Autorepeat filter for the binary sensors (#1681)

* add the autorepeat filter

* add a test for the autorepeat filter

* make no timing equivalent to a single default one
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Stanislav Meduna 2021-05-13 22:36:53 +02:00 committed by GitHub
parent 54660300e9
commit 00c144daeb
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4 changed files with 132 additions and 0 deletions

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@ -4,6 +4,7 @@ from esphome import automation, core
from esphome.automation import Condition, maybe_simple_id
from esphome.components import mqtt
from esphome.const import (
CONF_DELAY,
CONF_DEVICE_CLASS,
CONF_FILTERS,
CONF_ID,
@ -120,6 +121,7 @@ DelayedOnOffFilter = binary_sensor_ns.class_("DelayedOnOffFilter", Filter, cg.Co
DelayedOnFilter = binary_sensor_ns.class_("DelayedOnFilter", Filter, cg.Component)
DelayedOffFilter = binary_sensor_ns.class_("DelayedOffFilter", Filter, cg.Component)
InvertFilter = binary_sensor_ns.class_("InvertFilter", Filter)
AutorepeatFilter = binary_sensor_ns.class_("AutorepeatFilter", Filter, cg.Component)
LambdaFilter = binary_sensor_ns.class_("LambdaFilter", Filter)
FILTER_REGISTRY = Registry()
@ -158,6 +160,51 @@ def delayed_off_filter_to_code(config, filter_id):
yield var
CONF_TIME_OFF = "time_off"
CONF_TIME_ON = "time_on"
DEFAULT_DELAY = "1s"
DEFAULT_TIME_OFF = "100ms"
DEFAULT_TIME_ON = "900ms"
@FILTER_REGISTRY.register(
"autorepeat",
AutorepeatFilter,
cv.All(
cv.ensure_list(
{
cv.Optional(
CONF_DELAY, default=DEFAULT_DELAY
): cv.positive_time_period_milliseconds,
cv.Optional(
CONF_TIME_OFF, default=DEFAULT_TIME_OFF
): cv.positive_time_period_milliseconds,
cv.Optional(
CONF_TIME_ON, default=DEFAULT_TIME_ON
): cv.positive_time_period_milliseconds,
}
),
),
)
def autorepeat_filter_to_code(config, filter_id):
timings = []
if len(config) > 0:
for conf in config:
timings.append((conf[CONF_DELAY], conf[CONF_TIME_OFF], conf[CONF_TIME_ON]))
else:
timings.append(
(
cv.time_period_str_unit(DEFAULT_DELAY).total_milliseconds,
cv.time_period_str_unit(DEFAULT_TIME_OFF).total_milliseconds,
cv.time_period_str_unit(DEFAULT_TIME_ON).total_milliseconds,
)
)
var = cg.new_Pvariable(filter_id, timings)
yield cg.register_component(var, {})
yield var
@FILTER_REGISTRY.register("lambda", LambdaFilter, cv.returning_lambda)
def lambda_filter_to_code(config, filter_id):
lambda_ = yield cg.process_lambda(

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@ -64,6 +64,50 @@ float DelayedOffFilter::get_setup_priority() const { return setup_priority::HARD
optional<bool> InvertFilter::new_value(bool value, bool is_initial) { return !value; }
AutorepeatFilter::AutorepeatFilter(const std::vector<AutorepeatFilterTiming> &timings) : timings_(timings) {}
optional<bool> AutorepeatFilter::new_value(bool value, bool is_initial) {
if (value) {
// Ignore if already running
if (this->active_timing_ != 0)
return {};
this->next_timing_();
return true;
} else {
this->cancel_timeout("TIMING");
this->cancel_timeout("ON_OFF");
this->active_timing_ = 0;
return false;
}
}
void AutorepeatFilter::next_timing_() {
// Entering this method
// 1st time: starts waiting the first delay
// 2nd time: starts waiting the second delay and starts toggling with the first time_off / _on
// last time: no delay to start but have to bump the index to reflect the last
if (this->active_timing_ < this->timings_.size())
this->set_timeout("TIMING", this->timings_[this->active_timing_].delay, [this]() { this->next_timing_(); });
if (this->active_timing_ <= this->timings_.size()) {
this->active_timing_++;
}
if (this->active_timing_ == 2)
this->next_value_(false);
// Leaving this method: if the toggling is started, it has to use [active_timing_ - 2] for the intervals
}
void AutorepeatFilter::next_value_(bool val) {
const AutorepeatFilterTiming &timing = this->timings_[this->active_timing_ - 2];
this->output(val, false); // This is at least the second one so not initial
this->set_timeout("ON_OFF", val ? timing.time_on : timing.time_off, [this, val]() { this->next_value_(!val); });
}
float AutorepeatFilter::get_setup_priority() const { return setup_priority::HARDWARE; }
LambdaFilter::LambdaFilter(const std::function<optional<bool>(bool)> &f) : f_(f) {}
optional<bool> LambdaFilter::new_value(bool value, bool is_initial) { return this->f_(value); }

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@ -66,6 +66,33 @@ class InvertFilter : public Filter {
optional<bool> new_value(bool value, bool is_initial) override;
};
struct AutorepeatFilterTiming {
AutorepeatFilterTiming(uint32_t delay, uint32_t off, uint32_t on) {
this->delay = delay;
this->time_off = off;
this->time_on = on;
}
uint32_t delay;
uint32_t time_off;
uint32_t time_on;
};
class AutorepeatFilter : public Filter, public Component {
public:
explicit AutorepeatFilter(const std::vector<AutorepeatFilterTiming> &timings);
optional<bool> new_value(bool value, bool is_initial) override;
float get_setup_priority() const override;
protected:
void next_timing_();
void next_value_(bool val);
std::vector<AutorepeatFilterTiming> timings_;
uint8_t active_timing_{0};
};
class LambdaFilter : public Filter {
public:
explicit LambdaFilter(const std::function<optional<bool>(bool)> &f);

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@ -86,6 +86,20 @@ binary_sensor:
- platform: tuya
id: tuya_binary_sensor
sensor_datapoint: 1
- platform: template
id: ar1
lambda: 'return {};'
filters:
- autorepeat:
- delay: 2s
time_off: 100ms
time_on: 900ms
- delay: 4s
time_off: 100ms
time_on: 400ms
on_state:
then:
- lambda: 'ESP_LOGI("ar1:", "%d", x);'
climate:
- platform: tuya