// -----------------------------------------------------------------------------
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// Abstract emon sensor class (other sensor classes extend this class)
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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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#pragma once
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#include "../sensor.h"
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#include "BaseSensor.h"
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class BaseEmonSensor : public BaseSensor {
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public:
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BaseEmonSensor(size_t devices) :
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_energy(devices),
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_devices(devices)
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{}
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BaseEmonSensor() :
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BaseEmonSensor(1)
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{}
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unsigned char type() {
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return sensor::type::Emon;
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}
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// --- energy monitoring --
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virtual void resizeDevices(size_t devices) {
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_energy.resize(devices);
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_devices = devices;
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}
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virtual size_t countDevices() {
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return _devices;
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}
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virtual void resetEnergy(unsigned char index, sensor::Energy energy) {
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_energy[index] = energy;
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}
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virtual void resetEnergy(unsigned char index) {
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_energy[index].reset();
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};
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virtual void resetEnergy() {
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for (auto& energy : _energy) {
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energy.reset();
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}
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}
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virtual sensor::Energy totalEnergy(unsigned char index) {
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return _energy[index];
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}
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virtual sensor::Energy totalEnergy() {
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return totalEnergy(0);
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}
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virtual double getEnergy(unsigned char index) {
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return _energy[index].asDouble();
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}
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virtual double getEnergy() {
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return getEnergy(0);
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}
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// --- configuration ---
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// when sensor needs explicit mains voltage value
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virtual void setVoltage(double) {}
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virtual void setVoltage(unsigned char index, double value) {
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setVoltage(value);
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}
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virtual double getVoltage() {
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return 0.0;
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}
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virtual double getVoltage(unsigned char index) {
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return getVoltage();
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}
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// when sensor implements ratios / multipliers
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virtual void setCurrentRatio(double) {}
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virtual void setVoltageRatio(double) {}
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virtual void setPowerRatio(double) {}
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virtual void setEnergyRatio(double) {}
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// when sensor implements ratios / multipliers
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virtual void setCurrentRatio(unsigned char index, double value) {
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setCurrentRatio(value);
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}
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virtual void setVoltageRatio(unsigned char index, double value) {
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setVoltageRatio(value);
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}
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virtual void setPowerRatio(unsigned char index, double value) {
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setPowerRatio(value);
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}
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virtual void setEnergyRatio(unsigned char index, double value) {
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setEnergyRatio(value);
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}
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// when sensor implements a single device
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virtual double getCurrentRatio() {
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return 0.0;
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}
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virtual double getVoltageRatio() {
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return 0.0;
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}
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virtual double getPowerRatio() {
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return 0.0;
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}
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virtual double getEnergyRatio() {
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return 0.0;
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}
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// when sensor implements more than one device
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virtual double getCurrentRatio(unsigned char index) {
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return getCurrentRatio();
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}
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virtual double getVoltageRatio(unsigned char index) {
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return getVoltageRatio();
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}
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virtual double getPowerRatio(unsigned char index) {
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return getPowerRatio();
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}
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virtual double getEnergyRatio(unsigned char index) {
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return getEnergyRatio();
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}
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virtual void expectedCurrent(double value) {}
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virtual void expectedVoltage(unsigned int value) {}
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virtual void expectedPower(unsigned int value) {}
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virtual void resetCalibration(double value) {}
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virtual void resetRatios() {}
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protected:
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std::vector<sensor::Energy> _energy;
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size_t _devices;
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};
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