#include "AgValue.h" #include "AgConfigure.h" #include "AirGradient.h" #include "Libraries/Arduino_JSON/src/Arduino_JSON.h" String Measurements::toString(bool localServer, AgFirmwareMode fwMode, int rssi, void *_ag, void *_config) { AirGradient *ag = (AirGradient *)_ag; Configuration *config = (Configuration *)_config; JSONVar root; root["wifi"] = rssi; if (localServer) { root["serialno"] = ag->deviceId(); } if (config->hasSensorS8) { if (this->CO2 >= 0) { root["rco2"] = this->CO2; } } if (ag->isOne() || (ag->isPro4_2()) || ag->isPro3_3() || ag->isBasic()) { if (config->hasSensorPMS1) { if (this->pm01_1 >= 0) { root["pm01"] = this->pm01_1; } if (this->pm25_1 >= 0) { root["pm02"] = this->pm25_1; } if (this->pm10_1 >= 0) { root["pm10"] = this->pm10_1; } if (this->pm03PCount_1 >= 0) { root["pm003Count"] = this->pm03PCount_1; } } if (config->hasSensorSHT) { if (this->Temperature > -1001) { root["atmp"] = ag->round2(this->Temperature); if (localServer) { root["atmpCompensated"] = ag->round2(this->Temperature); } } if (this->Humidity >= 0) { root["rhum"] = this->Humidity; if (localServer) { root["rhumCompensated"] = this->Humidity; } } } } else { if (config->hasSensorPMS1 && config->hasSensorPMS2) { root["pm01"] = ag->round2((this->pm01_1 + this->pm01_2) / 2.0); root["pm02"] = ag->round2((this->pm25_1 + this->pm25_2) / 2.0); root["pm10"] = ag->round2((this->pm10_1 + this->pm10_2) / 2.0); root["pm003Count"] = ag->round2((this->pm03PCount_1 + this->pm03PCount_2) / 2.0); root["atmp"] = ag->round2((this->temp_1 + this->temp_2) / 2.0f); root["rhum"] = ag->round2((this->hum_1 + this->hum_2) / 2.0f); if (localServer) { root["atmpCompensated"] = ag->round2(ag->pms5003t_2.temperatureCompensated( (this->temp_1 + this->temp_2) / 2.0f)); root["rhumCompensated"] = (int)ag->pms5003t_2.humidityCompensated( (this->hum_1 + this->hum_2) / 2.0f); } } if (fwMode == FW_MODE_O_1PS || fwMode == FW_MODE_O_1PST) { if (config->hasSensorPMS1) { root["pm01"] = this->pm01_1; root["pm02"] = this->pm25_1; root["pm10"] = this->pm10_1; root["pm003Count"] = this->pm03PCount_1; root["atmp"] = ag->round2(this->temp_1); root["rhum"] = this->hum_1; if (localServer) { root["atmpCompensated"] = ag->round2(ag->pms5003t_1.temperatureCompensated(this->temp_1)); root["rhumCompensated"] = (int)ag->pms5003t_1.humidityCompensated(this->hum_1); } } if (config->hasSensorPMS2) { root["pm01"] = this->pm01_2; root["pm02"] = this->pm25_2; root["pm10"] = this->pm10_2; root["pm003Count"] = this->pm03PCount_2; root["atmp"] = ag->round2(this->temp_2); root["rhum"] = this->hum_2; if (localServer) { root["atmpCompensated"] = ag->round2(ag->pms5003t_2.temperatureCompensated(this->temp_2)); root["rhumCompensated"] = (int)ag->pms5003t_2.humidityCompensated(this->hum_2); } } } else { if (fwMode == FW_MODE_O_1P) { if (config->hasSensorPMS1) { root["pm01"] = this->pm01_1; root["pm02"] = this->pm25_1; root["pm10"] = this->pm10_1; root["pm003Count"] = this->pm03PCount_1; root["atmp"] = ag->round2(this->temp_1); root["rhum"] = this->hum_1; if (localServer) { root["atmpCompensated"] = ag->round2(ag->pms5003t_1.temperatureCompensated(this->temp_1)); root["rhumCompensated"] = (int)ag->pms5003t_1.humidityCompensated(this->hum_1); } } else if (config->hasSensorPMS2) { root["pm01"] = this->pm01_2; root["pm02"] = this->pm25_2; root["pm10"] = this->pm10_2; root["pm003Count"] = this->pm03PCount_2; root["atmp"] = ag->round2(this->temp_2); root["rhum"] = this->hum_2; if (localServer) { root["atmpCompensated"] = ag->round2(ag->pms5003t_1.temperatureCompensated(this->temp_2)); root["rhumCompensated"] = (int)ag->pms5003t_1.humidityCompensated(this->hum_2); } } } else { if (config->hasSensorPMS1) { root["channels"]["1"]["pm01"] = this->pm01_1; root["channels"]["1"]["pm02"] = this->pm25_1; root["channels"]["1"]["pm10"] = this->pm10_1; root["channels"]["1"]["pm003Count"] = this->pm03PCount_1; root["channels"]["1"]["atmp"] = ag->round2(this->temp_1); root["channels"]["1"]["rhum"] = this->hum_1; if (localServer) { root["channels"]["1"]["atmpCompensated"] = ag->round2(ag->pms5003t_1.temperatureCompensated(this->temp_1)); root["channels"]["1"]["rhumCompensated"] = (int)ag->pms5003t_1.humidityCompensated(this->hum_1); } } if (config->hasSensorPMS2) { root["channels"]["2"]["pm01"] = this->pm01_2; root["channels"]["2"]["pm02"] = this->pm25_2; root["channels"]["2"]["pm10"] = this->pm10_2; root["channels"]["2"]["pm003Count"] = this->pm03PCount_2; root["channels"]["2"]["atmp"] = ag->round2(this->temp_2); root["channels"]["2"]["rhum"] = this->hum_2; if (localServer) { root["channels"]["2"]["atmpCompensated"] = ag->round2(ag->pms5003t_1.temperatureCompensated(this->temp_2)); root["channels"]["2"]["rhumCompensated"] = (int)ag->pms5003t_1.humidityCompensated(this->hum_2); } } } } } if (config->hasSensorSGP) { if (this->TVOC >= 0) { root["tvocIndex"] = this->TVOC; } if (this->TVOCRaw >= 0) { root["tvocRaw"] = this->TVOCRaw; } if (this->NOx >= 0) { root["noxIndex"] = this->NOx; } if (this->NOxRaw >= 0) { root["noxRaw"] = this->NOxRaw; } } root["boot"] = bootCount; root["bootCount"] = bootCount; if (localServer) { if (ag->isOne()) { root["ledMode"] = config->getLedBarModeName(); } root["firmware"] = ag->getVersion(); root["model"] = AgFirmwareModeName(fwMode); } return JSON.stringify(root); }