mirror of
https://github.com/emsesp/EMS-ESP32.git
synced 2025-12-07 00:09:51 +03:00
MichaelDvP
@@ -439,7 +439,8 @@ const Sensors = () => {
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<Cell>{a.n}</Cell>
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<Cell stiff>{AnalogTypeNames[a.t]} </Cell>
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{(a.t === AnalogType.DIGITAL_OUT && a.g !== 25 && a.g !== 26) ||
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a.t === AnalogType.DIGITAL_IN ? (
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a.t === AnalogType.DIGITAL_IN ||
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a.t === AnalogType.PULSE ? (
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<Cell stiff>{a.v ? LL.ON() : LL.OFF()}</Cell>
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) : (
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<Cell stiff>{a.t ? formatValue(a.v, a.u) : ''}</Cell>
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@@ -132,7 +132,9 @@ const SensorsAnalogDialog = ({
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))}
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</TextField>
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</Grid>
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{editItem.t >= AnalogType.COUNTER && editItem.t <= AnalogType.RATE && (
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{((editItem.t >= AnalogType.COUNTER && editItem.t <= AnalogType.RATE) ||
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(editItem.t >= AnalogType.FREQ_0 &&
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editItem.t <= AnalogType.FREQ_2)) && (
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<Grid>
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<TextField
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name="u"
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@@ -348,6 +350,42 @@ const SensorsAnalogDialog = ({
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</Grid>
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</>
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)}
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{editItem.t === AnalogType.PULSE && (
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<>
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<Grid>
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<TextField
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name="o"
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label={LL.POLARITY()}
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value={editItem.o}
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sx={{ width: '11ch' }}
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select
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onChange={updateFormValue}
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>
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<MenuItem value={0}>{LL.ACTIVEHIGH()}</MenuItem>
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<MenuItem value={1}>{LL.ACTIVELOW()}</MenuItem>
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</TextField>
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</Grid>
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<Grid>
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<TextField
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name="f"
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label="Pulse"
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value={numberValue(editItem.f)}
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type="number"
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sx={{ width: '15ch' }}
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variant="outlined"
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onChange={updateFormValue}
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slotProps={{
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input: {
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startAdornment: (
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<InputAdornment position="start">s</InputAdornment>
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)
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},
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htmlInput: { min: '0', max: '10000', step: '0.1' }
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}}
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/>
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</Grid>
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</>
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)}
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</Grid>
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</DialogContent>
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<DialogActions>
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@@ -188,7 +188,8 @@ export enum DeviceValueUOM {
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VOLTS,
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MBAR,
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LH,
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CTKWH
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CTKWH,
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HZ
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}
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export const DeviceValueUOM_s = [
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@@ -218,7 +219,8 @@ export const DeviceValueUOM_s = [
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'V',
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'mbar',
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'l/h',
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'ct/kWh'
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'ct/kWh',
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'Hz'
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];
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export enum AnalogType {
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@@ -234,7 +236,11 @@ export enum AnalogType {
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PWM_1 = 8,
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PWM_2 = 9,
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NTC = 10,
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RGB = 11
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RGB = 11,
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PULSE = 12,
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FREQ_0 = 13,
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FREQ_1 = 14,
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FREQ_2 = 15
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}
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export const AnalogTypeNames = [
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@@ -249,7 +255,11 @@ export const AnalogTypeNames = [
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'PWM 1',
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'PWM 2',
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'NTC Temp.',
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'RGB Led'
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'RGB Led',
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'Pulse',
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'Freq 0',
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'Freq 1',
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'Freq 2'
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];
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type BoardProfiles = Record<string, string>;
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@@ -23,6 +23,29 @@ namespace emsesp {
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uuid::log::Logger AnalogSensor::logger_{F_(analogsensor), uuid::log::Facility::DAEMON};
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portMUX_TYPE mux = portMUX_INITIALIZER_UNLOCKED;
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unsigned long AnalogSensor::edge[] = {0, 0, 0};
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unsigned long AnalogSensor::edgecnt[] = {0, 0, 0};
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void IRAM_ATTR AnalogSensor::freqIrq0() {
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portENTER_CRITICAL_ISR(&mux);
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edgecnt[0]++;
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edge[0] = micros();
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portEXIT_CRITICAL_ISR(&mux);
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}
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void IRAM_ATTR AnalogSensor::freqIrq1() {
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portENTER_CRITICAL_ISR(&mux);
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edgecnt[1]++;
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edge[1] = micros();
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portEXIT_CRITICAL_ISR(&mux);
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}
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void IRAM_ATTR AnalogSensor::freqIrq2() {
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portENTER_CRITICAL_ISR(&mux);
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edgecnt[2]++;
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edge[2] = micros();
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portEXIT_CRITICAL_ISR(&mux);
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}
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void AnalogSensor::start(const bool factory_settings) {
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// if (factory_settings && EMSESP::nvs_.getString("boot").equals("E32V2_2") && EMSESP::nvs_.getString("hwrevision").equals("3.0")) {
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if (factory_settings && analogReadMilliVolts(39) > 700) { // core voltage > 2.6V
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@@ -92,7 +115,7 @@ void AnalogSensor::reload(bool get_nvs) {
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for (const auto & sensor : settings.analogCustomizations) { // search customlist
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if (sensor_.gpio() == sensor.gpio) {
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// for output sensors set value to new start-value
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if (sensor.type >= AnalogType::DIGITAL_OUT
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if (sensor.type >= AnalogType::DIGITAL_OUT && sensor.type <= AnalogType::PWM_2
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&& (sensor_.type() != sensor.type || sensor_.offset() != sensor.offset || sensor_.factor() != sensor.factor)) {
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sensor_.set_value(sensor.offset);
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}
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@@ -134,7 +157,7 @@ void AnalogSensor::reload(bool get_nvs) {
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}
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}
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if (sensor.type == AnalogType::COUNTER || (sensor.type >= AnalogType::DIGITAL_OUT && sensor.type <= AnalogType::PWM_2)
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|| sensor.type == AnalogType::RGB) {
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|| sensor.type == AnalogType::RGB || sensor.type == AnalogType::PULSE) {
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Command::add(
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EMSdevice::DeviceType::ANALOGSENSOR,
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sensor.name.c_str(),
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@@ -142,6 +165,7 @@ void AnalogSensor::reload(bool get_nvs) {
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sensor.type == AnalogType::COUNTER ? FL_(counter)
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: sensor.type == AnalogType::DIGITAL_OUT ? FL_(digital_out)
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: sensor.type == AnalogType::RGB ? FL_(RGB)
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: sensor.type == AnalogType::PULSE ? FL_(pulse)
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: FL_(pwm),
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CommandFlag::ADMIN_ONLY);
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}
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@@ -204,6 +228,16 @@ void AnalogSensor::reload(bool get_nvs) {
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sensor.set_offset(0);
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sensor.set_value(0);
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publish_sensor(sensor);
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} else if (sensor.type() >= AnalogType::FREQ_0 && sensor.type() <= AnalogType::FREQ_2) {
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LOG_DEBUG("Frequency on GPIO %02d", sensor.gpio());
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pinMode(sensor.gpio(), INPUT_PULLUP);
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sensor.set_offset(0);
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sensor.set_value(0);
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publish_sensor(sensor);
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auto index = sensor.type() - AnalogType::FREQ_0;
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attachInterrupt(sensor.gpio(), index == 0 ? freqIrq0 : index == 1 ? freqIrq1 : freqIrq2, FALLING);
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lastedge[index] = edge[index] = micros();
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edgecnt[index] = 0;
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} else if (sensor.type() == AnalogType::DIGITAL_IN) {
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LOG_DEBUG("Digital Read on GPIO %02d", sensor.gpio());
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pinMode(sensor.gpio(), INPUT_PULLUP);
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@@ -260,6 +294,11 @@ void AnalogSensor::reload(bool get_nvs) {
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sensor.set_value(sensor.offset());
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}
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publish_sensor(sensor);
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} else if (sensor.type() == AnalogType::PULSE) {
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LOG_DEBUG("Pulse on GPIO %02d", sensor.gpio());
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pinMode(sensor.gpio(), OUTPUT);
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digitalWrite(sensor.gpio(), (sensor.offset() == 1) ^ (sensor.value() == 1));
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sensor.polltime_ = sensor.value() != 0 ? uuid::get_uptime() + (sensor.factor() * 1000) : 0;
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} else if (sensor.type() >= AnalogType::PWM_0 && sensor.type() <= AnalogType::PWM_2) {
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LOG_DEBUG("PWM output on GPIO %02d", sensor.gpio());
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#if ESP_IDF_VERSION_MAJOR >= 5
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@@ -330,6 +369,23 @@ void AnalogSensor::measure() {
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changed_ = true;
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publish_sensor(sensor);
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}
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} else if (sensor.type() >= AnalogType::FREQ_0 && sensor.type() <= AnalogType::FREQ_2) {
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auto index = sensor.type() - AnalogType::FREQ_0;
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auto oldval = sensor.value();
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if (edge[index] != lastedge[index] && edgecnt[index] > 0) {
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portENTER_CRITICAL_ISR(&mux);
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auto t = (edge[index] - lastedge[index]) / edgecnt[index];
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lastedge[index] = edge[index];
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edgecnt[index] = 0;
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portEXIT_CRITICAL_ISR(&mux);
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sensor.set_value(sensor.factor() * 1000000.0 / t);
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} else if (micros() - edge[index] > 10000000ul && sensor.value() > 0) {
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sensor.set_value(0);
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}
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if (sensor.value() != oldval) {
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changed_ = true;
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publish_sensor(sensor);
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}
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}
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}
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}
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@@ -337,9 +393,9 @@ void AnalogSensor::measure() {
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// poll digital io every time with debounce
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// go through the list of digital sensors
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for (auto & sensor : sensors_) {
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auto old_value = sensor.value(); // remember current value before reading
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if (sensor.type() == AnalogType::DIGITAL_IN || sensor.type() == AnalogType::COUNTER || sensor.type() == AnalogType::TIMER
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|| sensor.type() == AnalogType::RATE) {
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auto old_value = sensor.value(); // remember current value before reading
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auto current_reading = digitalRead(sensor.gpio());
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if (sensor.poll_ != current_reading) { // check for pinchange
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sensor.polltime_ = uuid::get_uptime(); // remember time of pinchange
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@@ -362,7 +418,12 @@ void AnalogSensor::measure() {
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sensor.last_polltime_ = sensor.polltime_;
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}
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}
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}
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if (sensor.type() == AnalogType::PULSE && sensor.value() && sensor.polltime_ && sensor.polltime_ < uuid::get_uptime()) {
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sensor.set_value(0);
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digitalWrite(sensor.gpio(), sensor.offset());
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sensor.polltime_ = 0;
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}
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// see if there is a change and increment # reads
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if (old_value != sensor.value()) {
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sensorreads_++;
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@@ -370,7 +431,6 @@ void AnalogSensor::measure() {
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publish_sensor(sensor);
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}
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}
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}
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// store counter-values only every hour to reduce flash wear
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static uint8_t lastSaveHour = 0;
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@@ -562,6 +622,9 @@ void AnalogSensor::publish_values(const bool force) {
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case AnalogType::PWM_0:
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case AnalogType::PWM_1:
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case AnalogType::PWM_2:
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case AnalogType::FREQ_0:
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case AnalogType::FREQ_1:
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case AnalogType::FREQ_2:
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case AnalogType::RGB:
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case AnalogType::NTC:
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dataSensor["value"] = serialized(Helpers::render_value(s, sensor.value(), 2)); // double
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@@ -762,7 +825,7 @@ void AnalogSensor::get_value_json(JsonObject output, const Sensor & sensor) {
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output["analog"] = FL_(list_sensortype)[sensor.type()];
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output["value"] = sensor.value();
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output["readable"] = true;
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output["writeable"] = sensor.type() == AnalogType::COUNTER || sensor.type() >= AnalogType::RGB
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output["writeable"] = sensor.type() == AnalogType::COUNTER || sensor.type() == AnalogType::RGB || sensor.type() == AnalogType::PULSE
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|| (sensor.type() >= AnalogType::DIGITAL_OUT && sensor.type() <= AnalogType::PWM_2);
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output["visible"] = true;
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if (sensor.type() == AnalogType::COUNTER) {
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@@ -842,6 +905,12 @@ bool AnalogSensor::command_setvalue(const char * value, const int8_t gpio) {
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rgbLedWrite(sensor.gpio(), 2 * r, 2 * g, 2 * b);
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#endif
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LOG_DEBUG("RGB set to %d, %d, %d", r, g, b);
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} else if (sensor.type() == AnalogType::PULSE) {
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uint8_t v = val;
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sensor.set_value(v);
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pinMode(sensor.gpio(), OUTPUT);
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digitalWrite(sensor.gpio(), (sensor.offset() != 0) ^ (sensor.value() != 0));
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sensor.polltime_ = sensor.value() != 0 ? uuid::get_uptime() + (sensor.factor() * 1000) : 0;
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} else if (sensor.type() == AnalogType::DIGITAL_OUT) {
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uint8_t v = val;
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#if CONFIG_IDF_TARGET_ESP32
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@@ -124,7 +124,11 @@ class AnalogSensor {
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PWM_1 = 8,
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PWM_2 = 9,
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NTC = 10,
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RGB = 11
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RGB = 11,
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PULSE = 12,
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FREQ_0 = 13,
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FREQ_1 = 14,
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FREQ_2 = 15
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};
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void start(const bool factory_settings = false);
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@@ -190,6 +194,13 @@ class AnalogSensor {
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bool changed_ = true; // this will force a publish of all sensors when initialising
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uint32_t sensorfails_ = 0;
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uint32_t sensorreads_ = 0;
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static void IRAM_ATTR freqIrq0();
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static void IRAM_ATTR freqIrq1();
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static void IRAM_ATTR freqIrq2();
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static unsigned long edge[3];
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static unsigned long edgecnt[3];
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unsigned long lastedge[3] = {0, 0, 0};
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};
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} // namespace emsesp
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@@ -108,10 +108,10 @@ DeviceValue::DeviceValue(uint8_t device_type,
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const char * DeviceValue::DeviceValueUOM_s[] = {
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F_(uom_blank), // 0
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F_(uom_degrees), F_(uom_degrees), F_(uom_percent), F_(uom_lmin), F_(uom_kwh), F_(uom_wh), FL_(hours)[0],
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FL_(minutes)[0], F_(uom_ua), F_(uom_bar), F_(uom_kw), F_(uom_w), F_(uom_kb), FL_(seconds)[0],
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F_(uom_dbm), F_(uom_fahrenheit), F_(uom_mv), F_(uom_sqm), F_(uom_m3), F_(uom_l), F_(uom_kmin),
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F_(uom_k), F_(uom_volts), F_(uom_mbar), F_(uom_lh), F_(uom_ctkwh), F_(uom_blank)
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F_(uom_degrees), F_(uom_degrees), F_(uom_percent), F_(uom_lmin), F_(uom_kwh), F_(uom_wh), FL_(hours)[0], FL_(minutes)[0],
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F_(uom_ua), F_(uom_bar), F_(uom_kw), F_(uom_w), F_(uom_kb), FL_(seconds)[0], F_(uom_dbm), F_(uom_fahrenheit),
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F_(uom_mv), F_(uom_sqm), F_(uom_m3), F_(uom_l), F_(uom_kmin), F_(uom_k), F_(uom_volts), F_(uom_mbar),
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F_(uom_lh), F_(uom_ctkwh), F_(uom_hz), F_(uom_blank)
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};
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@@ -75,7 +75,8 @@ class DeviceValue {
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MBAR, // 24 - mbar
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LH, // 25 - l/h
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CTKWH, // 26 - ct/kWh
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CONNECTIVITY // 27 - used in HA
|
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HZ, // 27 - Hz
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CONNECTIVITY // 28 - used in HA
|
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};
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// TAG mapping - maps to DeviceValueTAG_s in emsdevicevalue.cpp
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@@ -264,6 +264,7 @@ MAKE_WORD_CUSTOM(uom_volts, "V")
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MAKE_WORD_CUSTOM(uom_mbar, "mbar")
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MAKE_WORD_CUSTOM(uom_lh, "l/h")
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MAKE_WORD_CUSTOM(uom_ctkwh, "ct/kWh")
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MAKE_WORD_CUSTOM(uom_hz, "Hz")
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// MQTT topics and prefixes
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MAKE_WORD_CUSTOM(heating_active, "heating_active")
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@@ -277,7 +278,8 @@ MAKE_ENUM_FIXED(list_syslog_level, "off", "emerg", "alert", "crit", "error", "wa
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MAKE_ENUM_FIXED(counter, "counter")
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MAKE_ENUM_FIXED(digital_out, "digital_out")
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MAKE_ENUM_FIXED(RGB, "RGB")
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MAKE_ENUM_FIXED(list_sensortype, "disabled", "digital in", "counter", "adc", "timer", "rate", "digital out", "pwm 0", "pwm 1", "pwm 2", "NTC Temp", "RGB Led")
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MAKE_ENUM_FIXED(pulse, "pulse")
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MAKE_ENUM_FIXED(list_sensortype, "disabled", "digital in", "counter", "adc", "timer", "rate", "digital out", "pwm 0", "pwm 1", "pwm 2", "NTC Temp", "RGB Led", "pulse", "freq 0", "freq 1", "freq 2")
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// watch
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MAKE_ENUM_FIXED(list_watch, "off", "on", "raw", "unknown")
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@@ -436,7 +436,8 @@ void WebDataService::dashboard_data(AsyncWebServerRequest * request) {
|
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obj["v"] = Helpers::transformNumFloat(sensor.value());
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} else
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#endif
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if (sensor.type() == AnalogSensor::AnalogType::DIGITAL_OUT || sensor.type() == AnalogSensor::AnalogType::DIGITAL_IN) {
|
||||
if (sensor.type() == AnalogSensor::AnalogType::DIGITAL_OUT || sensor.type() == AnalogSensor::AnalogType::DIGITAL_IN
|
||||
|| sensor.type() == AnalogSensor::AnalogType::PULSE) {
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||||
char s[12];
|
||||
dv["v"] = Helpers::render_boolean(s, sensor.value() != 0, true);
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||||
JsonArray l = dv["l"].to<JsonArray>();
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||||
@@ -448,7 +449,7 @@ void WebDataService::dashboard_data(AsyncWebServerRequest * request) {
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||||
}
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if (sensor.type() == AnalogSensor::AnalogType::COUNTER
|
||||
|| (sensor.type() >= AnalogSensor::AnalogType::DIGITAL_OUT && sensor.type() <= AnalogSensor::AnalogType::PWM_2)
|
||||
|| sensor.type() == AnalogSensor::AnalogType::RGB) {
|
||||
|| sensor.type() == AnalogSensor::AnalogType::RGB || sensor.type() == AnalogSensor::AnalogType::PULSE) {
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||||
dv["c"] = sensor.name();
|
||||
}
|
||||
}
|
||||
|
||||
Reference in New Issue
Block a user