Added a singleton wrapper for bmp3xx

src/modules/Telemetry/Sensor/BMP3XXSensor.cpp

@@ -2,17 +2,11 @@
 
 #if !MESHTASTIC_EXCLUDE_ENVIRONMENTAL_SENSOR
 
-#include "../mesh/generated/meshtastic/telemetry.pb.h"
 #include "BMP3XXSensor.h"
-#include "TelemetrySensor.h"
-#include <Adafruit_BMP3XX.h>
-#include <typeinfo>
 
 BMP3XXSensor::BMP3XXSensor() : TelemetrySensor(meshtastic_TelemetrySensorType_BMP3XX, "BMP3XX"){}
 
-BMP3XXSensor bmp3xxSensor;
-
-void BMP3XXSensor::setup(){};
+void BMP3XXSensor::setup() {}
 
 int32_t BMP3XXSensor::runOnce()
 {
@@ -22,30 +16,44 @@ int32_t BMP3XXSensor::runOnce()
         return DEFAULT_SENSOR_MINIMUM_WAIT_TIME_BETWEEN_READS;
     }
 
-    status = bmp3xx.begin_I2C(nodeTelemetrySensorsMap[sensorType].first, nodeTelemetrySensorsMap[sensorType].second);
+    // Get a singleton instance and initialise the bmp3xx
+    if (bmp3xx == nullptr) {
+        bmp3xx = BMP3XXSingleton::GetInstance();
+    }
+    status = bmp3xx->begin_I2C(nodeTelemetrySensorsMap[sensorType].first, nodeTelemetrySensorsMap[sensorType].second);
 
     // set up oversampling and filter initialization
-    bmp3xx.setTemperatureOversampling(BMP3_OVERSAMPLING_4X);
-    bmp3xx.setPressureOversampling(BMP3_OVERSAMPLING_8X);
-    bmp3xx.setIIRFilterCoeff(BMP3_IIR_FILTER_COEFF_3);
-    bmp3xx.setOutputDataRate(BMP3_ODR_25_HZ);
+    bmp3xx->setTemperatureOversampling(BMP3_OVERSAMPLING_4X);
+    bmp3xx->setPressureOversampling(BMP3_OVERSAMPLING_8X);
+    bmp3xx->setIIRFilterCoeff(BMP3_IIR_FILTER_COEFF_3);
+    bmp3xx->setOutputDataRate(BMP3_ODR_25_HZ);
 
     // take a couple of initial readings to settle the sensor filters
     for (int i = 0; i < 3; i++)
     {
-        bmp3xx.performReading();
+        bmp3xx->performReading();
     }
     return initI2CSensor();
 }
 
 bool BMP3XXSensor::getMetrics(meshtastic_Telemetry *measurement)
 {
+    if (bmp3xx == nullptr) {
+        bmp3xx = BMP3XXSingleton::GetInstance();
+    }
     if ((int)measurement->which_variant == meshtastic_Telemetry_environment_metrics_tag)
     {
-        bmp3xx.performReading();
-        measurement->variant.environment_metrics.temperature = bmp3xx.readTemperature();
-        measurement->variant.environment_metrics.barometric_pressure = bmp3xx.readPressure() / 100.0F;
-        LOG_DEBUG("BMP3XXSensor::getMetrics id: %i temp: %.1f press %.1f\n", measurement->which_variant, measurement->variant.environment_metrics.temperature, measurement->variant.environment_metrics.barometric_pressure);
+        bmp3xx->performReading();
+
+        measurement->variant.environment_metrics.has_temperature = true;
+        measurement->variant.environment_metrics.has_barometric_pressure = true;
+        measurement->variant.environment_metrics.has_relative_humidity = false;
+
+        measurement->variant.environment_metrics.temperature = static_cast<float>(bmp3xx->temperature);
+        measurement->variant.environment_metrics.barometric_pressure = static_cast<float>(bmp3xx->pressure) / 100.0F;
+        measurement->variant.environment_metrics.relative_humidity = 0.0f;
+
+       LOG_DEBUG("BMP3XXSensor::getMetrics id: %i temp: %.1f press %.1f\n", measurement->which_variant, measurement->variant.environment_metrics.temperature, measurement->variant.environment_metrics.barometric_pressure);
     }
     else
     {
@@ -54,9 +62,35 @@ bool BMP3XXSensor::getMetrics(meshtastic_Telemetry *measurement)
     return true;
 }
 
-float BMP3XXSensor::getAltitudeAMSL()
+// Get a singleton wrapper for an Adafruit_bmp3xx
+BMP3XXSingleton *BMP3XXSingleton::GetInstance()
 {
-    return bmp3xx.readAltitude(SEAL_LEVEL_HPA);
+    std::lock_guard<std::mutex> lock(mutex_);
+    if (pinstance_ == nullptr)
+    {
+        pinstance_ = new BMP3XXSingleton();
+    }
+    return pinstance_;
+}
+
+BMP3XXSingleton::BMP3XXSingleton(){}
+
+BMP3XXSingleton::~BMP3XXSingleton(){}
+
+BMP3XXSingleton* BMP3XXSingleton::pinstance_{nullptr};
+
+std::mutex BMP3XXSingleton::mutex_;
+
+bool BMP3XXSingleton::performReading()
+{
+    bool result = Adafruit_BMP3XX::performReading();
+    if (result) {
+        double atmospheric = this->pressure / 100.0;
+        altitudeAmslMetres = 44330.0 * (1.0 - pow(atmospheric / SEAL_LEVEL_HPA, 0.1903));
+    } else {
+        altitudeAmslMetres = 0.0;
+    }
+    return result;
 }
 
 #endif