#include "integration_sensor.h" #include "esphome/core/helpers.h" #include "esphome/core/log.h" namespace esphome { namespace integration { static const char *const TAG = "integration"; void IntegrationSensor::setup() { if (this->restore_) { this->rtc_ = global_preferences.make_preference(this->get_object_id_hash()); float preference_value = 0; this->rtc_.load(&preference_value); this->result_ = preference_value; } this->last_update_ = millis(); this->publish_and_save_(this->result_); this->sensor_->add_on_state_callback([this](float state) { this->process_sensor_value_(state); }); } void IntegrationSensor::dump_config() { LOG_SENSOR("", "Integration Sensor", this); } std::string IntegrationSensor::unit_of_measurement() { std::string suffix; switch (this->time_) { case INTEGRATION_SENSOR_TIME_MILLISECOND: suffix = "ms"; break; case INTEGRATION_SENSOR_TIME_SECOND: suffix = "s"; break; case INTEGRATION_SENSOR_TIME_MINUTE: suffix = "min"; break; case INTEGRATION_SENSOR_TIME_HOUR: suffix = "h"; break; case INTEGRATION_SENSOR_TIME_DAY: suffix = "d"; break; } std::string base = this->sensor_->get_unit_of_measurement(); if (str_endswith(base, "/" + suffix)) { return base.substr(0, base.size() - suffix.size() - 1); } return base + suffix; } void IntegrationSensor::process_sensor_value_(float value) { const uint32_t now = millis(); const double old_value = this->last_value_; const double new_value = value; const uint32_t dt_ms = now - this->last_update_; const double dt = dt_ms * this->get_time_factor_(); double area = 0.0f; switch (this->method_) { case INTEGRATION_METHOD_TRAPEZOID: area = dt * (old_value + new_value) / 2.0; break; case INTEGRATION_METHOD_LEFT: area = dt * old_value; break; case INTEGRATION_METHOD_RIGHT: area = dt * new_value; break; } this->last_value_ = new_value; this->last_update_ = now; this->publish_and_save_(this->result_ + area); } } // namespace integration } // namespace esphome