#ifndef TIC_DEF #define TIC_DEF #include #define TIC #define STX 0x02 // Début de la trame : 0x02 () #define ETX 0x03 // Fin de la trame : 0x03 () End Of Text #define EOT 0x04 //End Of Transmission alias fin de transmission #define LF 0x0A // Code ASCII pour , debut de groupe d'information #define CR 0x0D // Fin de groupe d'information #define HT 0x09 //separateur dans groupe #define SP 0x20 //separateur dans groupe #define NONUTILE "NONUTILE" #define MAX_CHAR_ETIQUETTE 9 #define NB_ETIQUETTE 45 struct GroupDetail { String name; String value; String horodate; }; struct RegistreStatusBits { uint32_t contactsec : 1; //bit 0 uint32_t organeCoupure : 3; //bit 1 - 3 uint32_t cache : 1; //bit 4 uint32_t : 1; //bit 5 uint32_t surtension : 1; //bit 6 uint32_t depassementPuissance : 1; //bit 7----- uint32_t consoProd : 1; //bit 8 uint32_t senseActiveEnergy : 1; //bit 9 uint32_t tarifIndexConso : 4; //bit 10 -13 uint32_t tarifIndexProd : 2; //bit 14 - 15 ----- uint32_t horlogeState : 1; //bit 16 uint32_t ticState : 1; //17 uint32_t : 1; //18 uint32_t comEuridis : 2; //19-20 uint32_t cplState : 2; //21-22 uint32_t cplSynchro : 1; //23 uint32_t tempo : 2; //24-25 uint32_t tempoNextDay : 2; //26-27 uint32_t preavisPM : 2; //28-29 uint32_t PM : 2; //30-31 }; struct RelaisStatusBits { uint8_t relaisSec : 1; //bit 1 uint8_t relais1 : 1; //bit 2 uint8_t relais2 : 1; //bit 3 uint8_t relais3 : 1; //bit 4 uint8_t relais4 : 1; //bit 5 uint8_t relais5 : 1; //bit 6----- uint8_t relais6 : 1; //bit 7----- uint8_t relais7 : 1; //bit 8----- }; struct ActionsCalendrierBits { uint8_t index : 4; //bit 3 - 0----- uint8_t relais1 : 1; //bit 4----- uint8_t relais2 : 1; //bit 8----- uint8_t relais3 : 1; //bit 8----- uint8_t relais4 : 1; //bit 8----- uint8_t relais5 : 1; //bit 7----- uint8_t relais6 : 1; //bit 6----- uint8_t relais7 : 1; //bit 10 uint8_t : 3; //bit 11-13 uint16_t relaisSec : 2; //Contact Sec bit 15-14 }; union ActionCalendrier { uint16_t ui; ActionsCalendrierBits bits; }; struct Action { char startTime[4]; ActionCalendrier action; }; union RelaisStatus { uint8_t ui; RelaisStatusBits bits; }; union RegistreStatus { uint32_t uli; RegistreStatusBits bits; }; const static String SelectedEtiquette[NB_ETIQUETTE] = { "ADSC", "DATE", "NGTF", "LTARF", "EAST", "EASF01", "EASF02", "EASF03", "EASF04", "EASD01", "EASD02", "EASD03", "EASD04", "EAIT", "ERQ1", "ERQ2", "ERQ3","ERQ4", "IRMS1", "IRMS2", "IRMS3", "URMS1", "URMS2", "URMS3", "PCOUP", "SINSTS", "SINSTS1", "SINSTS2", "SINSTS3", "SINSTI", "STGE", "DPM1", "FPM1", "DPM2", "FPM2", "DPM3", "FPM3", "RELAIS", "NTARF", "NJOURF", "NJOURF+1", "PJOURF+1", "MSG1", "MSG2", "PPOINTE" }; extern struct GroupDetail TicValues[NB_ETIQUETTE]; //records the values of the identified group //Constantes pour definition des statuts const static String kContactStatus[2] = { "closed", "open" }; //relais et contacteurs const static String kCoupure[7] = { "closed", "open_overpower", "open_overvoltage", "open_shedding", "open_euridis", "open_overheat-with-overcurrent", "open_overheat-without-overcurrent" }; const static String kOverVoltage[2] = { "no_overvoltage", "overvoltage" }; const static String kOverPower[2] = { "no_overpower", "overpower" }; const static String kProducer[2] = { "consummer", "producer" }; const static String kActivePower[2] = { "positive", "negative" }; const static String kHour[2] = { "ok", "degraded" }; const static String kTicMode[2] = { "historique", "standard" }; const static String kEuridis[4] = { "deactivated", "activated_without_security", "!!!", "activated_with_security" }; const static String kCpl[4] = { "new_unlock", "new_lock", "!!!", "registered" }; const static String kCplSynchro[2] = { "not_synchro", "synchro" }; const static String kTempoColor[4] = { "no", "blue", "white", "red" }; const static String kPointeMobile[4] = { "no", "PM1", "PM2", "PM3" }; void readTicPort(); String ticValuesAsJson(); String ticBasicValuesAsJson(); #endif