_register_callback(weather_meter_interrupt_handler, RAIN_GAUGE_SENSOR_PORT,
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RAIN_GAUGE_SENSOR_PIN);
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process_start(&weather_meter_int_process, NULL);
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GPIO_ENABLE_INTERRUPT(ANEMOMETER_SENSOR_PORT_BASE, ANEMOMETER_SENSOR_PIN_MASK);
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GPIO_ENABLE_INTERRUPT(RAIN_GAUGE_SENSOR_PORT_BASE, RAIN_GAUGE_SENSOR_PIN_MASK);
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nvic_interrupt_enable(ANEMOMETER_SENSOR_VECTOR);
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nvic_interrupt_enable(RAIN_GAUGE_SENSOR_VECTOR);
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enabled = 1;
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PRINTF("Weather: started\n");
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return WEATHER_METER_SUCCESS;
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}
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/* Configure the wind vane */
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adc_sensors.configure(SENSORS_HW_INIT, WIND_VANE_ADC);
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/* Configure anemometer interruption */
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GPIO_SOFTWARE_CONTROL(ANEMOMETER_SENSOR_PORT_BASE, ANEMOMETER_SENSOR_PIN_MASK);
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GPIO_SET_INPUT(ANEMOMETER_SENSOR_PORT_BASE, ANEMOMETER_SENSOR_PIN_MASK);
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GPIO_DETECT_RISING(ANEMOMETER_SENSOR_PORT_BASE, ANEMOMETER_SENSOR_PIN_MASK);
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GPIO_TRIGGER_SINGLE_EDGE(ANEMOMETER_SENSOR_PORT_BASE,
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ANEMOMETER_SENSOR_PIN_MASK);
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ioc_set_over(ANEMOMETER_SENSOR_PORT, ANEMOMETER_SENSOR_PIN, IOC_OVERRIDE_DIS);
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gpio_register_callback(weather_meter_interrupt_handler, ANEMOMETER_SENSOR_PORT,
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ANEMOMETER_SENSOR_PIN);
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/* Configure rain gauge interruption */
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GPIO_SOFTWARE_CONTROL(RAIN_GAUGE_SENSOR_PORT_BASE, RAIN_GAUGE_SENSOR_PIN_MASK);
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GPIO_SET_INPUT(RAIN_GAUGE_SENSOR_PORT_BASE, RAIN_GAUGE_SENSOR_PIN_MASK);
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GPIO_DETECT_RISING(RAIN_GAUGE_SENSOR_PORT_BASE, RAIN_GAUGE_SENSOR_PIN_MASK);
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GPIO_TRIGGER_SINGLE_EDGE(RAIN_GAUGE_SENSOR_PORT_BASE,
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RAIN_GAUGE_SENSOR_PIN_MASK);
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ioc_set_over(RAIN_GAUGE_SENSOR_PORT, RAIN_GAUGE_SENSOR_PIN, IOC_OVERRIDE_DIS);
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gpio_register_callback(weather_meter_interrupt_handler, RAIN_GAUGE_SENSOR_PORT,
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RAIN_GAUGE_SENSOR_PIN);
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process_start(&weather_meter_int_process, NULL);
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GPIO_ENABLE_INTERRUPT(ANEMOMETER_SENSOR_PORT_BASE, ANEMOMETER_SENSOR_PIN_MASK);
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GPIO_ENABLE_INTERRUPT(RAIN_GAUGE_SENSOR_PORT_BASE, RAIN_GAUGE_SENSOR_PIN_MASK);
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nvic_interrupt_enable(ANEMOMETER_SENSOR_VECTOR);
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nvic_interrupt_enable(RAIN_GAUGE_SENSOR_VECTOR);
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switch(type) {
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case WEATHER_METER_ANEMOMETER_INT_OVER:
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weather_sensors.anemometer.int_en = 1;
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weather_sensors.anemometer.int_thres = value;
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PRINTF("Weather: anemometer threshold %u\n", value);
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break;
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case WEATHER_METER_RAIN_GAUGE_INT_OVER:
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weather_sensors.rain_gauge.int_en = 1;
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weather_sensors.rain_gauge.int_thres = value;
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PRINTF("Weather: rain gauge threshold %u\n", value);
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break;
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case WEATHER_METER_ANEMOMETER_INT_DIS:
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PRINTF("Weather: anemometer int disabled\n");
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weather_sensors.anemometer.int_en = 0;
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break;
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case WEATHER_METER_RAIN_GAUGE_INT_DIS:
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PRINTF("Weather: rain gauge int disabled\n");
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weather_sensors.rain_gauge.int_en = 0;
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break;
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default:
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return WEATHER_METER_ERROR;
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}
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return WEATHER_METER_SUCCESS;
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}
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@ -44,6 +44,7 @@
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*/
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/*---------------------------------------------------------------------------*/
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#include "lib/sensors.h"
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#include "dev/zoul-sensors.h"
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/* -------------------------------------------------------------------------- */
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#ifndef WEATHER_METER_H_
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#define WEATHER_METER_H_
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@ -52,24 +53,29 @@
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* \name Weather meter sensor return and operation values
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* @{
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*/
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#define WEATHER_METER_ANEMOMETER 0x00
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#define WEATHER_METER_RAIN_GAUGE 0x01
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#define WEATHER_METER_WIND_VANE 0x02
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#define WEATHER_METER_ANEMOMETER 0x00
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#define WEATHER_METER_RAIN_GAUGE 0x01
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#define WEATHER_METER_WIND_VANE 0x02
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#define WEATHER_METER_ACTIVE SENSORS_ACTIVE
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#define WEATHER_METER_SUCCESS 0
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#define WEATHER_METER_ERROR (-1)
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#define WEATHER_METER_ACTIVE SENSORS_ACTIVE
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#define WEATHER_METER_ANEMOMETER_INT_OVER HW_INT_OVER_THRS
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#define WEATHER_METER_ANEMOMETER_INT_DIS HW_INT_DISABLE
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#define WEATHER_METER_RAIN_GAUGE_INT_OVER (HW_INT_OVER_THRS << 1)
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#define WEATHER_METER_RAIN_GAUGE_INT_DIS (HW_INT_DISABLE << 1)
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#define WEATHER_METER_ANEMOMETER_RADIUS 65 /**< 65.2 mm pin to cup centre */
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#define WEATHER_METER_AUX_CAL 377 /**< 2*pi*60 (376.992 rounded) */
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#define WEATHER_METER_AUX_ANGULAR (WEATHER_METER_ANEMOMETER_RADIUS * \
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WEATHER_METER_AUX_CAL)
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#define WEATHER_METER_AUX_RAIN_MM 2794 /**< 0.2794mm per tick */
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#define WEATHER_METER_SUCCESS 0
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#define WEATHER_METER_ERROR (-1)
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#define WEATHER_METER_ANEMOMETER_RADIUS 65 /**< 65.2 mm pin to cup centre */
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#define WEATHER_METER_AUX_CAL 377 /**< 2*pi*60 (376.992 rounded) */
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#define WEATHER_METER_AUX_ANGULAR (WEATHER_METER_ANEMOMETER_RADIUS * \
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WEATHER_METER_AUX_CAL)
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#define WEATHER_METER_AUX_RAIN_MM 2794 /**< 0.2794mm per tick */
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#ifdef WEATHER_METER_RAIN_CONF_RETURN
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#define WEATHER_METER_RAIN_RETURN_TICKS WEATHER_METER_RAIN_CONF_RETURN
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#define WEATHER_METER_RAIN_RETURN_TICKS WEATHER_METER_RAIN_CONF_RETURN
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#else
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#define WEATHER_METER_RAIN_RETURN_TICKS 1
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#define WEATHER_METER_RAIN_RETURN_TICKS 1
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#endif
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/** @} */
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/* -------------------------------------------------------------------------- */
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@ -79,8 +85,8 @@
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*/
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#define WEATHER_METER_REGISTER_ANEMOMETER_INT(ptr) anemometer_int_callback = ptr;
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#define WEATHER_METER_REGISTER_RAIN_GAUGE_INT(ptr) rain_gauge_int_callback = ptr;
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extern void (*anemometer_int_callback)(uint8_t value);
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extern void (*rain_gauge_int_callback)(uint8_t value);
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extern void (*anemometer_int_callback)(uint16_t value);
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extern void (*rain_gauge_int_callback)(uint16_t value);
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/** @} */
|
||||
/* -------------------------------------------------------------------------- */
|
||||
/**
|
||||
|
Loading…
Reference in New Issue
Block a user