/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
*
* Copyright 2013 - 2021, nymea GmbH
* Contact: contact@nymea.io
*
* This fileDescriptor is part of nymea.
* This project including source code and documentation is protected by
* copyright law, and remains the property of nymea GmbH. All rights, including
* reproduction, publication, editing and translation, are reserved. The use of
* this project is subject to the terms of a license agreement to be concluded
* with nymea GmbH in accordance with the terms of use of nymea GmbH, available
* under https://nymea.io/license
*
* GNU Lesser General Public License Usage
* Alternatively, this project may be redistributed and/or modified under the
* terms of the GNU Lesser General Public License as published by the Free
* Software Foundation; version 3. This project is distributed in the hope that
* it will be useful, but WITHOUT ANY WARRANTY; without even the implied
* warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this project. If not, see .
*
* For any further details and any questions please contact us under
* contact@nymea.io or see our FAQ/Licensing Information on
* https://nymea.io/license/faq
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
#include "sunspechvrtcmodel.h"
#include "sunspecconnection.h"
SunSpecHvrtcModelRepeatingBlock::SunSpecHvrtcModelRepeatingBlock(quint16 blockIndex, quint16 blockSize, quint16 modbusStartRegister, SunSpecHvrtcModel *parent) :
SunSpecModelRepeatingBlock(blockIndex, blockSize, modbusStartRegister, parent)
{
m_byteOrder = parent->byteOrder();
initDataPoints();
}
QString SunSpecHvrtcModelRepeatingBlock::name() const
{
return "curve";
}
SunSpecHvrtcModel *SunSpecHvrtcModelRepeatingBlock::parentModel() const
{
return m_parentModel;
}
quint16 SunSpecHvrtcModelRepeatingBlock::actPt() const
{
return m_actPt;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setActPt(quint16 actPt)
{
SunSpecDataPoint dp = m_dataPoints.value("ActPt");
QVector registers = SunSpecDataPoint::convertFromUInt16(actPt);
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms1() const
{
return m_tms1;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms1(float tms1)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms1");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms1, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v1() const
{
return m_v1;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV1(float v1)
{
SunSpecDataPoint dp = m_dataPoints.value("V1");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v1, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms2() const
{
return m_tms2;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms2(float tms2)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms2");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms2, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v2() const
{
return m_v2;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV2(float v2)
{
SunSpecDataPoint dp = m_dataPoints.value("V2");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v2, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms3() const
{
return m_tms3;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms3(float tms3)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms3");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms3, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v3() const
{
return m_v3;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV3(float v3)
{
SunSpecDataPoint dp = m_dataPoints.value("V3");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v3, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms4() const
{
return m_tms4;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms4(float tms4)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms4");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms4, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v4() const
{
return m_v4;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV4(float v4)
{
SunSpecDataPoint dp = m_dataPoints.value("V4");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v4, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms5() const
{
return m_tms5;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms5(float tms5)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms5");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms5, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v5() const
{
return m_v5;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV5(float v5)
{
SunSpecDataPoint dp = m_dataPoints.value("V5");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v5, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms6() const
{
return m_tms6;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms6(float tms6)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms6");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms6, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v6() const
{
return m_v6;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV6(float v6)
{
SunSpecDataPoint dp = m_dataPoints.value("V6");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v6, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms7() const
{
return m_tms7;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms7(float tms7)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms7");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms7, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v7() const
{
return m_v7;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV7(float v7)
{
SunSpecDataPoint dp = m_dataPoints.value("V7");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v7, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms8() const
{
return m_tms8;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms8(float tms8)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms8");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms8, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v8() const
{
return m_v8;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV8(float v8)
{
SunSpecDataPoint dp = m_dataPoints.value("V8");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v8, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms9() const
{
return m_tms9;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms9(float tms9)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms9");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms9, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v9() const
{
return m_v9;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV9(float v9)
{
SunSpecDataPoint dp = m_dataPoints.value("V9");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v9, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms10() const
{
return m_tms10;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms10(float tms10)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms10");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms10, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v10() const
{
return m_v10;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV10(float v10)
{
SunSpecDataPoint dp = m_dataPoints.value("V10");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v10, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms11() const
{
return m_tms11;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms11(float tms11)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms11");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms11, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v11() const
{
return m_v11;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV11(float v11)
{
SunSpecDataPoint dp = m_dataPoints.value("V11");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v11, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms12() const
{
return m_tms12;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms12(float tms12)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms12");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms12, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v12() const
{
return m_v12;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV12(float v12)
{
SunSpecDataPoint dp = m_dataPoints.value("V12");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v12, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms13() const
{
return m_tms13;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms13(float tms13)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms13");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms13, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v13() const
{
return m_v13;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV13(float v13)
{
SunSpecDataPoint dp = m_dataPoints.value("V13");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v13, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms14() const
{
return m_tms14;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms14(float tms14)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms14");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms14, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v14() const
{
return m_v14;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV14(float v14)
{
SunSpecDataPoint dp = m_dataPoints.value("V14");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v14, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms15() const
{
return m_tms15;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms15(float tms15)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms15");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms15, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v15() const
{
return m_v15;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV15(float v15)
{
SunSpecDataPoint dp = m_dataPoints.value("V15");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v15, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms16() const
{
return m_tms16;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms16(float tms16)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms16");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms16, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v16() const
{
return m_v16;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV16(float v16)
{
SunSpecDataPoint dp = m_dataPoints.value("V16");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v16, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms17() const
{
return m_tms17;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms17(float tms17)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms17");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms17, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v17() const
{
return m_v17;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV17(float v17)
{
SunSpecDataPoint dp = m_dataPoints.value("V17");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v17, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms18() const
{
return m_tms18;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms18(float tms18)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms18");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms18, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v18() const
{
return m_v18;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV18(float v18)
{
SunSpecDataPoint dp = m_dataPoints.value("V18");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v18, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms19() const
{
return m_tms19;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms19(float tms19)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms19");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms19, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v19() const
{
return m_v19;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV19(float v19)
{
SunSpecDataPoint dp = m_dataPoints.value("V19");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v19, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::tms20() const
{
return m_tms20;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setTms20(float tms20)
{
SunSpecDataPoint dp = m_dataPoints.value("Tms20");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(tms20, m_parentModel->tmsSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
float SunSpecHvrtcModelRepeatingBlock::v20() const
{
return m_v20;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setV20(float v20)
{
SunSpecDataPoint dp = m_dataPoints.value("V20");
QVector registers = SunSpecDataPoint::convertFromFloatWithSSF(v20, m_parentModel->vSf(), dp.dataType());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
QString SunSpecHvrtcModelRepeatingBlock::crvNam() const
{
return m_crvNam;
}
QModbusReply *SunSpecHvrtcModelRepeatingBlock::setCrvNam(const QString &crvNam)
{
SunSpecDataPoint dp = m_dataPoints.value("CrvNam");
QVector registers = SunSpecDataPoint::convertFromString(crvNam, dp.size());
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_parentModel->connection()->modbusTcpClient()->sendWriteRequest(request, m_parentModel->connection()->slaveId());
}
SunSpecHvrtcModelRepeatingBlock::Readonly SunSpecHvrtcModelRepeatingBlock::readOnly() const
{
return m_readOnly;
}
void SunSpecHvrtcModelRepeatingBlock::initDataPoints()
{
SunSpecDataPoint actPtDataPoint;
actPtDataPoint.setName("ActPt");
actPtDataPoint.setLabel("ActPt");
actPtDataPoint.setDescription("Number of active points in array.");
actPtDataPoint.setMandatory(true);
actPtDataPoint.setSize(1);
actPtDataPoint.setAddressOffset(0);
actPtDataPoint.setSunSpecDataType("uint16");
actPtDataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
actPtDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(actPtDataPoint.name(), actPtDataPoint);
SunSpecDataPoint tms1DataPoint;
tms1DataPoint.setName("Tms1");
tms1DataPoint.setLabel("Tms1");
tms1DataPoint.setDescription("Point 1 must remain connected duration.");
tms1DataPoint.setUnits("Secs");
tms1DataPoint.setMandatory(true);
tms1DataPoint.setSize(1);
tms1DataPoint.setAddressOffset(1);
tms1DataPoint.setScaleFactorName("Tms_SF");
tms1DataPoint.setSunSpecDataType("uint16");
tms1DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms1DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms1DataPoint.name(), tms1DataPoint);
SunSpecDataPoint v1DataPoint;
v1DataPoint.setName("V1");
v1DataPoint.setLabel("V1");
v1DataPoint.setDescription("Point 1 must remain connected voltage.");
v1DataPoint.setUnits("% VRef");
v1DataPoint.setMandatory(true);
v1DataPoint.setSize(1);
v1DataPoint.setAddressOffset(2);
v1DataPoint.setBlockOffset(0);
v1DataPoint.setScaleFactorName("V_SF");
v1DataPoint.setSunSpecDataType("uint16");
v1DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v1DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v1DataPoint.name(), v1DataPoint);
SunSpecDataPoint tms2DataPoint;
tms2DataPoint.setName("Tms2");
tms2DataPoint.setLabel("Tms2");
tms2DataPoint.setDescription("Point 2 must remain connected duration.");
tms2DataPoint.setUnits("Secs");
tms2DataPoint.setSize(1);
tms2DataPoint.setAddressOffset(3);
tms2DataPoint.setBlockOffset(1);
tms2DataPoint.setScaleFactorName("Tms_SF");
tms2DataPoint.setSunSpecDataType("uint16");
tms2DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms2DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms2DataPoint.name(), tms2DataPoint);
SunSpecDataPoint v2DataPoint;
v2DataPoint.setName("V2");
v2DataPoint.setLabel("V2");
v2DataPoint.setDescription("Point 2 must remain connected voltage.");
v2DataPoint.setUnits("% VRef");
v2DataPoint.setSize(1);
v2DataPoint.setAddressOffset(4);
v2DataPoint.setBlockOffset(2);
v2DataPoint.setScaleFactorName("V_SF");
v2DataPoint.setSunSpecDataType("uint16");
v2DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v2DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v2DataPoint.name(), v2DataPoint);
SunSpecDataPoint tms3DataPoint;
tms3DataPoint.setName("Tms3");
tms3DataPoint.setLabel("Tms3");
tms3DataPoint.setDescription("Point 3 must remain connected duration.");
tms3DataPoint.setUnits("Secs");
tms3DataPoint.setSize(1);
tms3DataPoint.setAddressOffset(5);
tms3DataPoint.setBlockOffset(3);
tms3DataPoint.setScaleFactorName("Tms_SF");
tms3DataPoint.setSunSpecDataType("uint16");
tms3DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms3DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms3DataPoint.name(), tms3DataPoint);
SunSpecDataPoint v3DataPoint;
v3DataPoint.setName("V3");
v3DataPoint.setLabel("V3");
v3DataPoint.setDescription("Point 3 must remain connected voltage.");
v3DataPoint.setUnits("% VRef");
v3DataPoint.setSize(1);
v3DataPoint.setAddressOffset(6);
v3DataPoint.setBlockOffset(4);
v3DataPoint.setScaleFactorName("V_SF");
v3DataPoint.setSunSpecDataType("uint16");
v3DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v3DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v3DataPoint.name(), v3DataPoint);
SunSpecDataPoint tms4DataPoint;
tms4DataPoint.setName("Tms4");
tms4DataPoint.setLabel("Tms4");
tms4DataPoint.setDescription("Point 4 must remain connected duration.");
tms4DataPoint.setUnits("Secs");
tms4DataPoint.setSize(1);
tms4DataPoint.setAddressOffset(7);
tms4DataPoint.setBlockOffset(5);
tms4DataPoint.setScaleFactorName("Tms_SF");
tms4DataPoint.setSunSpecDataType("uint16");
tms4DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms4DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms4DataPoint.name(), tms4DataPoint);
SunSpecDataPoint v4DataPoint;
v4DataPoint.setName("V4");
v4DataPoint.setLabel("V4");
v4DataPoint.setDescription("Point 4 must remain connected voltage.");
v4DataPoint.setUnits("% VRef");
v4DataPoint.setSize(1);
v4DataPoint.setAddressOffset(8);
v4DataPoint.setBlockOffset(6);
v4DataPoint.setScaleFactorName("V_SF");
v4DataPoint.setSunSpecDataType("uint16");
v4DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v4DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v4DataPoint.name(), v4DataPoint);
SunSpecDataPoint tms5DataPoint;
tms5DataPoint.setName("Tms5");
tms5DataPoint.setLabel("Tms5");
tms5DataPoint.setDescription("Point 5 must remain connected duration.");
tms5DataPoint.setUnits("Secs");
tms5DataPoint.setSize(1);
tms5DataPoint.setAddressOffset(9);
tms5DataPoint.setBlockOffset(7);
tms5DataPoint.setScaleFactorName("Tms_SF");
tms5DataPoint.setSunSpecDataType("uint16");
tms5DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms5DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms5DataPoint.name(), tms5DataPoint);
SunSpecDataPoint v5DataPoint;
v5DataPoint.setName("V5");
v5DataPoint.setLabel("V5");
v5DataPoint.setDescription("Point 5 must remain connected voltage.");
v5DataPoint.setUnits("% VRef");
v5DataPoint.setSize(1);
v5DataPoint.setAddressOffset(10);
v5DataPoint.setBlockOffset(8);
v5DataPoint.setScaleFactorName("V_SF");
v5DataPoint.setSunSpecDataType("uint16");
v5DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v5DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v5DataPoint.name(), v5DataPoint);
SunSpecDataPoint tms6DataPoint;
tms6DataPoint.setName("Tms6");
tms6DataPoint.setLabel("Tms6");
tms6DataPoint.setDescription("Point 6 must remain connected duration.");
tms6DataPoint.setUnits("Secs");
tms6DataPoint.setSize(1);
tms6DataPoint.setAddressOffset(11);
tms6DataPoint.setBlockOffset(9);
tms6DataPoint.setScaleFactorName("Tms_SF");
tms6DataPoint.setSunSpecDataType("uint16");
tms6DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms6DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms6DataPoint.name(), tms6DataPoint);
SunSpecDataPoint v6DataPoint;
v6DataPoint.setName("V6");
v6DataPoint.setLabel("V6");
v6DataPoint.setDescription("Point 6 must remain connected voltage.");
v6DataPoint.setUnits("% VRef");
v6DataPoint.setSize(1);
v6DataPoint.setAddressOffset(12);
v6DataPoint.setBlockOffset(10);
v6DataPoint.setScaleFactorName("V_SF");
v6DataPoint.setSunSpecDataType("uint16");
v6DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v6DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v6DataPoint.name(), v6DataPoint);
SunSpecDataPoint tms7DataPoint;
tms7DataPoint.setName("Tms7");
tms7DataPoint.setLabel("Tms7");
tms7DataPoint.setDescription("Point 7 must remain connected duration.");
tms7DataPoint.setUnits("Secs");
tms7DataPoint.setSize(1);
tms7DataPoint.setAddressOffset(13);
tms7DataPoint.setBlockOffset(11);
tms7DataPoint.setScaleFactorName("Tms_SF");
tms7DataPoint.setSunSpecDataType("uint16");
tms7DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms7DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms7DataPoint.name(), tms7DataPoint);
SunSpecDataPoint v7DataPoint;
v7DataPoint.setName("V7");
v7DataPoint.setLabel("V7");
v7DataPoint.setDescription("Point 7 must remain connected voltage.");
v7DataPoint.setUnits("% VRef");
v7DataPoint.setSize(1);
v7DataPoint.setAddressOffset(14);
v7DataPoint.setBlockOffset(12);
v7DataPoint.setScaleFactorName("V_SF");
v7DataPoint.setSunSpecDataType("uint16");
v7DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v7DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v7DataPoint.name(), v7DataPoint);
SunSpecDataPoint tms8DataPoint;
tms8DataPoint.setName("Tms8");
tms8DataPoint.setLabel("Tms8");
tms8DataPoint.setDescription("Point 8 must remain connected duration.");
tms8DataPoint.setUnits("Secs");
tms8DataPoint.setSize(1);
tms8DataPoint.setAddressOffset(15);
tms8DataPoint.setBlockOffset(13);
tms8DataPoint.setScaleFactorName("Tms_SF");
tms8DataPoint.setSunSpecDataType("uint16");
tms8DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms8DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms8DataPoint.name(), tms8DataPoint);
SunSpecDataPoint v8DataPoint;
v8DataPoint.setName("V8");
v8DataPoint.setLabel("V8");
v8DataPoint.setDescription("Point 8 must remain connected voltage.");
v8DataPoint.setUnits("% VRef");
v8DataPoint.setSize(1);
v8DataPoint.setAddressOffset(16);
v8DataPoint.setBlockOffset(14);
v8DataPoint.setScaleFactorName("V_SF");
v8DataPoint.setSunSpecDataType("uint16");
v8DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v8DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v8DataPoint.name(), v8DataPoint);
SunSpecDataPoint tms9DataPoint;
tms9DataPoint.setName("Tms9");
tms9DataPoint.setLabel("Tms9");
tms9DataPoint.setDescription("Point 9 must remain connected duration.");
tms9DataPoint.setUnits("Secs");
tms9DataPoint.setSize(1);
tms9DataPoint.setAddressOffset(17);
tms9DataPoint.setBlockOffset(15);
tms9DataPoint.setScaleFactorName("Tms_SF");
tms9DataPoint.setSunSpecDataType("uint16");
tms9DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms9DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms9DataPoint.name(), tms9DataPoint);
SunSpecDataPoint v9DataPoint;
v9DataPoint.setName("V9");
v9DataPoint.setLabel("V9");
v9DataPoint.setDescription("Point 9 must remain connected voltage.");
v9DataPoint.setUnits("% VRef");
v9DataPoint.setSize(1);
v9DataPoint.setAddressOffset(18);
v9DataPoint.setBlockOffset(16);
v9DataPoint.setScaleFactorName("V_SF");
v9DataPoint.setSunSpecDataType("uint16");
v9DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v9DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v9DataPoint.name(), v9DataPoint);
SunSpecDataPoint tms10DataPoint;
tms10DataPoint.setName("Tms10");
tms10DataPoint.setLabel("Tms10");
tms10DataPoint.setDescription("Point 10 must remain connected duration.");
tms10DataPoint.setUnits("Secs");
tms10DataPoint.setSize(1);
tms10DataPoint.setAddressOffset(19);
tms10DataPoint.setBlockOffset(17);
tms10DataPoint.setScaleFactorName("Tms_SF");
tms10DataPoint.setSunSpecDataType("uint16");
tms10DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms10DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms10DataPoint.name(), tms10DataPoint);
SunSpecDataPoint v10DataPoint;
v10DataPoint.setName("V10");
v10DataPoint.setLabel("V10");
v10DataPoint.setDescription("Point 10 must remain connected voltage.");
v10DataPoint.setUnits("% VRef");
v10DataPoint.setSize(1);
v10DataPoint.setAddressOffset(20);
v10DataPoint.setBlockOffset(18);
v10DataPoint.setScaleFactorName("V_SF");
v10DataPoint.setSunSpecDataType("uint16");
v10DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v10DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v10DataPoint.name(), v10DataPoint);
SunSpecDataPoint tms11DataPoint;
tms11DataPoint.setName("Tms11");
tms11DataPoint.setLabel("Tms11");
tms11DataPoint.setDescription("Point 11 must remain connected duration.");
tms11DataPoint.setUnits("Secs");
tms11DataPoint.setSize(1);
tms11DataPoint.setAddressOffset(21);
tms11DataPoint.setBlockOffset(19);
tms11DataPoint.setScaleFactorName("Tms_SF");
tms11DataPoint.setSunSpecDataType("uint16");
tms11DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms11DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms11DataPoint.name(), tms11DataPoint);
SunSpecDataPoint v11DataPoint;
v11DataPoint.setName("V11");
v11DataPoint.setLabel("V11");
v11DataPoint.setDescription("Point 11 must remain connected voltage.");
v11DataPoint.setUnits("% VRef");
v11DataPoint.setSize(1);
v11DataPoint.setAddressOffset(22);
v11DataPoint.setBlockOffset(20);
v11DataPoint.setScaleFactorName("V_SF");
v11DataPoint.setSunSpecDataType("uint16");
v11DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v11DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v11DataPoint.name(), v11DataPoint);
SunSpecDataPoint tms12DataPoint;
tms12DataPoint.setName("Tms12");
tms12DataPoint.setLabel("Tms12");
tms12DataPoint.setDescription("Point 12 must remain connected duration.");
tms12DataPoint.setUnits("Secs");
tms12DataPoint.setSize(1);
tms12DataPoint.setAddressOffset(23);
tms12DataPoint.setBlockOffset(21);
tms12DataPoint.setScaleFactorName("Tms_SF");
tms12DataPoint.setSunSpecDataType("uint16");
tms12DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms12DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms12DataPoint.name(), tms12DataPoint);
SunSpecDataPoint v12DataPoint;
v12DataPoint.setName("V12");
v12DataPoint.setLabel("V12");
v12DataPoint.setDescription("Point 12 must remain connected voltage.");
v12DataPoint.setUnits("% VRef");
v12DataPoint.setSize(1);
v12DataPoint.setAddressOffset(24);
v12DataPoint.setBlockOffset(22);
v12DataPoint.setScaleFactorName("V_SF");
v12DataPoint.setSunSpecDataType("uint16");
v12DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v12DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v12DataPoint.name(), v12DataPoint);
SunSpecDataPoint tms13DataPoint;
tms13DataPoint.setName("Tms13");
tms13DataPoint.setLabel("Tms13");
tms13DataPoint.setDescription("Point 13 must remain connected duration.");
tms13DataPoint.setUnits("Secs");
tms13DataPoint.setSize(1);
tms13DataPoint.setAddressOffset(25);
tms13DataPoint.setBlockOffset(23);
tms13DataPoint.setScaleFactorName("Tms_SF");
tms13DataPoint.setSunSpecDataType("uint16");
tms13DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms13DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms13DataPoint.name(), tms13DataPoint);
SunSpecDataPoint v13DataPoint;
v13DataPoint.setName("V13");
v13DataPoint.setLabel("V13");
v13DataPoint.setDescription("Point 13 must remain connected voltage.");
v13DataPoint.setUnits("% VRef");
v13DataPoint.setSize(1);
v13DataPoint.setAddressOffset(26);
v13DataPoint.setBlockOffset(24);
v13DataPoint.setScaleFactorName("V_SF");
v13DataPoint.setSunSpecDataType("uint16");
v13DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v13DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v13DataPoint.name(), v13DataPoint);
SunSpecDataPoint tms14DataPoint;
tms14DataPoint.setName("Tms14");
tms14DataPoint.setLabel("Tms14");
tms14DataPoint.setDescription("Point 14 must remain connected duration.");
tms14DataPoint.setUnits("Secs");
tms14DataPoint.setSize(1);
tms14DataPoint.setAddressOffset(27);
tms14DataPoint.setBlockOffset(25);
tms14DataPoint.setScaleFactorName("Tms_SF");
tms14DataPoint.setSunSpecDataType("uint16");
tms14DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms14DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms14DataPoint.name(), tms14DataPoint);
SunSpecDataPoint v14DataPoint;
v14DataPoint.setName("V14");
v14DataPoint.setLabel("V14");
v14DataPoint.setDescription("Point 14 must remain connected voltage.");
v14DataPoint.setUnits("% VRef");
v14DataPoint.setSize(1);
v14DataPoint.setAddressOffset(28);
v14DataPoint.setBlockOffset(26);
v14DataPoint.setScaleFactorName("V_SF");
v14DataPoint.setSunSpecDataType("uint16");
v14DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v14DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v14DataPoint.name(), v14DataPoint);
SunSpecDataPoint tms15DataPoint;
tms15DataPoint.setName("Tms15");
tms15DataPoint.setLabel("Tms15");
tms15DataPoint.setDescription("Point 15 must remain connected duration.");
tms15DataPoint.setUnits("Secs");
tms15DataPoint.setSize(1);
tms15DataPoint.setAddressOffset(29);
tms15DataPoint.setBlockOffset(27);
tms15DataPoint.setScaleFactorName("Tms_SF");
tms15DataPoint.setSunSpecDataType("uint16");
tms15DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms15DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms15DataPoint.name(), tms15DataPoint);
SunSpecDataPoint v15DataPoint;
v15DataPoint.setName("V15");
v15DataPoint.setLabel("V15");
v15DataPoint.setDescription("Point 15 must remain connected voltage.");
v15DataPoint.setUnits("% VRef");
v15DataPoint.setSize(1);
v15DataPoint.setAddressOffset(30);
v15DataPoint.setBlockOffset(28);
v15DataPoint.setScaleFactorName("V_SF");
v15DataPoint.setSunSpecDataType("uint16");
v15DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v15DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v15DataPoint.name(), v15DataPoint);
SunSpecDataPoint tms16DataPoint;
tms16DataPoint.setName("Tms16");
tms16DataPoint.setLabel("Tms16");
tms16DataPoint.setDescription("Point 16 must remain connected duration.");
tms16DataPoint.setUnits("Secs");
tms16DataPoint.setSize(1);
tms16DataPoint.setAddressOffset(31);
tms16DataPoint.setBlockOffset(29);
tms16DataPoint.setScaleFactorName("Tms_SF");
tms16DataPoint.setSunSpecDataType("uint16");
tms16DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms16DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms16DataPoint.name(), tms16DataPoint);
SunSpecDataPoint v16DataPoint;
v16DataPoint.setName("V16");
v16DataPoint.setLabel("V16");
v16DataPoint.setDescription("Point 16 must remain connected voltage.");
v16DataPoint.setUnits("% VRef");
v16DataPoint.setSize(1);
v16DataPoint.setAddressOffset(32);
v16DataPoint.setBlockOffset(30);
v16DataPoint.setScaleFactorName("V_SF");
v16DataPoint.setSunSpecDataType("uint16");
v16DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v16DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v16DataPoint.name(), v16DataPoint);
SunSpecDataPoint tms17DataPoint;
tms17DataPoint.setName("Tms17");
tms17DataPoint.setLabel("Tms17");
tms17DataPoint.setDescription("Point 17 must remain connected duration.");
tms17DataPoint.setUnits("Secs");
tms17DataPoint.setSize(1);
tms17DataPoint.setAddressOffset(33);
tms17DataPoint.setBlockOffset(31);
tms17DataPoint.setScaleFactorName("Tms_SF");
tms17DataPoint.setSunSpecDataType("uint16");
tms17DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms17DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms17DataPoint.name(), tms17DataPoint);
SunSpecDataPoint v17DataPoint;
v17DataPoint.setName("V17");
v17DataPoint.setLabel("V17");
v17DataPoint.setDescription("Point 17 must remain connected voltage.");
v17DataPoint.setUnits("% VRef");
v17DataPoint.setSize(1);
v17DataPoint.setAddressOffset(34);
v17DataPoint.setBlockOffset(32);
v17DataPoint.setScaleFactorName("V_SF");
v17DataPoint.setSunSpecDataType("uint16");
v17DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v17DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v17DataPoint.name(), v17DataPoint);
SunSpecDataPoint tms18DataPoint;
tms18DataPoint.setName("Tms18");
tms18DataPoint.setLabel("Tms18");
tms18DataPoint.setDescription("Point 18 must remain connected duration.");
tms18DataPoint.setUnits("Secs");
tms18DataPoint.setSize(1);
tms18DataPoint.setAddressOffset(35);
tms18DataPoint.setBlockOffset(33);
tms18DataPoint.setScaleFactorName("Tms_SF");
tms18DataPoint.setSunSpecDataType("uint16");
tms18DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms18DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms18DataPoint.name(), tms18DataPoint);
SunSpecDataPoint v18DataPoint;
v18DataPoint.setName("V18");
v18DataPoint.setLabel("V18");
v18DataPoint.setDescription("Point 18 must remain connected voltage.");
v18DataPoint.setUnits("% VRef");
v18DataPoint.setSize(1);
v18DataPoint.setAddressOffset(36);
v18DataPoint.setBlockOffset(34);
v18DataPoint.setScaleFactorName("V_SF");
v18DataPoint.setSunSpecDataType("uint16");
v18DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v18DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v18DataPoint.name(), v18DataPoint);
SunSpecDataPoint tms19DataPoint;
tms19DataPoint.setName("Tms19");
tms19DataPoint.setLabel("Tms19");
tms19DataPoint.setDescription("Point 19 must remain connected duration.");
tms19DataPoint.setUnits("Secs");
tms19DataPoint.setSize(1);
tms19DataPoint.setAddressOffset(37);
tms19DataPoint.setBlockOffset(35);
tms19DataPoint.setScaleFactorName("Tms_SF");
tms19DataPoint.setSunSpecDataType("uint16");
tms19DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms19DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms19DataPoint.name(), tms19DataPoint);
SunSpecDataPoint v19DataPoint;
v19DataPoint.setName("V19");
v19DataPoint.setLabel("V19");
v19DataPoint.setDescription("Point 19 must remain connected voltage.");
v19DataPoint.setUnits("% VRef");
v19DataPoint.setSize(1);
v19DataPoint.setAddressOffset(38);
v19DataPoint.setBlockOffset(36);
v19DataPoint.setScaleFactorName("V_SF");
v19DataPoint.setSunSpecDataType("uint16");
v19DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v19DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v19DataPoint.name(), v19DataPoint);
SunSpecDataPoint tms20DataPoint;
tms20DataPoint.setName("Tms20");
tms20DataPoint.setLabel("Tms20");
tms20DataPoint.setDescription("Point 20 must remain connected duration.");
tms20DataPoint.setUnits("Secs");
tms20DataPoint.setSize(1);
tms20DataPoint.setAddressOffset(39);
tms20DataPoint.setBlockOffset(37);
tms20DataPoint.setScaleFactorName("Tms_SF");
tms20DataPoint.setSunSpecDataType("uint16");
tms20DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
tms20DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tms20DataPoint.name(), tms20DataPoint);
SunSpecDataPoint v20DataPoint;
v20DataPoint.setName("V20");
v20DataPoint.setLabel("V20");
v20DataPoint.setDescription("Point 20 must remain connected voltage.");
v20DataPoint.setUnits("% VRef");
v20DataPoint.setSize(1);
v20DataPoint.setAddressOffset(40);
v20DataPoint.setBlockOffset(38);
v20DataPoint.setScaleFactorName("V_SF");
v20DataPoint.setSunSpecDataType("uint16");
v20DataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
v20DataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(v20DataPoint.name(), v20DataPoint);
SunSpecDataPoint crvNamDataPoint;
crvNamDataPoint.setName("CrvNam");
crvNamDataPoint.setLabel("CrvNam");
crvNamDataPoint.setDescription("Optional description for curve.");
crvNamDataPoint.setSize(8);
crvNamDataPoint.setAddressOffset(41);
crvNamDataPoint.setBlockOffset(39);
crvNamDataPoint.setSunSpecDataType("string");
crvNamDataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
crvNamDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(crvNamDataPoint.name(), crvNamDataPoint);
SunSpecDataPoint readOnlyDataPoint;
readOnlyDataPoint.setName("ReadOnly");
readOnlyDataPoint.setLabel("ReadOnly");
readOnlyDataPoint.setDescription("Enumerated value indicates if curve is read-only or can be modified.");
readOnlyDataPoint.setMandatory(true);
readOnlyDataPoint.setSize(1);
readOnlyDataPoint.setAddressOffset(49);
readOnlyDataPoint.setBlockOffset(47);
readOnlyDataPoint.setSunSpecDataType("enum16");
readOnlyDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(readOnlyDataPoint.name(), readOnlyDataPoint);
}
void SunSpecHvrtcModelRepeatingBlock::processBlockData(const QVector blockData)
{
m_blockData = blockData;
// Update properties according to the data point type
if (m_dataPoints.value("ActPt").isValid())
m_actPt = m_dataPoints.value("ActPt").toUInt16();
if (m_dataPoints.value("Tms1").isValid())
m_tms1 = m_dataPoints.value("Tms1").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V1").isValid())
m_v1 = m_dataPoints.value("V1").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms2").isValid())
m_tms2 = m_dataPoints.value("Tms2").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V2").isValid())
m_v2 = m_dataPoints.value("V2").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms3").isValid())
m_tms3 = m_dataPoints.value("Tms3").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V3").isValid())
m_v3 = m_dataPoints.value("V3").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms4").isValid())
m_tms4 = m_dataPoints.value("Tms4").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V4").isValid())
m_v4 = m_dataPoints.value("V4").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms5").isValid())
m_tms5 = m_dataPoints.value("Tms5").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V5").isValid())
m_v5 = m_dataPoints.value("V5").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms6").isValid())
m_tms6 = m_dataPoints.value("Tms6").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V6").isValid())
m_v6 = m_dataPoints.value("V6").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms7").isValid())
m_tms7 = m_dataPoints.value("Tms7").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V7").isValid())
m_v7 = m_dataPoints.value("V7").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms8").isValid())
m_tms8 = m_dataPoints.value("Tms8").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V8").isValid())
m_v8 = m_dataPoints.value("V8").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms9").isValid())
m_tms9 = m_dataPoints.value("Tms9").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V9").isValid())
m_v9 = m_dataPoints.value("V9").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms10").isValid())
m_tms10 = m_dataPoints.value("Tms10").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V10").isValid())
m_v10 = m_dataPoints.value("V10").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms11").isValid())
m_tms11 = m_dataPoints.value("Tms11").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V11").isValid())
m_v11 = m_dataPoints.value("V11").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms12").isValid())
m_tms12 = m_dataPoints.value("Tms12").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V12").isValid())
m_v12 = m_dataPoints.value("V12").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms13").isValid())
m_tms13 = m_dataPoints.value("Tms13").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V13").isValid())
m_v13 = m_dataPoints.value("V13").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms14").isValid())
m_tms14 = m_dataPoints.value("Tms14").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V14").isValid())
m_v14 = m_dataPoints.value("V14").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms15").isValid())
m_tms15 = m_dataPoints.value("Tms15").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V15").isValid())
m_v15 = m_dataPoints.value("V15").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms16").isValid())
m_tms16 = m_dataPoints.value("Tms16").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V16").isValid())
m_v16 = m_dataPoints.value("V16").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms17").isValid())
m_tms17 = m_dataPoints.value("Tms17").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V17").isValid())
m_v17 = m_dataPoints.value("V17").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms18").isValid())
m_tms18 = m_dataPoints.value("Tms18").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V18").isValid())
m_v18 = m_dataPoints.value("V18").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms19").isValid())
m_tms19 = m_dataPoints.value("Tms19").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V19").isValid())
m_v19 = m_dataPoints.value("V19").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("Tms20").isValid())
m_tms20 = m_dataPoints.value("Tms20").toFloatWithSSF(m_parentModel->tmsSf());
if (m_dataPoints.value("V20").isValid())
m_v20 = m_dataPoints.value("V20").toFloatWithSSF(m_parentModel->vSf());
if (m_dataPoints.value("CrvNam").isValid())
m_crvNam = m_dataPoints.value("CrvNam").toString();
if (m_dataPoints.value("ReadOnly").isValid())
m_readOnly = static_cast(m_dataPoints.value("ReadOnly").toUInt16());
qCDebug(dcSunSpecModelData()) << this;
}
SunSpecHvrtcModel::SunSpecHvrtcModel(SunSpecConnection *connection, quint16 modbusStartRegister, quint16 modelLength, SunSpecDataPoint::ByteOrder byteOrder, QObject *parent) :
SunSpecModel(connection, modbusStartRegister, 138, modelLength, byteOrder, parent)
{
m_modelBlockType = SunSpecModel::ModelBlockTypeFixedAndRepeating;
initDataPoints();
}
SunSpecHvrtcModel::~SunSpecHvrtcModel()
{
}
QString SunSpecHvrtcModel::name() const
{
return "hvrtc";
}
QString SunSpecHvrtcModel::description() const
{
return "HVRT must remain connected";
}
QString SunSpecHvrtcModel::label() const
{
return "HVRTC";
}
quint16 SunSpecHvrtcModel::actCrv() const
{
return m_actCrv;
}
QModbusReply *SunSpecHvrtcModel::setActCrv(quint16 actCrv)
{
if (!m_initialized)
return nullptr;
SunSpecDataPoint dp = m_dataPoints.value("ActCrv");
QVector registers = SunSpecDataPoint::convertFromUInt16(actCrv);
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_connection->modbusTcpClient()->sendWriteRequest(request, m_connection->slaveId());
}
SunSpecHvrtcModel::ModenaFlags SunSpecHvrtcModel::modEna() const
{
return m_modEna;
}
QModbusReply *SunSpecHvrtcModel::setModEna(ModenaFlags modEna)
{
if (!m_initialized)
return nullptr;
SunSpecDataPoint dp = m_dataPoints.value("ModEna");
QVector registers = SunSpecDataPoint::convertFromUInt16(static_cast(modEna));
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_connection->modbusTcpClient()->sendWriteRequest(request, m_connection->slaveId());
}
quint16 SunSpecHvrtcModel::winTms() const
{
return m_winTms;
}
QModbusReply *SunSpecHvrtcModel::setWinTms(quint16 winTms)
{
if (!m_initialized)
return nullptr;
SunSpecDataPoint dp = m_dataPoints.value("WinTms");
QVector registers = SunSpecDataPoint::convertFromUInt16(winTms);
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_connection->modbusTcpClient()->sendWriteRequest(request, m_connection->slaveId());
}
quint16 SunSpecHvrtcModel::rvrtTms() const
{
return m_rvrtTms;
}
QModbusReply *SunSpecHvrtcModel::setRvrtTms(quint16 rvrtTms)
{
if (!m_initialized)
return nullptr;
SunSpecDataPoint dp = m_dataPoints.value("RvrtTms");
QVector registers = SunSpecDataPoint::convertFromUInt16(rvrtTms);
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_connection->modbusTcpClient()->sendWriteRequest(request, m_connection->slaveId());
}
quint16 SunSpecHvrtcModel::rmpTms() const
{
return m_rmpTms;
}
QModbusReply *SunSpecHvrtcModel::setRmpTms(quint16 rmpTms)
{
if (!m_initialized)
return nullptr;
SunSpecDataPoint dp = m_dataPoints.value("RmpTms");
QVector registers = SunSpecDataPoint::convertFromUInt16(rmpTms);
QModbusDataUnit request = QModbusDataUnit(QModbusDataUnit::RegisterType::HoldingRegisters, m_modbusStartRegister + dp.addressOffset(), registers.length());
request.setValues(registers);
return m_connection->modbusTcpClient()->sendWriteRequest(request, m_connection->slaveId());
}
quint16 SunSpecHvrtcModel::nCrv() const
{
return m_nCrv;
}
quint16 SunSpecHvrtcModel::nPt() const
{
return m_nPt;
}
qint16 SunSpecHvrtcModel::tmsSf() const
{
return m_tmsSf;
}
qint16 SunSpecHvrtcModel::vSf() const
{
return m_vSf;
}
quint16 SunSpecHvrtcModel::pad() const
{
return m_pad;
}
void SunSpecHvrtcModel::initDataPoints()
{
SunSpecDataPoint modelIdDataPoint;
modelIdDataPoint.setName("ID");
modelIdDataPoint.setLabel("Model ID");
modelIdDataPoint.setDescription("Model identifier");
modelIdDataPoint.setMandatory(true);
modelIdDataPoint.setSize(1);
modelIdDataPoint.setAddressOffset(0);
modelIdDataPoint.setSunSpecDataType("uint16");
modelIdDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(modelIdDataPoint.name(), modelIdDataPoint);
SunSpecDataPoint modelLengthDataPoint;
modelLengthDataPoint.setName("L");
modelLengthDataPoint.setLabel("Model Length");
modelLengthDataPoint.setDescription("Model length");
modelLengthDataPoint.setMandatory(true);
modelLengthDataPoint.setSize(1);
modelLengthDataPoint.setAddressOffset(1);
modelLengthDataPoint.setSunSpecDataType("uint16");
modelLengthDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(modelLengthDataPoint.name(), modelLengthDataPoint);
SunSpecDataPoint actCrvDataPoint;
actCrvDataPoint.setName("ActCrv");
actCrvDataPoint.setLabel("ActCrv");
actCrvDataPoint.setDescription("Index of active curve. 0=no active curve.");
actCrvDataPoint.setMandatory(true);
actCrvDataPoint.setSize(1);
actCrvDataPoint.setAddressOffset(2);
actCrvDataPoint.setBlockOffset(0);
actCrvDataPoint.setSunSpecDataType("uint16");
actCrvDataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
actCrvDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(actCrvDataPoint.name(), actCrvDataPoint);
SunSpecDataPoint modEnaDataPoint;
modEnaDataPoint.setName("ModEna");
modEnaDataPoint.setLabel("ModEna");
modEnaDataPoint.setDescription("HVRT control mode. Enable active curve. Bitfield value.");
modEnaDataPoint.setMandatory(true);
modEnaDataPoint.setSize(1);
modEnaDataPoint.setAddressOffset(3);
modEnaDataPoint.setBlockOffset(1);
modEnaDataPoint.setSunSpecDataType("bitfield16");
modEnaDataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
modEnaDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(modEnaDataPoint.name(), modEnaDataPoint);
SunSpecDataPoint winTmsDataPoint;
winTmsDataPoint.setName("WinTms");
winTmsDataPoint.setLabel("WinTms");
winTmsDataPoint.setDescription("Time window for HVRT change.");
winTmsDataPoint.setUnits("Secs");
winTmsDataPoint.setSize(1);
winTmsDataPoint.setAddressOffset(4);
winTmsDataPoint.setBlockOffset(2);
winTmsDataPoint.setSunSpecDataType("uint16");
winTmsDataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
winTmsDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(winTmsDataPoint.name(), winTmsDataPoint);
SunSpecDataPoint rvrtTmsDataPoint;
rvrtTmsDataPoint.setName("RvrtTms");
rvrtTmsDataPoint.setLabel("RvrtTms");
rvrtTmsDataPoint.setDescription("Timeout period for HVRT curve selection.");
rvrtTmsDataPoint.setUnits("Secs");
rvrtTmsDataPoint.setSize(1);
rvrtTmsDataPoint.setAddressOffset(5);
rvrtTmsDataPoint.setBlockOffset(3);
rvrtTmsDataPoint.setSunSpecDataType("uint16");
rvrtTmsDataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
rvrtTmsDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(rvrtTmsDataPoint.name(), rvrtTmsDataPoint);
SunSpecDataPoint rmpTmsDataPoint;
rmpTmsDataPoint.setName("RmpTms");
rmpTmsDataPoint.setLabel("RmpTms");
rmpTmsDataPoint.setDescription("Ramp time for moving from current mode to new mode.");
rmpTmsDataPoint.setUnits("Secs");
rmpTmsDataPoint.setSize(1);
rmpTmsDataPoint.setAddressOffset(6);
rmpTmsDataPoint.setBlockOffset(4);
rmpTmsDataPoint.setSunSpecDataType("uint16");
rmpTmsDataPoint.setAccess(SunSpecDataPoint::AccessReadWrite);
rmpTmsDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(rmpTmsDataPoint.name(), rmpTmsDataPoint);
SunSpecDataPoint nCrvDataPoint;
nCrvDataPoint.setName("NCrv");
nCrvDataPoint.setLabel("NCrv");
nCrvDataPoint.setDescription("Number of curves supported (recommend 4).");
nCrvDataPoint.setMandatory(true);
nCrvDataPoint.setSize(1);
nCrvDataPoint.setAddressOffset(7);
nCrvDataPoint.setBlockOffset(5);
nCrvDataPoint.setSunSpecDataType("uint16");
nCrvDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(nCrvDataPoint.name(), nCrvDataPoint);
SunSpecDataPoint nPtDataPoint;
nPtDataPoint.setName("NPt");
nPtDataPoint.setLabel("NPt");
nPtDataPoint.setDescription("Number of curve points supported (maximum of 20).");
nPtDataPoint.setMandatory(true);
nPtDataPoint.setSize(1);
nPtDataPoint.setAddressOffset(8);
nPtDataPoint.setBlockOffset(6);
nPtDataPoint.setSunSpecDataType("uint16");
nPtDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(nPtDataPoint.name(), nPtDataPoint);
SunSpecDataPoint tmsSfDataPoint;
tmsSfDataPoint.setName("Tms_SF");
tmsSfDataPoint.setLabel("Tms_SF");
tmsSfDataPoint.setDescription("Scale factor for duration.");
tmsSfDataPoint.setMandatory(true);
tmsSfDataPoint.setSize(1);
tmsSfDataPoint.setAddressOffset(9);
tmsSfDataPoint.setBlockOffset(7);
tmsSfDataPoint.setSunSpecDataType("sunssf");
tmsSfDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(tmsSfDataPoint.name(), tmsSfDataPoint);
SunSpecDataPoint vSfDataPoint;
vSfDataPoint.setName("V_SF");
vSfDataPoint.setLabel("V_SF");
vSfDataPoint.setDescription("Scale factor for percent VRef.");
vSfDataPoint.setMandatory(true);
vSfDataPoint.setSize(1);
vSfDataPoint.setAddressOffset(10);
vSfDataPoint.setBlockOffset(8);
vSfDataPoint.setSunSpecDataType("sunssf");
vSfDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(vSfDataPoint.name(), vSfDataPoint);
SunSpecDataPoint padDataPoint;
padDataPoint.setName("Pad");
padDataPoint.setSize(1);
padDataPoint.setAddressOffset(11);
padDataPoint.setBlockOffset(9);
padDataPoint.setSunSpecDataType("pad");
padDataPoint.setByteOrder(m_byteOrder);
m_dataPoints.insert(padDataPoint.name(), padDataPoint);
}
void SunSpecHvrtcModel::processBlockData()
{
// Scale factors
if (m_dataPoints.value("Tms_SF").isValid())
m_tmsSf = m_dataPoints.value("Tms_SF").toInt16();
if (m_dataPoints.value("V_SF").isValid())
m_vSf = m_dataPoints.value("V_SF").toInt16();
// Update properties according to the data point type
if (m_dataPoints.value("ActCrv").isValid())
m_actCrv = m_dataPoints.value("ActCrv").toUInt16();
if (m_dataPoints.value("ModEna").isValid())
m_modEna = static_cast(m_dataPoints.value("ModEna").toUInt16());
if (m_dataPoints.value("WinTms").isValid())
m_winTms = m_dataPoints.value("WinTms").toUInt16();
if (m_dataPoints.value("RvrtTms").isValid())
m_rvrtTms = m_dataPoints.value("RvrtTms").toUInt16();
if (m_dataPoints.value("RmpTms").isValid())
m_rmpTms = m_dataPoints.value("RmpTms").toUInt16();
if (m_dataPoints.value("NCrv").isValid())
m_nCrv = m_dataPoints.value("NCrv").toUInt16();
if (m_dataPoints.value("NPt").isValid())
m_nPt = m_dataPoints.value("NPt").toUInt16();
if (m_dataPoints.value("Tms_SF").isValid())
m_tmsSf = m_dataPoints.value("Tms_SF").toInt16();
if (m_dataPoints.value("V_SF").isValid())
m_vSf = m_dataPoints.value("V_SF").toInt16();
if (m_dataPoints.value("Pad").isValid())
m_pad = m_dataPoints.value("Pad").toUInt16();
qCDebug(dcSunSpecModelData()) << this;
}
QDebug operator<<(QDebug debug, SunSpecHvrtcModel *model)
{
debug.nospace().noquote() << "SunSpecHvrtcModel(Model: " << model->modelId() << ", Register: " << model->modbusStartRegister() << ", Length: " << model->modelLength() << ")\n";
debug.nospace().noquote() << " - " << model->dataPoints().value("ActCrv") << "-->";
if (model->dataPoints().value("ActCrv").isValid()) {
debug.nospace().noquote() << model->actCrv() << "\n";
} else {
debug.nospace().noquote() << "NaN\n";
}
debug.nospace().noquote() << " - " << model->dataPoints().value("ModEna") << "-->";
if (model->dataPoints().value("ModEna").isValid()) {
debug.nospace().noquote() << model->modEna() << "\n";
} else {
debug.nospace().noquote() << "NaN\n";
}
debug.nospace().noquote() << " - " << model->dataPoints().value("WinTms") << "-->";
if (model->dataPoints().value("WinTms").isValid()) {
debug.nospace().noquote() << model->winTms() << "\n";
} else {
debug.nospace().noquote() << "NaN\n";
}
debug.nospace().noquote() << " - " << model->dataPoints().value("RvrtTms") << "-->";
if (model->dataPoints().value("RvrtTms").isValid()) {
debug.nospace().noquote() << model->rvrtTms() << "\n";
} else {
debug.nospace().noquote() << "NaN\n";
}
debug.nospace().noquote() << " - " << model->dataPoints().value("RmpTms") << "-->";
if (model->dataPoints().value("RmpTms").isValid()) {
debug.nospace().noquote() << model->rmpTms() << "\n";
} else {
debug.nospace().noquote() << "NaN\n";
}
debug.nospace().noquote() << " - " << model->dataPoints().value("NCrv") << "-->";
if (model->dataPoints().value("NCrv").isValid()) {
debug.nospace().noquote() << model->nCrv() << "\n";
} else {
debug.nospace().noquote() << "NaN\n";
}
debug.nospace().noquote() << " - " << model->dataPoints().value("NPt") << "-->";
if (model->dataPoints().value("NPt").isValid()) {
debug.nospace().noquote() << model->nPt() << "\n";
} else {
debug.nospace().noquote() << "NaN\n";
}
debug.nospace().noquote() << " - " << model->dataPoints().value("Pad") << "-->";
if (model->dataPoints().value("Pad").isValid()) {
debug.nospace().noquote() << model->pad() << "\n";
} else {
debug.nospace().noquote() << "NaN\n";
}
return debug.space().quote();
}