/* Automation Studio Generated Header File, Format Version 1.00 */ /* do not change */ #ifndef STANDARD_H_ #define STANDARD_H_ #ifdef __cplusplus extern "C" { #endif #include #define TP_10mstyp TP_10ms_typ #define TOF_10mstyp TOF_10ms_typ #define TON_10mstyp TON_10ms_typ #define TPtyp TP_typ #define TOFtyp TOF_typ #define TONtyp TON_typ #define SEMAtyp SEMA_typ #define RStyp RS_typ #define SRtyp SR_typ #define R_TRIGtyp R_TRIG_typ #define F_TRIGtyp F_TRIG_typ #define CTUtyp CTU_typ #define CTDtyp CTD_typ #define CTUDtyp CTUD_typ #define RF_TRIGtyp RF_TRIG_typ /* Constants */ /* Datatypes */ /* Datatypes of function blocks */ typedef struct TP_10ms { /* VAR_INPUT (analogous) */ unsigned long PT; /* VAR_OUTPUT (analogous) */ unsigned long ET; /* VAR (analogous) */ unsigned long StartTime; /* VAR_INPUT (digital) */ plcbit IN; /* VAR_OUTPUT (digital) */ plcbit Q; } TP_10ms_typ; typedef struct TOF_10ms { /* VAR_INPUT (analogous) */ unsigned long PT; /* VAR_OUTPUT (analogous) */ unsigned long ET; /* VAR (analogous) */ unsigned long StartTime; /* VAR_INPUT (digital) */ plcbit IN; /* VAR_OUTPUT (digital) */ plcbit Q; /* VAR (digital) */ plcbit M; } TOF_10ms_typ; typedef struct TON_10ms { /* VAR_INPUT (analogous) */ unsigned long PT; /* VAR_OUTPUT (analogous) */ unsigned long ET; /* VAR (analogous) */ unsigned long StartTime; /* VAR_INPUT (digital) */ plcbit IN; /* VAR_OUTPUT (digital) */ plcbit Q; /* VAR (digital) */ plcbit M; } TON_10ms_typ; typedef struct TP { /* VAR_INPUT (analogous) */ plctime PT; /* VAR_OUTPUT (analogous) */ plctime ET; /* VAR (analogous) */ plctime StartTime; unsigned long Restart; /* VAR_INPUT (digital) */ plcbit IN; /* VAR_OUTPUT (digital) */ plcbit Q; } TP_typ; typedef struct TOF { /* VAR_INPUT (analogous) */ plctime PT; /* VAR_OUTPUT (analogous) */ plctime ET; /* VAR (analogous) */ plctime StartTime; unsigned long Restart; /* VAR_INPUT (digital) */ plcbit IN; /* VAR_OUTPUT (digital) */ plcbit Q; /* VAR (digital) */ plcbit M; } TOF_typ; typedef struct TON { /* VAR_INPUT (analogous) */ plctime PT; /* VAR_OUTPUT (analogous) */ plctime ET; /* VAR (analogous) */ plctime StartTime; unsigned long Restart; /* VAR_INPUT (digital) */ plcbit IN; /* VAR_OUTPUT (digital) */ plcbit Q; /* VAR (digital) */ plcbit M; } TON_typ; typedef struct SEMA { /* VAR_INPUT (digital) */ plcbit CLAIM; plcbit RELEASE; /* VAR_OUTPUT (digital) */ plcbit BUSY; /* VAR (digital) */ plcbit X; } SEMA_typ; typedef struct RS { /* VAR_INPUT (digital) */ plcbit SET; plcbit RESET1; /* VAR_OUTPUT (digital) */ plcbit Q1; } RS_typ; typedef struct SR { /* VAR_INPUT (digital) */ plcbit SET1; plcbit RESET; /* VAR_OUTPUT (digital) */ plcbit Q1; } SR_typ; typedef struct R_TRIG { /* VAR_INPUT (digital) */ plcbit CLK; /* VAR_OUTPUT (digital) */ plcbit Q; /* VAR (digital) */ plcbit M; } R_TRIG_typ; typedef struct F_TRIG { /* VAR_INPUT (digital) */ plcbit CLK; /* VAR_OUTPUT (digital) */ plcbit Q; /* VAR (digital) */ plcbit M; } F_TRIG_typ; typedef struct CTU { /* VAR_INPUT (analogous) */ unsigned short PV; /* VAR_OUTPUT (analogous) */ unsigned short CV; /* VAR_INPUT (digital) */ plcbit CU; plcbit RESET; /* VAR_OUTPUT (digital) */ plcbit Q; /* VAR (digital) */ plcbit M; } CTU_typ; typedef struct CTD { /* VAR_INPUT (analogous) */ unsigned short PV; /* VAR_OUTPUT (analogous) */ unsigned short CV; /* VAR_INPUT (digital) */ plcbit CD; plcbit LOAD; /* VAR_OUTPUT (digital) */ plcbit Q; /* VAR (digital) */ plcbit M; } CTD_typ; typedef struct CTUD { /* VAR_INPUT (analogous) */ signed short PV; /* VAR_OUTPUT (analogous) */ signed short CV; /* VAR_INPUT (digital) */ plcbit CU; plcbit CD; plcbit RESET; plcbit LOAD; /* VAR_OUTPUT (digital) */ plcbit QU; plcbit QD; /* VAR (digital) */ plcbit MU; plcbit MD; } CTUD_typ; typedef struct RF_TRIG { /* VAR_INPUT (digital) */ plcbit CLK; /* VAR_OUTPUT (digital) */ plcbit Q; /* VAR (digital) */ plcbit M; } RF_TRIG_typ; /* Prototyping of functions and function blocks */ void TP_10ms(TP_10ms_typ* inst); void TOF_10ms(TOF_10ms_typ* inst); void TON_10ms(TON_10ms_typ* inst); void TP(TP_typ* inst); void TOF(TOF_typ* inst); void TON(TON_typ* inst); void SEMA(SEMA_typ* inst); void RS(RS_typ* inst); void SR(SR_typ* inst); void R_TRIG(R_TRIG_typ* inst); void F_TRIG(F_TRIG_typ* inst); void CTU(CTU_typ* inst); void CTD(CTD_typ* inst); void CTUD(CTUD_typ* inst); void RF_TRIG(RF_TRIG_typ* inst); #ifdef __cplusplus }; #endif #endif /* STANDARD_H_ */