/*

POWER EMON MODULE

Copyright (C) 2016-2017 by Xose Pérez <xose dot perez at gmail dot com>

*/

#if (POWER_PROVIDER & POWER_PROVIDER_EMON == POWER_PROVIDER_EMON)

// -----------------------------------------------------------------------------
// MODULE GLOBALS AND CACHE
// -----------------------------------------------------------------------------

#include <EmonLiteESP.h>
EmonLiteESP _emon;

#if POWER_PROVIDER == POWER_PROVIDER_EMON_ADC121

    #include "brzo_i2c.h"

    // ADC121 Registers
    #define ADC121_REG_RESULT       0x00
    #define ADC121_REG_ALERT        0x01
    #define ADC121_REG_CONFIG       0x02
    #define ADC121_REG_LIMITL       0x03
    #define ADC121_REG_LIMITH       0x04
    #define ADC121_REG_HYST         0x05
    #define ADC121_REG_CONVL        0x06
    #define ADC121_REG_CONVH        0x07

#endif // POWER_PROVIDER == POWER_PROVIDER_EMON_ADC121

// -----------------------------------------------------------------------------
// HAL
// -----------------------------------------------------------------------------

unsigned int currentCallback() {

    #if POWER_PROVIDER == POWER_PROVIDER_EMON_ANALOG

        return analogRead(0);

    #endif // POWER_PROVIDER == POWER_PROVIDER_EMON_ANALOG

    #if POWER_PROVIDER == POWER_PROVIDER_EMON_ADC121

        uint8_t buffer[2];
        brzo_i2c_start_transaction(ADC121_I2C_ADDRESS, I2C_SCL_FREQUENCY);
        buffer[0] = ADC121_REG_RESULT;
        brzo_i2c_write(buffer, 1, false);
        brzo_i2c_read(buffer, 2, false);
        brzo_i2c_end_transaction();
        unsigned int value;
        value = (buffer[0] & 0x0F) << 8;
        value |= buffer[1];
        return value;

    #endif // POWER_PROVIDER == POWER_PROVIDER_EMON_ADC121

}

// -----------------------------------------------------------------------------
// POWER API
// -----------------------------------------------------------------------------

double _powerCurrent() {
    static unsigned long last = 0;
    static double current = 0;
    if (millis() - last > 1000) {
        last = millis();
        current = _emon.getCurrent(EMON_SAMPLES);
        current -= EMON_CURRENT_OFFSET;
        if (current < 0) current = 0;
    }
    return current;
}

double _powerVoltage() {
    return _power_voltage;
}

double _powerActivePower() {
    return _powerApparentPower();
}

double _powerApparentPower() {
    return _powerCurrent() * _powerVoltage();
}

double _powerReactivePower() {
    return 0;
}

double _powerPowerFactor() {
    return 1;
}

void _powerEnabledProvider() {
    // Nothing to do
}

void _powerConfigureProvider() {
    _emon.setCurrentRatio(getSetting("powerRatioC", EMON_CURRENT_RATIO).toFloat());
    _power_voltage = getSetting("powerVoltage", POWER_VOLTAGE).toFloat();
}

void _powerSetupProvider() {

    _emon.initCurrent(currentCallback, EMON_ADC_BITS, EMON_REFERENCE_VOLTAGE, EMON_CURRENT_RATIO);

    #if POWER_PROVIDER == POWER_PROVIDER_EMON_ADC121
        uint8_t buffer[2];
        buffer[0] = ADC121_REG_CONFIG;
        buffer[1] = 0x00;
        brzo_i2c_start_transaction(ADC121_I2C_ADDRESS, I2C_SCL_FREQUENCY);
        brzo_i2c_write(buffer, 2, false);
        brzo_i2c_end_transaction();
    #endif

    powerConfigureProvider();

    _emon.warmup();

}

void _powerLoopProvider(bool before) {

    if (before) {

        static unsigned long last = 0;
        if (millis() - last > POWER_READ_INTERVAL) {
            last = millis();
            _power_newdata = true;
        }

    }

}

#endif // (POWER_PROVIDER & POWER_PROVIDER_EMON == POWER_PROVIDER_EMON)