ovencontroller.cpp
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#include "ovencontroller.h"
OvenController::OvenController(QObject *parent, Oven *oven) : OvenInterface(parent),
oven(oven)
{
bzero(&control, sizeof(control));
bzero(&state, sizeof(state));
}
void OvenController::setUdpHandler(UdpHandler *udp)
{
this->udp = udp;
connect(udp, SIGNAL(changed()), this, SLOT(onDataChanged()));
}
void OvenController::onDataChanged()
{
bool opened = state.door_state != 0;
udp->fillControl(control);
udp->fillData(state);
if (opened)
{
if (state.door_state == 0)
emit doorClosed();
}
else
{
if (state.door_state != 0)
emit doorOpened();
}
oven->setCurrentHumidity(currentHumidity());
oven->setCurrentTemp(currentTemp());
oven->setCurrentInterTemp(currentInterTemp());
}
int OvenController::currentTemp()
{
return state.curr_heat;
}
int OvenController::currentHumidity()
{
return state.curr_humidity;
}
int OvenController::currentInterTemp()
{
return state.sensor6;
}
bool OvenController::door()
{
return state.door_state != 0;
}
void OvenController::setMode(Define::Mode mode)
{
int m;
switch (mode)
{
case Define::SteamMode:
m = 2;
break;
case Define::DryMode:
m = 0;
break;
case Define::CombiMode:
m = 1;
break;
default:
return;
}
qDebug() << "Set Mode" << m;
udp->set(TG_COOK_MODE, m);
}
void OvenController::setHumidity(int percentage)
{
qDebug() << "Set Humidity" << percentage;
udp->set(TG_HUMIDITY, percentage);
}
void OvenController::setTemp(int celsius)
{
qDebug() << "Set Temperature" << celsius;
udp->set(TG_HEAT, celsius);
}
void OvenController::setTime(int secs)
{
qDebug() << "Set Time" << secs;
udp->set(TG_TIME, secs);
}
void OvenController::setInterTemp(int celsius)
{
qDebug() << "Set Core Temperature" << celsius;
udp->set(TG_INNER_TEMP, celsius);
}
void OvenController::setFan(int rpm)
{
qDebug() << "Set Fan RPM" << rpm;
udp->set(TG_CONV_RPM, rpm);
}
void OvenController::startCooking()
{
qDebug() << "Start Cooking";
udp->set(TG_OVEN_MODE, 1);
udp->set(TG_TIME, 1440);
udp->turnOn(TG_SYSTEM);
udp->turnOn(TG_COOKING);
}
void OvenController::stopCooking()
{
qDebug() << "Stop Cooking";
udp->turnOff(TG_COOKING);
}
void OvenController::startPreheating()
{
qDebug() << "Start Preheating";
udp->set(TG_OVEN_MODE, 1);
udp->set(TG_TIME, 1440);
udp->turnOn(TG_SYSTEM);
udp->turnOn(TG_PREHEAT);
}
void OvenController::stopPreheating()
{
qDebug() << "Stop Preheating";
udp->turnOff(TG_PREHEAT);
}
void OvenController::startCooldown()
{
qDebug() << "Start Cooldown";
udp->turnOn(TG_COOLDOWN);
}
void OvenController::stopCooldown()
{
qDebug() << "Stop Cooldown";
udp->turnOff(TG_COOLDOWN);
}
void OvenController::startHumidification()
{
qDebug() << "Start Humidification";
udp->turnOn(TG_INNERWATER);
}
void OvenController::stopHumidification()
{
qDebug() << "Stop Humidification";
udp->turnOff(TG_INNERWATER);
}
void OvenController::startWashing()
{
}
void OvenController::stopWashing()
{
}
void OvenController::openDamper()
{
qDebug() << "Open Damper";
udp->turnOn(TG_OUTHUMIDITY);
}
void OvenController::closeDamper()
{
qDebug() << "Close Damper";
udp->turnOff(TG_OUTHUMIDITY);
}