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Add combination sensor and remove absorbed kalman_combinator component (#5438)
This commit is contained in:
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commit
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@ -71,6 +71,7 @@ esphome/components/cd74hc4067/* @asoehlke
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esphome/components/climate/* @esphome/core
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esphome/components/climate_ir/* @glmnet
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esphome/components/color_temperature/* @jesserockz
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esphome/components/combination/* @Cat-Ion @kahrendt
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esphome/components/coolix/* @glmnet
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esphome/components/copy/* @OttoWinter
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esphome/components/cover/* @esphome/core
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@ -161,7 +162,6 @@ esphome/components/integration/* @OttoWinter
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esphome/components/internal_temperature/* @Mat931
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esphome/components/interval/* @esphome/core
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esphome/components/json/* @OttoWinter
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esphome/components/kalman_combinator/* @Cat-Ion
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esphome/components/key_collector/* @ssieb
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esphome/components/key_provider/* @ssieb
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esphome/components/kuntze/* @ssieb
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0
esphome/components/combination/__init__.py
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0
esphome/components/combination/__init__.py
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262
esphome/components/combination/combination.cpp
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262
esphome/components/combination/combination.cpp
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@ -0,0 +1,262 @@
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#include "combination.h"
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#include "esphome/core/log.h"
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#include "esphome/core/hal.h"
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#include <cmath>
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#include <functional>
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#include <vector>
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namespace esphome {
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namespace combination {
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static const char *const TAG = "combination";
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void CombinationComponent::log_config_(const LogString *combo_type) {
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LOG_SENSOR("", "Combination Sensor:", this);
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ESP_LOGCONFIG(TAG, " Combination Type: %s", LOG_STR_ARG(combo_type));
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this->log_source_sensors();
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}
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void CombinationNoParameterComponent::add_source(Sensor *sensor) { this->sensors_.emplace_back(sensor); }
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void CombinationOneParameterComponent::add_source(Sensor *sensor, std::function<float(float)> const &stddev) {
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this->sensor_pairs_.emplace_back(sensor, stddev);
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}
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void CombinationOneParameterComponent::add_source(Sensor *sensor, float stddev) {
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this->add_source(sensor, std::function<float(float)>{[stddev](float x) -> float { return stddev; }});
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}
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void CombinationNoParameterComponent::log_source_sensors() {
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ESP_LOGCONFIG(TAG, " Source Sensors:");
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for (const auto &sensor : this->sensors_) {
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ESP_LOGCONFIG(TAG, " - %s", sensor->get_name().c_str());
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}
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}
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void CombinationOneParameterComponent::log_source_sensors() {
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ESP_LOGCONFIG(TAG, " Source Sensors:");
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for (const auto &sensor : this->sensor_pairs_) {
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auto &entity = *sensor.first;
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ESP_LOGCONFIG(TAG, " - %s", entity.get_name().c_str());
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}
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}
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void CombinationNoParameterComponent::setup() {
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for (const auto &sensor : this->sensors_) {
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// All sensor updates are deferred until the next loop. This avoids publishing the combined sensor's result
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// repeatedly in the same loop if multiple source senors update.
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sensor->add_on_state_callback(
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[this](float value) -> void { this->defer("update", [this, value]() { this->handle_new_value(value); }); });
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}
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}
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void KalmanCombinationComponent::dump_config() {
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this->log_config_(LOG_STR("kalman"));
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ESP_LOGCONFIG(TAG, " Update variance: %f per ms", this->update_variance_value_);
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if (this->std_dev_sensor_ != nullptr) {
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LOG_SENSOR(" ", "Standard Deviation Sensor:", this->std_dev_sensor_);
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}
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}
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void KalmanCombinationComponent::setup() {
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for (const auto &sensor : this->sensor_pairs_) {
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const auto stddev = sensor.second;
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sensor.first->add_on_state_callback([this, stddev](float x) -> void { this->correct_(x, stddev(x)); });
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}
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}
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void KalmanCombinationComponent::update_variance_() {
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uint32_t now = millis();
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// Variance increases by update_variance_ each millisecond
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auto dt = now - this->last_update_;
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auto dv = this->update_variance_value_ * dt;
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this->variance_ += dv;
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this->last_update_ = now;
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}
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void KalmanCombinationComponent::correct_(float value, float stddev) {
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if (std::isnan(value) || std::isinf(stddev)) {
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return;
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}
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if (std::isnan(this->state_) || std::isinf(this->variance_)) {
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this->state_ = value;
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this->variance_ = stddev * stddev;
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if (this->std_dev_sensor_ != nullptr) {
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this->std_dev_sensor_->publish_state(stddev);
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}
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return;
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}
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this->update_variance_();
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// Combine two gaussian distributions mu1+-var1, mu2+-var2 to a new one around mu
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// Use the value with the smaller variance as mu1 to prevent precision errors
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const bool this_first = this->variance_ < (stddev * stddev);
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const float mu1 = this_first ? this->state_ : value;
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const float mu2 = this_first ? value : this->state_;
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const float var1 = this_first ? this->variance_ : stddev * stddev;
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const float var2 = this_first ? stddev * stddev : this->variance_;
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const float mu = mu1 + var1 * (mu2 - mu1) / (var1 + var2);
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const float var = var1 - (var1 * var1) / (var1 + var2);
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// Update and publish state
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this->state_ = mu;
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this->variance_ = var;
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this->publish_state(mu);
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if (this->std_dev_sensor_ != nullptr) {
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this->std_dev_sensor_->publish_state(std::sqrt(var));
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}
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}
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void LinearCombinationComponent::setup() {
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for (const auto &sensor : this->sensor_pairs_) {
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// All sensor updates are deferred until the next loop. This avoids publishing the combined sensor's result
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// repeatedly in the same loop if multiple source senors update.
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sensor.first->add_on_state_callback(
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[this](float value) -> void { this->defer("update", [this, value]() { this->handle_new_value(value); }); });
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}
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}
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void LinearCombinationComponent::handle_new_value(float value) {
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// Multiplies each sensor state by a configured coeffecient and then sums
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if (!std::isfinite(value))
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return;
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float sum = 0.0;
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for (const auto &sensor : this->sensor_pairs_) {
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const float sensor_state = sensor.first->state;
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if (std::isfinite(sensor_state)) {
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sum += sensor_state * sensor.second(sensor_state);
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}
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}
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this->publish_state(sum);
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};
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void MaximumCombinationComponent::handle_new_value(float value) {
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if (!std::isfinite(value))
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return;
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float max_value = (-1) * std::numeric_limits<float>::infinity(); // note x = max(x, -infinity)
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for (const auto &sensor : this->sensors_) {
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if (std::isfinite(sensor->state)) {
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max_value = std::max(max_value, sensor->state);
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}
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}
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this->publish_state(max_value);
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}
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void MeanCombinationComponent::handle_new_value(float value) {
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if (!std::isfinite(value))
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return;
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float sum = 0.0;
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size_t count = 0.0;
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for (const auto &sensor : this->sensors_) {
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if (std::isfinite(sensor->state)) {
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++count;
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sum += sensor->state;
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}
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}
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float mean = sum / count;
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this->publish_state(mean);
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}
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void MedianCombinationComponent::handle_new_value(float value) {
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// Sorts sensor states in ascending order and determines the middle value
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if (!std::isfinite(value))
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return;
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std::vector<float> sensor_states;
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for (const auto &sensor : this->sensors_) {
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if (std::isfinite(sensor->state)) {
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sensor_states.push_back(sensor->state);
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}
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}
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sort(sensor_states.begin(), sensor_states.end());
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size_t sensor_states_size = sensor_states.size();
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float median = NAN;
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if (sensor_states_size) {
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if (sensor_states_size % 2) {
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// Odd number of measurements, use middle measurement
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median = sensor_states[sensor_states_size / 2];
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} else {
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// Even number of measurements, use the average of the two middle measurements
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median = (sensor_states[sensor_states_size / 2] + sensor_states[sensor_states_size / 2 - 1]) / 2.0;
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}
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}
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this->publish_state(median);
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}
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void MinimumCombinationComponent::handle_new_value(float value) {
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if (!std::isfinite(value))
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return;
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float min_value = std::numeric_limits<float>::infinity(); // note x = min(x, infinity)
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for (const auto &sensor : this->sensors_) {
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if (std::isfinite(sensor->state)) {
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min_value = std::min(min_value, sensor->state);
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}
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}
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this->publish_state(min_value);
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}
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void MostRecentCombinationComponent::handle_new_value(float value) { this->publish_state(value); }
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void RangeCombinationComponent::handle_new_value(float value) {
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// Sorts sensor states then takes difference between largest and smallest states
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if (!std::isfinite(value))
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return;
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std::vector<float> sensor_states;
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for (const auto &sensor : this->sensors_) {
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if (std::isfinite(sensor->state)) {
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sensor_states.push_back(sensor->state);
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}
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}
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sort(sensor_states.begin(), sensor_states.end());
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float range = sensor_states.back() - sensor_states.front();
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this->publish_state(range);
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}
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void SumCombinationComponent::handle_new_value(float value) {
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if (!std::isfinite(value))
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return;
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float sum = 0.0;
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for (const auto &sensor : this->sensors_) {
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if (std::isfinite(sensor->state)) {
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sum += sensor->state;
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}
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}
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this->publish_state(sum);
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}
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} // namespace combination
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} // namespace esphome
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141
esphome/components/combination/combination.h
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141
esphome/components/combination/combination.h
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@ -0,0 +1,141 @@
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#pragma once
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#include "esphome/core/component.h"
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#include "esphome/components/sensor/sensor.h"
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#include <vector>
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namespace esphome {
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namespace combination {
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class CombinationComponent : public Component, public sensor::Sensor {
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public:
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float get_setup_priority() const override { return esphome::setup_priority::DATA; }
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/// @brief Logs all source sensor's names
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virtual void log_source_sensors() = 0;
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protected:
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/// @brief Logs the sensor for use in dump_config
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/// @param combo_type Name of the combination operation
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void log_config_(const LogString *combo_type);
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};
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/// @brief Base class for operations that do not require an extra parameter to compute the combination
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class CombinationNoParameterComponent : public CombinationComponent {
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public:
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/// @brief Adds a callback to each source sensor
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void setup() override;
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void add_source(Sensor *sensor);
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/// @brief Computes the combination
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/// @param value Newest sensor measurement
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virtual void handle_new_value(float value) = 0;
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/// @brief Logs all source sensor's names in sensors_
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void log_source_sensors() override;
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protected:
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std::vector<Sensor *> sensors_;
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};
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// Base class for opertions that require one parameter to compute the combination
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class CombinationOneParameterComponent : public CombinationComponent {
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public:
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void add_source(Sensor *sensor, std::function<float(float)> const &stddev);
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void add_source(Sensor *sensor, float stddev);
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/// @brief Logs all source sensor's names in sensor_pairs_
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void log_source_sensors() override;
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protected:
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std::vector<std::pair<Sensor *, std::function<float(float)>>> sensor_pairs_;
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};
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class KalmanCombinationComponent : public CombinationOneParameterComponent {
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public:
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void dump_config() override;
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void setup() override;
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void set_process_std_dev(float process_std_dev) {
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this->update_variance_value_ = process_std_dev * process_std_dev * 0.001f;
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}
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void set_std_dev_sensor(Sensor *sensor) { this->std_dev_sensor_ = sensor; }
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protected:
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void update_variance_();
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void correct_(float value, float stddev);
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// Optional sensor for publishing the current error
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sensor::Sensor *std_dev_sensor_{nullptr};
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// Tick of the last update
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uint32_t last_update_{0};
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// Change of the variance, per ms
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float update_variance_value_{0.f};
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// Best guess for the state and its variance
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float state_{NAN};
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float variance_{INFINITY};
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};
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class LinearCombinationComponent : public CombinationOneParameterComponent {
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public:
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void dump_config() override { this->log_config_(LOG_STR("linear")); }
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void setup() override;
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void handle_new_value(float value);
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};
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class MaximumCombinationComponent : public CombinationNoParameterComponent {
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public:
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void dump_config() override { this->log_config_(LOG_STR("max")); }
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void handle_new_value(float value) override;
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};
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class MeanCombinationComponent : public CombinationNoParameterComponent {
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public:
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void dump_config() override { this->log_config_(LOG_STR("mean")); }
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void handle_new_value(float value) override;
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};
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class MedianCombinationComponent : public CombinationNoParameterComponent {
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public:
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void dump_config() override { this->log_config_(LOG_STR("median")); }
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void handle_new_value(float value) override;
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};
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class MinimumCombinationComponent : public CombinationNoParameterComponent {
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public:
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void dump_config() override { this->log_config_(LOG_STR("min")); }
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void handle_new_value(float value) override;
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};
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class MostRecentCombinationComponent : public CombinationNoParameterComponent {
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public:
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void dump_config() override { this->log_config_(LOG_STR("most_recently_updated")); }
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void handle_new_value(float value) override;
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};
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class RangeCombinationComponent : public CombinationNoParameterComponent {
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public:
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void dump_config() override { this->log_config_(LOG_STR("range")); }
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void handle_new_value(float value) override;
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};
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class SumCombinationComponent : public CombinationNoParameterComponent {
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public:
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void dump_config() override { this->log_config_(LOG_STR("sum")); }
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void handle_new_value(float value) override;
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};
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} // namespace combination
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} // namespace esphome
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176
esphome/components/combination/sensor.py
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176
esphome/components/combination/sensor.py
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import esphome.codegen as cg
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import esphome.config_validation as cv
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from esphome.components import sensor
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from esphome.const import (
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CONF_ACCURACY_DECIMALS,
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CONF_DEVICE_CLASS,
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CONF_ENTITY_CATEGORY,
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CONF_ICON,
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CONF_ID,
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CONF_RANGE,
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CONF_SOURCE,
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CONF_SUM,
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CONF_TYPE,
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CONF_UNIT_OF_MEASUREMENT,
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)
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from esphome.core.entity_helpers import inherit_property_from
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CODEOWNERS = ["@Cat-Ion", "@kahrendt"]
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combination_ns = cg.esphome_ns.namespace("combination")
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KalmanCombinationComponent = combination_ns.class_(
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"KalmanCombinationComponent", cg.Component, sensor.Sensor
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)
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LinearCombinationComponent = combination_ns.class_(
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"LinearCombinationComponent", cg.Component, sensor.Sensor
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)
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MaximumCombinationComponent = combination_ns.class_(
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"MaximumCombinationComponent", cg.Component, sensor.Sensor
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)
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MeanCombinationComponent = combination_ns.class_(
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"MeanCombinationComponent", cg.Component, sensor.Sensor
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)
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MedianCombinationComponent = combination_ns.class_(
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"MedianCombinationComponent", cg.Component, sensor.Sensor
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)
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MinimumCombinationComponent = combination_ns.class_(
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"MinimumCombinationComponent", cg.Component, sensor.Sensor
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)
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MostRecentCombinationComponent = combination_ns.class_(
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"MostRecentCombinationComponent", cg.Component, sensor.Sensor
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)
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RangeCombinationComponent = combination_ns.class_(
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"RangeCombinationComponent", cg.Component, sensor.Sensor
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)
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SumCombinationComponent = combination_ns.class_(
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"SumCombinationComponent", cg.Component, sensor.Sensor
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)
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CONF_COEFFECIENT = "coeffecient"
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CONF_ERROR = "error"
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CONF_KALMAN = "kalman"
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CONF_LINEAR = "linear"
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CONF_MAX = "max"
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CONF_MEAN = "mean"
|
||||
CONF_MEDIAN = "median"
|
||||
CONF_MIN = "min"
|
||||
CONF_MOST_RECENTLY_UPDATED = "most_recently_updated"
|
||||
CONF_PROCESS_STD_DEV = "process_std_dev"
|
||||
CONF_SOURCES = "sources"
|
||||
CONF_STD_DEV = "std_dev"
|
||||
|
||||
|
||||
KALMAN_SOURCE_SCHEMA = cv.Schema(
|
||||
{
|
||||
cv.Required(CONF_SOURCE): cv.use_id(sensor.Sensor),
|
||||
cv.Required(CONF_ERROR): cv.templatable(cv.positive_float),
|
||||
}
|
||||
)
|
||||
|
||||
LINEAR_SOURCE_SCHEMA = cv.Schema(
|
||||
{
|
||||
cv.Required(CONF_SOURCE): cv.use_id(sensor.Sensor),
|
||||
cv.Required(CONF_COEFFECIENT): cv.templatable(cv.float_),
|
||||
}
|
||||
)
|
||||
|
||||
SENSOR_ONLY_SOURCE_SCHEMA = cv.Schema(
|
||||
{
|
||||
cv.Required(CONF_SOURCE): cv.use_id(sensor.Sensor),
|
||||
}
|
||||
)
|
||||
|
||||
CONFIG_SCHEMA = cv.typed_schema(
|
||||
{
|
||||
CONF_KALMAN: sensor.sensor_schema(KalmanCombinationComponent)
|
||||
.extend(cv.COMPONENT_SCHEMA)
|
||||
.extend(
|
||||
{
|
||||
cv.Required(CONF_PROCESS_STD_DEV): cv.positive_float,
|
||||
cv.Required(CONF_SOURCES): cv.ensure_list(KALMAN_SOURCE_SCHEMA),
|
||||
cv.Optional(CONF_STD_DEV): sensor.sensor_schema(),
|
||||
}
|
||||
),
|
||||
CONF_LINEAR: sensor.sensor_schema(LinearCombinationComponent)
|
||||
.extend(cv.COMPONENT_SCHEMA)
|
||||
.extend({cv.Required(CONF_SOURCES): cv.ensure_list(LINEAR_SOURCE_SCHEMA)}),
|
||||
CONF_MAX: sensor.sensor_schema(MaximumCombinationComponent)
|
||||
.extend(cv.COMPONENT_SCHEMA)
|
||||
.extend({cv.Required(CONF_SOURCES): cv.ensure_list(SENSOR_ONLY_SOURCE_SCHEMA)}),
|
||||
CONF_MEAN: sensor.sensor_schema(MeanCombinationComponent)
|
||||
.extend(cv.COMPONENT_SCHEMA)
|
||||
.extend({cv.Required(CONF_SOURCES): cv.ensure_list(SENSOR_ONLY_SOURCE_SCHEMA)}),
|
||||
CONF_MEDIAN: sensor.sensor_schema(MedianCombinationComponent)
|
||||
.extend(cv.COMPONENT_SCHEMA)
|
||||
.extend({cv.Required(CONF_SOURCES): cv.ensure_list(SENSOR_ONLY_SOURCE_SCHEMA)}),
|
||||
CONF_MIN: sensor.sensor_schema(MinimumCombinationComponent)
|
||||
.extend(cv.COMPONENT_SCHEMA)
|
||||
.extend({cv.Required(CONF_SOURCES): cv.ensure_list(SENSOR_ONLY_SOURCE_SCHEMA)}),
|
||||
CONF_MOST_RECENTLY_UPDATED: sensor.sensor_schema(MostRecentCombinationComponent)
|
||||
.extend(cv.COMPONENT_SCHEMA)
|
||||
.extend({cv.Required(CONF_SOURCES): cv.ensure_list(SENSOR_ONLY_SOURCE_SCHEMA)}),
|
||||
CONF_RANGE: sensor.sensor_schema(RangeCombinationComponent)
|
||||
.extend(cv.COMPONENT_SCHEMA)
|
||||
.extend({cv.Required(CONF_SOURCES): cv.ensure_list(SENSOR_ONLY_SOURCE_SCHEMA)}),
|
||||
CONF_SUM: sensor.sensor_schema(SumCombinationComponent)
|
||||
.extend(cv.COMPONENT_SCHEMA)
|
||||
.extend({cv.Required(CONF_SOURCES): cv.ensure_list(SENSOR_ONLY_SOURCE_SCHEMA)}),
|
||||
}
|
||||
)
|
||||
|
||||
|
||||
# Inherit some sensor values from the first source, for both the state and the error value
|
||||
# CONF_STATE_CLASS could also be inherited, but might lead to unexpected behaviour with "total_increasing"
|
||||
properties_to_inherit = [
|
||||
CONF_ACCURACY_DECIMALS,
|
||||
CONF_DEVICE_CLASS,
|
||||
CONF_ENTITY_CATEGORY,
|
||||
CONF_ICON,
|
||||
CONF_UNIT_OF_MEASUREMENT,
|
||||
]
|
||||
inherit_schema_for_state = [
|
||||
inherit_property_from(property, [CONF_SOURCES, 0, CONF_SOURCE])
|
||||
for property in properties_to_inherit
|
||||
]
|
||||
inherit_schema_for_std_dev = [
|
||||
inherit_property_from([CONF_STD_DEV, property], [CONF_SOURCES, 0, CONF_SOURCE])
|
||||
for property in properties_to_inherit
|
||||
]
|
||||
|
||||
FINAL_VALIDATE_SCHEMA = cv.All(
|
||||
*inherit_schema_for_state,
|
||||
*inherit_schema_for_std_dev,
|
||||
)
|
||||
|
||||
|
||||
async def to_code(config):
|
||||
var = cg.new_Pvariable(config[CONF_ID])
|
||||
await cg.register_component(var, config)
|
||||
await sensor.register_sensor(var, config)
|
||||
|
||||
if proces_std_dev := config.get(CONF_PROCESS_STD_DEV):
|
||||
cg.add(var.set_process_std_dev(proces_std_dev))
|
||||
|
||||
for source_conf in config[CONF_SOURCES]:
|
||||
source = await cg.get_variable(source_conf[CONF_SOURCE])
|
||||
if config[CONF_TYPE] == CONF_KALMAN:
|
||||
error = await cg.templatable(
|
||||
source_conf[CONF_ERROR],
|
||||
[(float, "x")],
|
||||
cg.float_,
|
||||
)
|
||||
cg.add(var.add_source(source, error))
|
||||
elif config[CONF_TYPE] == CONF_LINEAR:
|
||||
coeffecient = await cg.templatable(
|
||||
source_conf[CONF_COEFFECIENT],
|
||||
[(float, "x")],
|
||||
cg.float_,
|
||||
)
|
||||
cg.add(var.add_source(source, coeffecient))
|
||||
else:
|
||||
cg.add(var.add_source(source))
|
||||
|
||||
if CONF_STD_DEV in config:
|
||||
sens = await sensor.new_sensor(config[CONF_STD_DEV])
|
||||
cg.add(var.set_std_dev_sensor(sens))
|
@ -1 +0,0 @@
|
||||
CODEOWNERS = ["@Cat-Ion"]
|
@ -1,82 +0,0 @@
|
||||
#include "kalman_combinator.h"
|
||||
#include "esphome/core/hal.h"
|
||||
#include <cmath>
|
||||
#include <functional>
|
||||
|
||||
namespace esphome {
|
||||
namespace kalman_combinator {
|
||||
|
||||
void KalmanCombinatorComponent::dump_config() {
|
||||
ESP_LOGCONFIG("kalman_combinator", "Kalman Combinator:");
|
||||
ESP_LOGCONFIG("kalman_combinator", " Update variance: %f per ms", this->update_variance_value_);
|
||||
ESP_LOGCONFIG("kalman_combinator", " Sensors:");
|
||||
for (const auto &sensor : this->sensors_) {
|
||||
auto &entity = *sensor.first;
|
||||
ESP_LOGCONFIG("kalman_combinator", " - %s", entity.get_name().c_str());
|
||||
}
|
||||
}
|
||||
|
||||
void KalmanCombinatorComponent::setup() {
|
||||
for (const auto &sensor : this->sensors_) {
|
||||
const auto stddev = sensor.second;
|
||||
sensor.first->add_on_state_callback([this, stddev](float x) -> void { this->correct_(x, stddev(x)); });
|
||||
}
|
||||
}
|
||||
|
||||
void KalmanCombinatorComponent::add_source(Sensor *sensor, std::function<float(float)> const &stddev) {
|
||||
this->sensors_.emplace_back(sensor, stddev);
|
||||
}
|
||||
|
||||
void KalmanCombinatorComponent::add_source(Sensor *sensor, float stddev) {
|
||||
this->add_source(sensor, std::function<float(float)>{[stddev](float x) -> float { return stddev; }});
|
||||
}
|
||||
|
||||
void KalmanCombinatorComponent::update_variance_() {
|
||||
uint32_t now = millis();
|
||||
|
||||
// Variance increases by update_variance_ each millisecond
|
||||
auto dt = now - this->last_update_;
|
||||
auto dv = this->update_variance_value_ * dt;
|
||||
this->variance_ += dv;
|
||||
this->last_update_ = now;
|
||||
}
|
||||
|
||||
void KalmanCombinatorComponent::correct_(float value, float stddev) {
|
||||
if (std::isnan(value) || std::isinf(stddev)) {
|
||||
return;
|
||||
}
|
||||
|
||||
if (std::isnan(this->state_) || std::isinf(this->variance_)) {
|
||||
this->state_ = value;
|
||||
this->variance_ = stddev * stddev;
|
||||
if (this->std_dev_sensor_ != nullptr) {
|
||||
this->std_dev_sensor_->publish_state(stddev);
|
||||
}
|
||||
return;
|
||||
}
|
||||
|
||||
this->update_variance_();
|
||||
|
||||
// Combine two gaussian distributions mu1+-var1, mu2+-var2 to a new one around mu
|
||||
// Use the value with the smaller variance as mu1 to prevent precision errors
|
||||
const bool this_first = this->variance_ < (stddev * stddev);
|
||||
const float mu1 = this_first ? this->state_ : value;
|
||||
const float mu2 = this_first ? value : this->state_;
|
||||
|
||||
const float var1 = this_first ? this->variance_ : stddev * stddev;
|
||||
const float var2 = this_first ? stddev * stddev : this->variance_;
|
||||
|
||||
const float mu = mu1 + var1 * (mu2 - mu1) / (var1 + var2);
|
||||
const float var = var1 - (var1 * var1) / (var1 + var2);
|
||||
|
||||
// Update and publish state
|
||||
this->state_ = mu;
|
||||
this->variance_ = var;
|
||||
|
||||
this->publish_state(mu);
|
||||
if (this->std_dev_sensor_ != nullptr) {
|
||||
this->std_dev_sensor_->publish_state(std::sqrt(var));
|
||||
}
|
||||
}
|
||||
} // namespace kalman_combinator
|
||||
} // namespace esphome
|
@ -1,46 +0,0 @@
|
||||
#pragma once
|
||||
#include "esphome/core/component.h"
|
||||
#include "esphome/components/sensor/sensor.h"
|
||||
#include <cmath>
|
||||
#include <vector>
|
||||
|
||||
namespace esphome {
|
||||
namespace kalman_combinator {
|
||||
|
||||
class KalmanCombinatorComponent : public Component, public sensor::Sensor {
|
||||
public:
|
||||
KalmanCombinatorComponent() = default;
|
||||
|
||||
float get_setup_priority() const override { return esphome::setup_priority::DATA; }
|
||||
|
||||
void dump_config() override;
|
||||
void setup() override;
|
||||
|
||||
void add_source(Sensor *sensor, std::function<float(float)> const &stddev);
|
||||
void add_source(Sensor *sensor, float stddev);
|
||||
void set_process_std_dev(float process_std_dev) {
|
||||
this->update_variance_value_ = process_std_dev * process_std_dev * 0.001f;
|
||||
}
|
||||
void set_std_dev_sensor(Sensor *sensor) { this->std_dev_sensor_ = sensor; }
|
||||
|
||||
private:
|
||||
void update_variance_();
|
||||
void correct_(float value, float stddev);
|
||||
|
||||
// Source sensors and their error functions
|
||||
std::vector<std::pair<Sensor *, std::function<float(float)>>> sensors_;
|
||||
|
||||
// Optional sensor for publishing the current error
|
||||
sensor::Sensor *std_dev_sensor_{nullptr};
|
||||
|
||||
// Tick of the last update
|
||||
uint32_t last_update_{0};
|
||||
// Change of the variance, per ms
|
||||
float update_variance_value_{0.f};
|
||||
|
||||
// Best guess for the state and its variance
|
||||
float state_{NAN};
|
||||
float variance_{INFINITY};
|
||||
};
|
||||
} // namespace kalman_combinator
|
||||
} // namespace esphome
|
@ -1,90 +1,6 @@
|
||||
import esphome.codegen as cg
|
||||
import esphome.config_validation as cv
|
||||
from esphome.components import sensor
|
||||
from esphome.const import (
|
||||
CONF_ID,
|
||||
CONF_SOURCE,
|
||||
CONF_ACCURACY_DECIMALS,
|
||||
CONF_DEVICE_CLASS,
|
||||
CONF_ENTITY_CATEGORY,
|
||||
CONF_ICON,
|
||||
CONF_UNIT_OF_MEASUREMENT,
|
||||
|
||||
CONFIG_SCHEMA = CONFIG_SCHEMA = cv.invalid(
|
||||
"The kalman_combinator sensor has moved.\nPlease use the combination platform instead with type: kalman.\n"
|
||||
"See https://esphome.io/components/sensor/combination.html"
|
||||
)
|
||||
from esphome.core.entity_helpers import inherit_property_from
|
||||
|
||||
kalman_combinator_ns = cg.esphome_ns.namespace("kalman_combinator")
|
||||
KalmanCombinatorComponent = kalman_combinator_ns.class_(
|
||||
"KalmanCombinatorComponent", cg.Component, sensor.Sensor
|
||||
)
|
||||
|
||||
CONF_ERROR = "error"
|
||||
CONF_SOURCES = "sources"
|
||||
CONF_PROCESS_STD_DEV = "process_std_dev"
|
||||
CONF_STD_DEV = "std_dev"
|
||||
|
||||
|
||||
CONFIG_SCHEMA = (
|
||||
sensor.sensor_schema(KalmanCombinatorComponent)
|
||||
.extend(cv.COMPONENT_SCHEMA)
|
||||
.extend(
|
||||
{
|
||||
cv.Required(CONF_PROCESS_STD_DEV): cv.positive_float,
|
||||
cv.Required(CONF_SOURCES): cv.ensure_list(
|
||||
cv.Schema(
|
||||
{
|
||||
cv.Required(CONF_SOURCE): cv.use_id(sensor.Sensor),
|
||||
cv.Required(CONF_ERROR): cv.templatable(cv.positive_float),
|
||||
}
|
||||
),
|
||||
),
|
||||
cv.Optional(CONF_STD_DEV): sensor.sensor_schema(),
|
||||
}
|
||||
)
|
||||
)
|
||||
|
||||
# Inherit some sensor values from the first source, for both the state and the error value
|
||||
properties_to_inherit = [
|
||||
CONF_ACCURACY_DECIMALS,
|
||||
CONF_DEVICE_CLASS,
|
||||
CONF_ENTITY_CATEGORY,
|
||||
CONF_ICON,
|
||||
CONF_UNIT_OF_MEASUREMENT,
|
||||
# CONF_STATE_CLASS could also be inherited, but might lead to unexpected behaviour with "total_increasing"
|
||||
]
|
||||
inherit_schema_for_state = [
|
||||
inherit_property_from(property, [CONF_SOURCES, 0, CONF_SOURCE])
|
||||
for property in properties_to_inherit
|
||||
]
|
||||
inherit_schema_for_std_dev = [
|
||||
inherit_property_from([CONF_STD_DEV, property], [CONF_SOURCES, 0, CONF_SOURCE])
|
||||
for property in properties_to_inherit
|
||||
]
|
||||
|
||||
FINAL_VALIDATE_SCHEMA = cv.All(
|
||||
CONFIG_SCHEMA.extend(
|
||||
{cv.Required(CONF_ID): cv.use_id(KalmanCombinatorComponent)},
|
||||
extra=cv.ALLOW_EXTRA,
|
||||
),
|
||||
*inherit_schema_for_state,
|
||||
*inherit_schema_for_std_dev,
|
||||
)
|
||||
|
||||
|
||||
async def to_code(config):
|
||||
var = cg.new_Pvariable(config[CONF_ID])
|
||||
await cg.register_component(var, config)
|
||||
await sensor.register_sensor(var, config)
|
||||
|
||||
cg.add(var.set_process_std_dev(config[CONF_PROCESS_STD_DEV]))
|
||||
for source_conf in config[CONF_SOURCES]:
|
||||
source = await cg.get_variable(source_conf[CONF_SOURCE])
|
||||
error = await cg.templatable(
|
||||
source_conf[CONF_ERROR],
|
||||
[(float, "x")],
|
||||
cg.float_,
|
||||
)
|
||||
cg.add(var.add_source(source, error))
|
||||
|
||||
if CONF_STD_DEV in config:
|
||||
sens = await sensor.new_sensor(config[CONF_STD_DEV])
|
||||
cg.add(var.set_std_dev_sensor(sens))
|
||||
|
@ -971,7 +971,8 @@ sensor:
|
||||
name: Internal Ttemperature
|
||||
update_interval: 15s
|
||||
i2c_id: i2c_bus
|
||||
- platform: kalman_combinator
|
||||
- platform: combination
|
||||
type: kalman
|
||||
name: Kalman-filtered temperature
|
||||
process_std_dev: 0.00139
|
||||
sources:
|
||||
@ -980,6 +981,57 @@ sensor:
|
||||
return 0.4 + std::abs(x - 25) * 0.023;
|
||||
- source: scd4x_temperature
|
||||
error: 1.5
|
||||
- platform: combination
|
||||
type: linear
|
||||
name: Linearly combined temperatures
|
||||
sources:
|
||||
- source: scd30_temperature
|
||||
coeffecient: !lambda |-
|
||||
return 0.4 + std::abs(x - 25) * 0.023;
|
||||
- source: scd4x_temperature
|
||||
coeffecient: 1.5
|
||||
- platform: combination
|
||||
type: max
|
||||
name: Max of combined temperatures
|
||||
sources:
|
||||
- source: scd30_temperature
|
||||
- source: scd4x_temperature
|
||||
- platform: combination
|
||||
type: mean
|
||||
name: Mean of combined temperatures
|
||||
sources:
|
||||
- source: scd30_temperature
|
||||
- source: scd4x_temperature
|
||||
- platform: combination
|
||||
type: median
|
||||
name: Median of combined temperatures
|
||||
sources:
|
||||
- source: scd30_temperature
|
||||
- source: scd4x_temperature
|
||||
- platform: combination
|
||||
type: min
|
||||
name: Min of combined temperatures
|
||||
sources:
|
||||
- source: scd30_temperature
|
||||
- source: scd4x_temperature
|
||||
- platform: combination
|
||||
type: most_recently_updated
|
||||
name: Most recently updated of combined temperatures
|
||||
sources:
|
||||
- source: scd30_temperature
|
||||
- source: scd4x_temperature
|
||||
- platform: combination
|
||||
type: range
|
||||
name: Range of combined temperatures
|
||||
sources:
|
||||
- source: scd30_temperature
|
||||
- source: scd4x_temperature
|
||||
- platform: combination
|
||||
type: sum
|
||||
name: Sum of combined temperatures
|
||||
sources:
|
||||
- source: scd30_temperature
|
||||
- source: scd4x_temperature
|
||||
- platform: htu21d
|
||||
temperature:
|
||||
name: Living Room Temperature 6
|
||||
|
Loading…
Reference in New Issue
Block a user