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Add 'map_linear' and 'clamp' sensor filters (#5040)
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@ -31,6 +31,9 @@ from esphome.const import (
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CONF_MQTT_ID,
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CONF_FORCE_UPDATE,
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CONF_VALUE,
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CONF_MIN_VALUE,
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CONF_MAX_VALUE,
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CONF_METHOD,
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DEVICE_CLASS_APPARENT_POWER,
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DEVICE_CLASS_AQI,
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DEVICE_CLASS_ATMOSPHERIC_PRESSURE,
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@ -227,6 +230,7 @@ OrFilter = sensor_ns.class_("OrFilter", Filter)
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CalibrateLinearFilter = sensor_ns.class_("CalibrateLinearFilter", Filter)
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CalibratePolynomialFilter = sensor_ns.class_("CalibratePolynomialFilter", Filter)
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SensorInRangeCondition = sensor_ns.class_("SensorInRangeCondition", Filter)
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ClampFilter = sensor_ns.class_("ClampFilter", Filter)
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validate_unit_of_measurement = cv.string_strict
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validate_accuracy_decimals = cv.int_
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@ -557,30 +561,60 @@ async def debounce_filter_to_code(config, filter_id):
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return var
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def validate_not_all_from_same(config):
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if all(conf[CONF_FROM] == config[0][CONF_FROM] for conf in config):
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raise cv.Invalid(
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"The 'from' values of the calibrate_linear filter cannot all point "
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"to the same value! Please add more values to the filter."
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)
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CONF_DATAPOINTS = "datapoints"
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def validate_calibrate_linear(config):
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datapoints = config[CONF_DATAPOINTS]
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if config[CONF_METHOD] == "exact":
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for i in range(len(datapoints) - 1):
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if datapoints[i][CONF_FROM] > datapoints[i + 1][CONF_FROM]:
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raise cv.Invalid(
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"The 'from' values of the calibrate_linear filter must be sorted in ascending order."
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)
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for i in range(len(datapoints) - 1):
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if datapoints[i][CONF_FROM] == datapoints[i + 1][CONF_FROM]:
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raise cv.Invalid(
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"The 'from' values of the calibrate_linear filter must not contain duplicates."
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)
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elif config[CONF_METHOD] == "least_squares":
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if all(conf[CONF_FROM] == datapoints[0][CONF_FROM] for conf in datapoints):
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raise cv.Invalid(
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"The 'from' values of the calibrate_linear filter cannot all point "
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"to the same value! Please add more values to the filter."
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)
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return config
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@FILTER_REGISTRY.register(
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"calibrate_linear",
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CalibrateLinearFilter,
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cv.All(
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cv.ensure_list(validate_datapoint), cv.Length(min=2), validate_not_all_from_same
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cv.maybe_simple_value(
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{
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cv.Required(CONF_DATAPOINTS): cv.All(
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cv.ensure_list(validate_datapoint), cv.Length(min=2)
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),
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cv.Optional(CONF_METHOD, default="least_squares"): cv.one_of(
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"least_squares", "exact", lower=True
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),
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},
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validate_calibrate_linear,
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key=CONF_DATAPOINTS,
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),
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)
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async def calibrate_linear_filter_to_code(config, filter_id):
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x = [conf[CONF_FROM] for conf in config]
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y = [conf[CONF_TO] for conf in config]
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k, b = fit_linear(x, y)
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return cg.new_Pvariable(filter_id, k, b)
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x = [conf[CONF_FROM] for conf in config[CONF_DATAPOINTS]]
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y = [conf[CONF_TO] for conf in config[CONF_DATAPOINTS]]
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linear_functions = []
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if config[CONF_METHOD] == "least_squares":
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k, b = fit_linear(x, y)
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linear_functions = [[k, b, float("NaN")]]
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elif config[CONF_METHOD] == "exact":
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linear_functions = map_linear(x, y)
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return cg.new_Pvariable(filter_id, linear_functions)
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CONF_DATAPOINTS = "datapoints"
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CONF_DEGREE = "degree"
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@ -619,6 +653,36 @@ async def calibrate_polynomial_filter_to_code(config, filter_id):
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return cg.new_Pvariable(filter_id, res)
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def validate_clamp(config):
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if not math.isfinite(config[CONF_MIN_VALUE]) and not math.isfinite(
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config[CONF_MAX_VALUE]
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):
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raise cv.Invalid("Either 'min_value' or 'max_value' must be set to a number.")
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if config[CONF_MIN_VALUE] > config[CONF_MAX_VALUE]:
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raise cv.Invalid("The 'min_value' must not be larger than the 'max_value'.")
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return config
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CLAMP_SCHEMA = cv.All(
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cv.Schema(
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{
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cv.Optional(CONF_MIN_VALUE, default="NaN"): cv.float_,
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cv.Optional(CONF_MAX_VALUE, default="NaN"): cv.float_,
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}
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),
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validate_clamp,
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)
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@FILTER_REGISTRY.register("clamp", ClampFilter, CLAMP_SCHEMA)
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async def clamp_filter_to_code(config, filter_id):
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return cg.new_Pvariable(
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filter_id,
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config[CONF_MIN_VALUE],
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config[CONF_MAX_VALUE],
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)
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async def build_filters(config):
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return await cg.build_registry_list(FILTER_REGISTRY, config)
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@ -730,6 +794,22 @@ def fit_linear(x, y):
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return k, b
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def map_linear(x, y):
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assert len(x) == len(y)
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f = []
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for i in range(len(x) - 1):
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slope = (y[i + 1] - y[i]) / (x[i + 1] - x[i])
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bias = y[i] - (slope * x[i])
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next_x = x[i + 1]
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if i == len(x) - 2:
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next_x = float("NaN")
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if f and f[-1][0] == slope and f[-1][1] == bias:
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f[-1][2] = next_x
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else:
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f.append([slope, bias, next_x])
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return f
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def _mat_copy(m):
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return [list(row) for row in m]
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@ -416,8 +416,13 @@ void HeartbeatFilter::setup() {
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}
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float HeartbeatFilter::get_setup_priority() const { return setup_priority::HARDWARE; }
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optional<float> CalibrateLinearFilter::new_value(float value) { return value * this->slope_ + this->bias_; }
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CalibrateLinearFilter::CalibrateLinearFilter(float slope, float bias) : slope_(slope), bias_(bias) {}
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optional<float> CalibrateLinearFilter::new_value(float value) {
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for (std::array<float, 3> f : this->linear_functions_) {
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if (!std::isfinite(f[2]) || value < f[2])
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return (value * f[0]) + f[1];
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}
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return NAN;
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}
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optional<float> CalibratePolynomialFilter::new_value(float value) {
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float res = 0.0f;
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@ -429,5 +434,16 @@ optional<float> CalibratePolynomialFilter::new_value(float value) {
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return res;
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}
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ClampFilter::ClampFilter(float min, float max) : min_(min), max_(max) {}
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optional<float> ClampFilter::new_value(float value) {
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if (std::isfinite(value)) {
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if (std::isfinite(this->min_) && value < this->min_)
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return this->min_;
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if (std::isfinite(this->max_) && value > this->max_)
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return this->max_;
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}
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return value;
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}
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} // namespace sensor
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} // namespace esphome
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@ -390,12 +390,12 @@ class OrFilter : public Filter {
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class CalibrateLinearFilter : public Filter {
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public:
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CalibrateLinearFilter(float slope, float bias);
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CalibrateLinearFilter(std::vector<std::array<float, 3>> linear_functions)
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: linear_functions_(std::move(linear_functions)) {}
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optional<float> new_value(float value) override;
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protected:
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float slope_;
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float bias_;
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std::vector<std::array<float, 3>> linear_functions_;
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};
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class CalibratePolynomialFilter : public Filter {
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@ -407,5 +407,15 @@ class CalibratePolynomialFilter : public Filter {
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std::vector<float> coefficients_;
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};
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class ClampFilter : public Filter {
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public:
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ClampFilter(float min, float max);
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optional<float> new_value(float value) override;
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protected:
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float min_{NAN};
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float max_{NAN};
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};
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} // namespace sensor
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} // namespace esphome
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@ -379,9 +379,13 @@ sensor:
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- offset: 2.0
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- multiply: 1.2
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- calibrate_linear:
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- 0.0 -> 0.0
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- 40.0 -> 45.0
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- 100.0 -> 102.5
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datapoints:
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- 0.0 -> 0.0
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- 40.0 -> 45.0
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- 100.0 -> 102.5
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- clamp:
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min_value: -100
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max_value: 100
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- filter_out: 42.0
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- filter_out: nan
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- median:
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@ -88,8 +88,12 @@ sensor:
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- debounce: 500s
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- timeout: 10min
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- calibrate_linear:
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- 0 -> 0
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- 100 -> 100
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method: exact
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datapoints:
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- -1 -> 3
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- 0.0 -> 1.0
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- 1.0 -> 2.0
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- 2.0 -> 3.0
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- calibrate_polynomial:
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degree: 3
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datapoints:
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