// -----------------------------------------------------------------------------
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// Event Counter Sensor
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// Copyright (C) 2017-2019 by Xose Pérez <xose dot perez at gmail dot com>
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// -----------------------------------------------------------------------------
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#if SENSOR_SUPPORT && HLW8012_SUPPORT
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#pragma once
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#include <Arduino.h>
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#include <HLW8012.h>
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#include "../debug.h"
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#include "BaseEmonSensor.h"
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class HLW8012Sensor : public BaseEmonSensor {
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public:
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// ---------------------------------------------------------------------
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// Public
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// ---------------------------------------------------------------------
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HLW8012Sensor() {
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_count = 8;
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_sensor_id = SENSOR_HLW8012_ID;
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_hlw8012 = new HLW8012();
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}
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~HLW8012Sensor() {
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_enableInterrupts(false);
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delete _hlw8012;
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}
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void expectedCurrent(double expected) {
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_hlw8012->expectedCurrent(expected);
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}
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void expectedVoltage(unsigned int expected) {
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_hlw8012->expectedVoltage(expected);
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}
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void expectedPower(unsigned int expected) {
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_hlw8012->expectedActivePower(expected);
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}
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void resetRatios() {
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_hlw8012->resetMultipliers();
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}
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// ---------------------------------------------------------------------
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void setSEL(unsigned char sel) {
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if (_sel == sel) return;
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_sel = sel;
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_dirty = true;
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}
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void setCF(unsigned char cf) {
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if (_cf == cf) return;
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_cf = cf;
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_dirty = true;
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}
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void setCF1(unsigned char cf1) {
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if (_cf1 == cf1) return;
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_cf1 = cf1;
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_dirty = true;
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}
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void setSELCurrent(bool value) {
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_sel_current = value;
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}
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void setCurrentRatio(double value) {
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_hlw8012->setCurrentMultiplier(value);
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};
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void setVoltageRatio(double value) {
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_hlw8012->setVoltageMultiplier(value);
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};
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void setPowerRatio(double value) {
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_hlw8012->setPowerMultiplier(value);
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};
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// ---------------------------------------------------------------------
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unsigned char getSEL() {
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return _sel;
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}
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unsigned char getCF() {
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return _cf;
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}
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unsigned char getCF1() {
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return _cf1;
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}
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unsigned char getSELCurrent() {
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return _sel_current;
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}
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double getCurrentRatio() {
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return _hlw8012->getCurrentMultiplier();
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};
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double getVoltageRatio() {
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return _hlw8012->getVoltageMultiplier();
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};
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double getPowerRatio() {
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return _hlw8012->getPowerMultiplier();
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};
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// ---------------------------------------------------------------------
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// Sensors API
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// ---------------------------------------------------------------------
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// Initialization method, must be idempotent
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// Defined outside the class body
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void begin() {
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// Initialize HLW8012
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// void begin(unsigned char cf_pin, unsigned char cf1_pin, unsigned char sel_pin, unsigned char currentWhen = HIGH, bool use_interrupts = false, unsigned long pulse_timeout = PULSE_TIMEOUT);
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// * cf_pin, cf1_pin and sel_pin are GPIOs to the HLW8012 IC
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// * currentWhen is the value in sel_pin to select current sampling
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// * set use_interrupts to true to use interrupts to monitor pulse widths
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// * leave pulse_timeout to the default value, recommended when using interrupts
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#if HLW8012_USE_INTERRUPTS
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_hlw8012->begin(_cf, _cf1, _sel, _sel_current, true);
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#else
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_hlw8012->begin(_cf, _cf1, _sel, _sel_current, false, 1000000);
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#endif
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// These values are used to calculate current, voltage and power factors as per datasheet formula
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// These are the nominal values for the Sonoff POW resistors:
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// * The CURRENT_RESISTOR is the 1milliOhm copper-manganese resistor in series with the main line
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// * The VOLTAGE_RESISTOR_UPSTREAM are the 5 470kOhm resistors in the voltage divider that feeds the V2P pin in the HLW8012
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// * The VOLTAGE_RESISTOR_DOWNSTREAM is the 1kOhm resistor in the voltage divider that feeds the V2P pin in the HLW8012
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_hlw8012->setResistors(HLW8012_CURRENT_R, HLW8012_VOLTAGE_R_UP, HLW8012_VOLTAGE_R_DOWN);
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// Handle interrupts
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#if HLW8012_USE_INTERRUPTS && (!HLW8012_WAIT_FOR_WIFI)
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_enableInterrupts(false);
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_enableInterrupts(true);
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#endif
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_ready = true;
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}
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// Descriptive name of the sensor
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String description() {
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char buffer[28];
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snprintf(buffer, sizeof(buffer), "HLW8012 @ GPIO(%u,%u,%u)", _sel, _cf, _cf1);
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return String(buffer);
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}
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// Descriptive name of the slot # index
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String slot(unsigned char index) {
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return description();
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};
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// Address of the sensor (it could be the GPIO or I2C address)
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String address(unsigned char index) {
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char buffer[12];
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snprintf(buffer, sizeof(buffer), "%u:%u:%u", _sel, _cf, _cf1);
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return String(buffer);
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}
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// Type for slot # index
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unsigned char type(unsigned char index) {
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if (index == 0) return MAGNITUDE_CURRENT;
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if (index == 1) return MAGNITUDE_VOLTAGE;
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if (index == 2) return MAGNITUDE_POWER_ACTIVE;
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if (index == 3) return MAGNITUDE_POWER_REACTIVE;
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if (index == 4) return MAGNITUDE_POWER_APPARENT;
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if (index == 5) return MAGNITUDE_POWER_FACTOR;
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if (index == 6) return MAGNITUDE_ENERGY_DELTA;
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if (index == 7) return MAGNITUDE_ENERGY;
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return MAGNITUDE_NONE;
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}
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double getEnergyDelta() {
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return _energy_last;
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}
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// Current value for slot # index
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double value(unsigned char index) {
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if (index == 0) return _hlw8012->getCurrent();
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if (index == 1) return _hlw8012->getVoltage();
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if (index == 2) return _hlw8012->getActivePower();
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if (index == 3) return _hlw8012->getReactivePower();
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if (index == 4) return _hlw8012->getApparentPower();
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if (index == 5) return 100 * _hlw8012->getPowerFactor();
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if (index == 6) return getEnergyDelta();
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if (index == 7) return getEnergy();
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return 0.0;
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}
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// Pre-read hook (usually to populate registers with up-to-date data)
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void pre() {
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#if HLW8012_USE_INTERRUPTS && HLW8012_WAIT_FOR_WIFI
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_enableInterrupts(wifiConnected());
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#endif
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_energy_last = _hlw8012->getEnergy();
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_energy[0] += sensor::Ws { _energy_last };
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_hlw8012->resetEnergy();
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}
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#if !HLW8012_USE_INTERRUPTS
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// Toggle between current and voltage monitoring after reading
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void post() {
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_hlw8012->toggleMode();
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}
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#endif // HLW8012_USE_INTERRUPTS == 0
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// Handle interrupt calls
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void ICACHE_RAM_ATTR handleInterrupt(unsigned char gpio) {
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if (gpio == _cf) _hlw8012->cf_interrupt();
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if (gpio == _cf1) _hlw8012->cf1_interrupt();
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}
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protected:
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// ---------------------------------------------------------------------
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// Interrupt management
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// ---------------------------------------------------------------------
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void _attach(HLW8012Sensor * instance, unsigned char gpio, unsigned char mode);
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void _detach(unsigned char gpio);
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void _enableInterrupts(bool value) {
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static unsigned char _interrupt_cf = GPIO_NONE;
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static unsigned char _interrupt_cf1 = GPIO_NONE;
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if (value) {
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if (_interrupt_cf != _cf) {
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if (_interrupt_cf != GPIO_NONE) _detach(_interrupt_cf);
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_attach(this, _cf, HLW8012_INTERRUPT_ON);
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_interrupt_cf = _cf;
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}
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if (_interrupt_cf1 != _cf1) {
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if (_interrupt_cf1 != GPIO_NONE) _detach(_interrupt_cf1);
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_attach(this, _cf1, HLW8012_INTERRUPT_ON);
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_interrupt_cf1 = _cf1;
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}
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} else {
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if (GPIO_NONE != _interrupt_cf) {
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_detach(_interrupt_cf);
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_interrupt_cf = GPIO_NONE;
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}
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if (GPIO_NONE != _interrupt_cf1) {
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_detach(_interrupt_cf1);
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_interrupt_cf1 = GPIO_NONE;
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}
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}
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}
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// ---------------------------------------------------------------------
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unsigned char _sel = GPIO_NONE;
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unsigned char _cf = GPIO_NONE;
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unsigned char _cf1 = GPIO_NONE;
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bool _sel_current = true;
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uint32_t _energy_last = 0;
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HLW8012 * _hlw8012 = NULL;
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};
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// -----------------------------------------------------------------------------
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// Interrupt helpers
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// -----------------------------------------------------------------------------
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HLW8012Sensor * _hlw8012_sensor_instance[10] = {NULL};
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void ICACHE_RAM_ATTR _hlw8012_sensor_isr(unsigned char gpio) {
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unsigned char index = gpio > 5 ? gpio-6 : gpio;
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if (_hlw8012_sensor_instance[index]) {
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_hlw8012_sensor_instance[index]->handleInterrupt(gpio);
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}
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}
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void ICACHE_RAM_ATTR _hlw8012_sensor_isr_0() { _hlw8012_sensor_isr(0); }
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void ICACHE_RAM_ATTR _hlw8012_sensor_isr_1() { _hlw8012_sensor_isr(1); }
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void ICACHE_RAM_ATTR _hlw8012_sensor_isr_2() { _hlw8012_sensor_isr(2); }
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void ICACHE_RAM_ATTR _hlw8012_sensor_isr_3() { _hlw8012_sensor_isr(3); }
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void ICACHE_RAM_ATTR _hlw8012_sensor_isr_4() { _hlw8012_sensor_isr(4); }
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void ICACHE_RAM_ATTR _hlw8012_sensor_isr_5() { _hlw8012_sensor_isr(5); }
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void ICACHE_RAM_ATTR _hlw8012_sensor_isr_12() { _hlw8012_sensor_isr(12); }
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void ICACHE_RAM_ATTR _hlw8012_sensor_isr_13() { _hlw8012_sensor_isr(13); }
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void ICACHE_RAM_ATTR _hlw8012_sensor_isr_14() { _hlw8012_sensor_isr(14); }
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void ICACHE_RAM_ATTR _hlw8012_sensor_isr_15() { _hlw8012_sensor_isr(15); }
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static void (*_hlw8012_sensor_isr_list[10])() = {
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_hlw8012_sensor_isr_0, _hlw8012_sensor_isr_1, _hlw8012_sensor_isr_2,
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_hlw8012_sensor_isr_3, _hlw8012_sensor_isr_4, _hlw8012_sensor_isr_5,
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_hlw8012_sensor_isr_12, _hlw8012_sensor_isr_13, _hlw8012_sensor_isr_14,
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_hlw8012_sensor_isr_15
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};
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void HLW8012Sensor::_attach(HLW8012Sensor * instance, unsigned char gpio, unsigned char mode) {
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if (!gpioValid(gpio)) return;
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_detach(gpio);
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unsigned char index = gpio > 5 ? gpio-6 : gpio;
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_hlw8012_sensor_instance[index] = instance;
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attachInterrupt(gpio, _hlw8012_sensor_isr_list[index], mode);
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#if SENSOR_DEBUG
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DEBUG_MSG_P(PSTR("[SENSOR] GPIO%u interrupt attached to %s\n"), gpio, instance->description().c_str());
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#endif
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}
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void HLW8012Sensor::_detach(unsigned char gpio) {
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if (!gpioValid(gpio)) return;
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unsigned char index = gpio > 5 ? gpio-6 : gpio;
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if (_hlw8012_sensor_instance[index]) {
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detachInterrupt(gpio);
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#if SENSOR_DEBUG
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DEBUG_MSG_P(PSTR("[SENSOR] GPIO%u interrupt detached from %s\n"), gpio, _hlw8012_sensor_instance[index]->description().c_str());
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#endif
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_hlw8012_sensor_instance[index] = NULL;
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}
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}
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#endif // SENSOR_SUPPORT && HLW8012_SUPPORT
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