Fork of the espurna firmware for `mhsw` switches
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// -----------------------------------------------------------------------------
// Pulse Meter Power Monitor Sensor
// Copyright (C) 2018 by Xose Pérez <xose dot perez at gmail dot com>
// -----------------------------------------------------------------------------
#if SENSOR_SUPPORT && PULSEMETER_SUPPORT
#pragma once
#include "Arduino.h"
#include "BaseSensor.h"
class PulseMeterSensor : public BaseSensor {
public:
// ---------------------------------------------------------------------
// Public
// ---------------------------------------------------------------------
PulseMeterSensor(): BaseSensor() {
_count = 2;
_sensor_id = SENSOR_PULSEMETER_ID;
}
~PulseMeterSensor() {
_enableInterrupts(false);
}
void resetEnergy(double value = 0) {
_energy = value;
}
// ---------------------------------------------------------------------
void setGPIO(unsigned char gpio) {
if (_gpio == gpio) return;
_gpio = gpio;
_dirty = true;
}
void setEnergyRatio(unsigned long ratio) {
if (ratio > 0) _ratio = ratio;
}
// ---------------------------------------------------------------------
unsigned char getGPIO() {
return _gpio;
}
unsigned char getEnergyRatio() {
return _ratio;
}
// ---------------------------------------------------------------------
// Sensors API
// ---------------------------------------------------------------------
// Initialization method, must be idempotent
// Defined outside the class body
void begin() {
_enableInterrupts(true);
_ready = true;
}
// Descriptive name of the sensor
String description() {
char buffer[24];
snprintf(buffer, sizeof(buffer), "PulseMeter @ GPIO(%u)", _gpio);
return String(buffer);
}
// Descriptive name of the slot # index
String slot(unsigned char index) {
return description();
};
// Address of the sensor (it could be the GPIO or I2C address)
String address(unsigned char index) {
return String(_gpio);
}
// Pre-read hook (usually to populate registers with up-to-date data)
void pre() {
unsigned long lapse = millis() - _previous_time;
_previous_time = millis();
unsigned long pulses = _pulses - _previous_pulses;
_previous_pulses = _pulses;
unsigned long _energy_delta = 1000 * 3600 * pulses / _ratio;
_energy += _energy_delta;
if (lapse > 0) _active = 1000 * _energy_delta / lapse;
}
// Type for slot # index
unsigned char type(unsigned char index) {
if (index == 0) return MAGNITUDE_POWER_ACTIVE;
if (index == 1) return MAGNITUDE_ENERGY;
return MAGNITUDE_NONE;
}
// Current value for slot # index
double value(unsigned char index) {
if (index == 0) return _active;
if (index == 1) return _energy;
return 0;
}
// Handle interrupt calls
void ICACHE_RAM_ATTR handleInterrupt(unsigned char gpio) {
if (gpio == _gpio) {
_pulses++;
}
}
protected:
// ---------------------------------------------------------------------
// Interrupt management
// ---------------------------------------------------------------------
void _attach(PulseMeterSensor * instance, unsigned char gpio, unsigned char mode);
void _detach(unsigned char gpio);
void _enableInterrupts(bool value) {
if (value) {
if (_gpio != _previous) {
if (_previous != GPIO_NONE) _detach(_previous);
_attach(this, _gpio, PULSEMETER_INTERRUPT_ON);
_previous = _gpio;
}
} else {
_detach(_previous);
_previous = GPIO_NONE;
}
}
// ---------------------------------------------------------------------
unsigned char _previous = GPIO_NONE;
unsigned char _gpio = GPIO_NONE;
unsigned long _ratio = PULSEMETER_ENERGY_RATIO;
double _active = 0;
double _energy = 0;
volatile unsigned long _pulses = 0;
unsigned long _previous_pulses = 0;
unsigned long _previous_time = 0;
};
// -----------------------------------------------------------------------------
// Interrupt helpers
// -----------------------------------------------------------------------------
PulseMeterSensor * _pulsemeter_sensor_instance[10] = {NULL};
void ICACHE_RAM_ATTR _pulsemeter_sensor_isr(unsigned char gpio) {
unsigned char index = gpio > 5 ? gpio-6 : gpio;
if (_pulsemeter_sensor_instance[index]) {
_pulsemeter_sensor_instance[index]->handleInterrupt(gpio);
}
}
void ICACHE_RAM_ATTR _pulsemeter_sensor_isr_0() { _pulsemeter_sensor_isr(0); }
void ICACHE_RAM_ATTR _pulsemeter_sensor_isr_1() { _pulsemeter_sensor_isr(1); }
void ICACHE_RAM_ATTR _pulsemeter_sensor_isr_2() { _pulsemeter_sensor_isr(2); }
void ICACHE_RAM_ATTR _pulsemeter_sensor_isr_3() { _pulsemeter_sensor_isr(3); }
void ICACHE_RAM_ATTR _pulsemeter_sensor_isr_4() { _pulsemeter_sensor_isr(4); }
void ICACHE_RAM_ATTR _pulsemeter_sensor_isr_5() { _pulsemeter_sensor_isr(5); }
void ICACHE_RAM_ATTR _pulsemeter_sensor_isr_12() { _pulsemeter_sensor_isr(12); }
void ICACHE_RAM_ATTR _pulsemeter_sensor_isr_13() { _pulsemeter_sensor_isr(13); }
void ICACHE_RAM_ATTR _pulsemeter_sensor_isr_14() { _pulsemeter_sensor_isr(14); }
void ICACHE_RAM_ATTR _pulsemeter_sensor_isr_15() { _pulsemeter_sensor_isr(15); }
static void (*_pulsemeter_sensor_isr_list[10])() = {
_pulsemeter_sensor_isr_0, _pulsemeter_sensor_isr_1, _pulsemeter_sensor_isr_2,
_pulsemeter_sensor_isr_3, _pulsemeter_sensor_isr_4, _pulsemeter_sensor_isr_5,
_pulsemeter_sensor_isr_12, _pulsemeter_sensor_isr_13, _pulsemeter_sensor_isr_14,
_pulsemeter_sensor_isr_15
};
void PulseMeterSensor::_attach(PulseMeterSensor * instance, unsigned char gpio, unsigned char mode) {
if (!gpioValid(gpio)) return;
_detach(gpio);
unsigned char index = gpio > 5 ? gpio-6 : gpio;
_pulsemeter_sensor_instance[index] = instance;
attachInterrupt(gpio, _pulsemeter_sensor_isr_list[index], mode);
#if SENSOR_DEBUG
DEBUG_MSG_P(PSTR("[SENSOR] GPIO%u interrupt attached to %s\n"), gpio, instance->description().c_str());
#endif
}
void PulseMeterSensor::_detach(unsigned char gpio) {
if (!gpioValid(gpio)) return;
unsigned char index = gpio > 5 ? gpio-6 : gpio;
if (_pulsemeter_sensor_instance[index]) {
detachInterrupt(gpio);
#if SENSOR_DEBUG
DEBUG_MSG_P(PSTR("[SENSOR] GPIO%u interrupt detached from %s\n"), gpio, _pulsemeter_sensor_instance[index]->description().c_str());
#endif
_pulsemeter_sensor_instance[index] = NULL;
}
}
#endif // SENSOR_SUPPORT && PULSEMETER_SUPPORT