kopia lustrzana https://github.com/weetmuts/wmbusmeters
256 wiersze
9.1 KiB
C++
256 wiersze
9.1 KiB
C++
/*
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Copyright (C) 2021 Vincent Privat
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include"meters.h"
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#include"meters_common_implementation.h"
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#include"dvparser.h"
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#include"wmbus.h"
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#include"wmbus_utils.h"
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struct MeterSharky : public virtual HeatMeter, public virtual MeterCommonImplementation {
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MeterSharky(MeterInfo &mi);
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double totalEnergyConsumption(Unit u);
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double totalEnergyConsumptionTariff1(Unit u);
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double totalVolume(Unit u);
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double totalVolumeTariff2(Unit u);
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double volumeFlow(Unit u);
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double power(Unit u);
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double flowTemperature(Unit u);
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double returnTemperature(Unit u);
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double temperatureDifference(Unit u);
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private:
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void processContent(Telegram *t);
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double total_energy_kwh_ {};
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double total_energy_tariff1_kwh_ {};
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double total_volume_m3_ {};
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double total_volume_tariff2_m3_ {};
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double volume_flow_m3h_ {};
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double power_w_ {};
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double flow_temperature_c_ {};
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double return_temperature_c_ {};
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double temperature_difference_c_ {};
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};
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MeterSharky::MeterSharky(MeterInfo &mi) :
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MeterCommonImplementation(mi, MeterDriver::SHARKY)
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{
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addLinkMode(LinkMode::T1);
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addPrint("total_energy_consumption", Quantity::Energy,
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[&](Unit u){ return totalEnergyConsumption(u); },
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"The total energy consumption recorded by this meter.",
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true, true);
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addPrint("total_energy_consumption_tariff1", Quantity::Energy,
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[&](Unit u){ return totalEnergyConsumptionTariff1(u); },
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"The total energy consumption recorded by this meter on tariff 1.",
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true, true);
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addPrint("total_volume", Quantity::Volume,
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[&](Unit u){ return totalVolume(u); },
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"The total volume recorded by this meter.",
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true, true);
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addPrint("total_volume", Quantity::Volume,
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[&](Unit u){ return totalVolumeTariff2(u); },
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"The total volume recorded by this meter on tariff 2.",
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true, true);
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addPrint("volume_flow", Quantity::Flow,
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[&](Unit u){ return volumeFlow(u); },
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"The current flow.",
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true, true);
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addPrint("power", Quantity::Power,
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[&](Unit u){ return power(u); },
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"The power.",
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true, true);
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addPrint("flow_temperature", Quantity::Temperature,
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[&](Unit u){ return flowTemperature(u); },
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"The flow temperature.",
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true, true);
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addPrint("return_temperature", Quantity::Temperature,
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[&](Unit u){ return returnTemperature(u); },
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"The return temperature.",
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true, true);
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addPrint("temperature_difference", Quantity::Temperature,
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[&](Unit u){ return temperatureDifference(u); },
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"The temperature difference.",
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true, true);
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}
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shared_ptr<HeatMeter> createSharky(MeterInfo &mi) {
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return shared_ptr<HeatMeter>(new MeterSharky(mi));
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}
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double MeterSharky::totalEnergyConsumption(Unit u)
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{
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assertQuantity(u, Quantity::Energy);
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return convert(total_energy_kwh_, Unit::KWH, u);
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}
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double MeterSharky::totalEnergyConsumptionTariff1(Unit u)
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{
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assertQuantity(u, Quantity::Energy);
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return convert(total_energy_tariff1_kwh_, Unit::KWH, u);
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}
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double MeterSharky::totalVolume(Unit u)
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{
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assertQuantity(u, Quantity::Volume);
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return convert(total_volume_m3_, Unit::M3, u);
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}
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double MeterSharky::totalVolumeTariff2(Unit u)
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{
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assertQuantity(u, Quantity::Volume);
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return convert(total_volume_tariff2_m3_, Unit::M3, u);
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}
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double MeterSharky::volumeFlow(Unit u)
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{
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assertQuantity(u, Quantity::Flow);
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return convert(volume_flow_m3h_, Unit::M3H, u);
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}
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double MeterSharky::power(Unit u)
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{
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assertQuantity(u, Quantity::Power);
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return convert(power_w_, Unit::KW, u);
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}
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double MeterSharky::flowTemperature(Unit u)
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{
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assertQuantity(u, Quantity::Temperature);
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return convert(flow_temperature_c_, Unit::C, u);
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}
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double MeterSharky::returnTemperature(Unit u)
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{
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assertQuantity(u, Quantity::Temperature);
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return convert(return_temperature_c_, Unit::C, u);
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}
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double MeterSharky::temperatureDifference(Unit u)
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{
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assertQuantity(u, Quantity::Temperature);
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return convert(temperature_difference_c_, Unit::C, u);
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}
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void MeterSharky::processContent(Telegram *t)
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{
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/*
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(wmbus) 0f: 0C dif (8 digit BCD Instantaneous value)
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(wmbus) 10: 06 vif (Energy kWh)
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(wmbus) 11: 51260000
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(wmbus) 15: 8C dif (8 digit BCD Instantaneous value)
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(wmbus) 16: 10 dife (subunit=0 tariff=1 storagenr=0)
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(wmbus) 17: 06 vif (Energy kWh)
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(wmbus) 18: 00000000
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(wmbus) 1c: 0C dif (8 digit BCD Instantaneous value)
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(wmbus) 1d: 13 vif (Volume l)
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(wmbus) 1e: 47031500
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(wmbus) 22: 8C dif (8 digit BCD Instantaneous value)
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(wmbus) 23: 20 dife (subunit=0 tariff=2 storagenr=0)
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(wmbus) 24: 13 vif (Volume l)
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(wmbus) 25: 18000000
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(wmbus) 29: 8C dif (8 digit BCD Instantaneous value)
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(wmbus) 2a: 40 dife (subunit=1 tariff=0 storagenr=0)
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(wmbus) 2b: 13 vif (Volume l)
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(wmbus) 2c: 00000000
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(wmbus) 30: 8C dif (8 digit BCD Instantaneous value)
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(wmbus) 31: 80 dife (subunit=0 tariff=0 storagenr=0)
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(wmbus) 32: 40 dife (subunit=2 tariff=0 storagenr=0)
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(wmbus) 33: 13 vif (Volume l)
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(wmbus) 34: 00000000
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(wmbus) 38: 02 dif (16 Bit Integer/Binary Instantaneous value)
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(wmbus) 39: FD vif (Second extension FD of VIF-codes)
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(wmbus) 3a: 17 vife (Error flags (binary))
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(wmbus) 3b: 0000
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(wmbus) 3d: 0B dif (6 digit BCD Instantaneous value)
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(wmbus) 3e: 3B vif (Volume flow l/h)
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(wmbus) 3f: 000000
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(wmbus) 42: 0C dif (8 digit BCD Instantaneous value)
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(wmbus) 43: 2B vif (Power W)
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(wmbus) 44: 00000000
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(wmbus) 48: 0A dif (4 digit BCD Instantaneous value)
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(wmbus) 49: 5A vif (Flow temperature 10⁻¹ °C)
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(wmbus) 4a: 2304
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(wmbus) 4c: 0A dif (4 digit BCD Instantaneous value)
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(wmbus) 4d: 5E vif (Return temperature 10⁻¹ °C)
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(wmbus) 4e: 8102
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(wmbus) 50: 0A dif (4 digit BCD Instantaneous value)
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(wmbus) 51: 62 vif (Temperature difference 10⁻¹ K)
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(wmbus) 52: 4101
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*/
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int offset;
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string key;
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if (findKey(MeasurementType::Instantaneous, ValueInformation::EnergyWh, 0, 0, &key, &t->values)) {
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extractDVdouble(&t->values, key, &offset, &total_energy_kwh_);
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t->addMoreExplanation(offset, " total energy consumption (%f kWh)", total_energy_kwh_);
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}
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if (findKey(MeasurementType::Instantaneous, ValueInformation::EnergyWh, 0, 1, &key, &t->values)) {
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extractDVdouble(&t->values, key, &offset, &total_energy_tariff1_kwh_);
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t->addMoreExplanation(offset, " total energy tariff 1 (%f kwh)", total_energy_tariff1_kwh_);
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}
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if (findKey(MeasurementType::Instantaneous, ValueInformation::Volume, 0, 0, &key, &t->values)) {
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extractDVdouble(&t->values, key, &offset, &total_volume_m3_);
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t->addMoreExplanation(offset, " total volume (%f ㎥)", total_volume_m3_);
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}
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if (findKey(MeasurementType::Instantaneous, ValueInformation::Volume, 0, 2, &key, &t->values)) {
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extractDVdouble(&t->values, key, &offset, &total_volume_tariff2_m3_);
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t->addMoreExplanation(offset, " total volume tariff 2 (%f ㎥)", total_volume_tariff2_m3_);
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}
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if (findKey(MeasurementType::Instantaneous, ValueInformation::VolumeFlow, 0, 0, &key, &t->values)) {
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extractDVdouble(&t->values, key, &offset, &volume_flow_m3h_);
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t->addMoreExplanation(offset, " volume flow (%f ㎥/h)", volume_flow_m3h_);
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}
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if (findKey(MeasurementType::Instantaneous, ValueInformation::PowerW, 0, 0, &key, &t->values)) {
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extractDVdouble(&t->values, key, &offset, &power_w_);
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t->addMoreExplanation(offset, " power (%f W)", power_w_);
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}
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if (findKey(MeasurementType::Instantaneous, ValueInformation::FlowTemperature, 0, 0, &key, &t->values)) {
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extractDVdouble(&t->values, key, &offset, &flow_temperature_c_);
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t->addMoreExplanation(offset, " flow temperature (%f °C)", flow_temperature_c_);
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}
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if (findKey(MeasurementType::Instantaneous, ValueInformation::ReturnTemperature, 0, 0, &key, &t->values)) {
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extractDVdouble(&t->values, key, &offset, &return_temperature_c_);
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t->addMoreExplanation(offset, " return temperature (%f °C)", return_temperature_c_);
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}
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if (findKey(MeasurementType::Instantaneous, ValueInformation::TemperatureDifference, 0, 0, &key, &t->values)) {
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extractDVdouble(&t->values, key, &offset, &temperature_difference_c_);
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t->addMoreExplanation(offset, " temperature difference (%f °C)", temperature_difference_c_);
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}
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}
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