lib/counter.txt
author Andrey Skvortsov <andrej.skvortzov@gmail.com>
Sun, 16 Apr 2017 09:00:09 +0100
changeset 1050 bdc21971f95d
parent 290 013eab46aebb
permissions -rwxr-xr-x
Add comment stating how to enable debug option in flex.
(* Following taken directly from the IEC 61131.3 draft standard *)

(*
 * An IEC 61131-3 IL and ST compiler.
 *
 * Based on the
 * FINAL DRAFT - IEC 61131-3, 2nd Ed. (2001-12-10)
 *
 *)


(*
 * This is part of the library conatining the functions
 * and function blocks defined in the standard.
 *
 * Counter function blocks
 * -----------------------
 *)



(******************)
(*                *)
(*    C  T  U     *)
(*                *)
(******************)


FUNCTION_BLOCK CTU
  VAR_INPUT
    CU : BOOL;
    R : BOOL;
    PV : INT;
  END_VAR
  VAR_OUTPUT
    Q : BOOL;
    CV : INT;
  END_VAR
  VAR
    CU_T: R_TRIG;
  END_VAR

  CU_T(CU);
  IF R THEN CV := 0 ;
  ELSIF CU_T.Q AND (CV < PV)
       THEN CV := CV+1;
  END_IF ;
  Q := (CV >= PV) ;
END_FUNCTION_BLOCK


FUNCTION_BLOCK CTU_DINT
  VAR_INPUT
    CU : BOOL;
    R : BOOL;
    PV : DINT;
  END_VAR
  VAR_OUTPUT
    Q : BOOL;
    CV : DINT;
  END_VAR
  VAR
    CU_T: R_TRIG;
  END_VAR

  CU_T(CU);
  IF R THEN CV := 0 ;
  ELSIF CU_T.Q AND (CV < PV)
       THEN CV := CV+1;
  END_IF ;
  Q := (CV >= PV) ;
END_FUNCTION_BLOCK


FUNCTION_BLOCK CTU_LINT
  VAR_INPUT
    CU : BOOL;
    R : BOOL;
    PV : LINT;
  END_VAR
  VAR_OUTPUT
    Q : BOOL;
    CV : LINT;
  END_VAR
  VAR
    CU_T: R_TRIG;
  END_VAR

  CU_T(CU);
  IF R THEN CV := 0 ;
  ELSIF CU_T.Q AND (CV < PV)
       THEN CV := CV+1;
  END_IF ;
  Q := (CV >= PV) ;
END_FUNCTION_BLOCK


FUNCTION_BLOCK CTU_UDINT
  VAR_INPUT
    CU : BOOL;
    R : BOOL;
    PV : UDINT;
  END_VAR
  VAR_OUTPUT
    Q : BOOL;
    CV : UDINT;
  END_VAR
  VAR
    CU_T: R_TRIG;
  END_VAR

  CU_T(CU);
  IF R THEN CV := 0 ;
  ELSIF CU_T.Q AND (CV < PV)
       THEN CV := CV+1;
  END_IF ;
  Q := (CV >= PV) ;
END_FUNCTION_BLOCK


FUNCTION_BLOCK CTU_ULINT
  VAR_INPUT
    CU : BOOL;
    R : BOOL;
    PV : ULINT;
  END_VAR
  VAR_OUTPUT
    Q : BOOL;
    CV : ULINT;
  END_VAR
  VAR
    CU_T: R_TRIG;
  END_VAR

  CU_T(CU);
  IF R THEN CV := 0 ;
  ELSIF CU_T.Q AND (CV < PV)
       THEN CV := CV+1;
  END_IF ;
  Q := (CV >= PV) ;
END_FUNCTION_BLOCK







(******************)
(*                *)
(*    C  T  D     *)
(*                *)
(******************)


FUNCTION_BLOCK CTD
  VAR_INPUT
    CD : BOOL;
    LD : BOOL;
    PV : INT;
  END_VAR
  VAR_OUTPUT
    Q : BOOL;
    CV : INT;
  END_VAR
  VAR
    CD_T: R_TRIG;
  END_VAR

  CD_T(CD);
  IF LD THEN CV := PV ;
  ELSIF CD_T.Q AND (CV > 0)
      THEN CV := CV-1;
  END_IF ;
  Q := (CV <= 0) ;
END_FUNCTION_BLOCK


FUNCTION_BLOCK CTD_DINT
  VAR_INPUT
    CD : BOOL;
    LD : BOOL;
    PV : DINT;
  END_VAR
  VAR_OUTPUT
    Q : BOOL;
    CV : DINT;
  END_VAR
  VAR
    CD_T: R_TRIG;
  END_VAR

  CD_T(CD);
  IF LD THEN CV := PV ;
  ELSIF CD_T.Q AND (CV > 0)
      THEN CV := CV-1;
  END_IF ;
  Q := (CV <= 0) ;
END_FUNCTION_BLOCK


FUNCTION_BLOCK CTD_LINT
  VAR_INPUT
    CD : BOOL;
    LD : BOOL;
    PV : LINT;
  END_VAR
  VAR_OUTPUT
    Q : BOOL;
    CV : LINT;
  END_VAR
  VAR
    CD_T: R_TRIG;
  END_VAR

  CD_T(CD);
  IF LD THEN CV := PV ;
  ELSIF CD_T.Q AND (CV > 0)
      THEN CV := CV-1;
  END_IF ;
  Q := (CV <= 0) ;
END_FUNCTION_BLOCK


FUNCTION_BLOCK CTD_UDINT
  VAR_INPUT
    CD : BOOL;
    LD : BOOL;
    PV : UDINT;
  END_VAR
  VAR_OUTPUT
    Q : BOOL;
    CV : UDINT;
  END_VAR
  VAR
    CD_T: R_TRIG;
  END_VAR

  CD_T(CD);
  IF LD THEN CV := PV ;
  ELSIF CD_T.Q AND (CV > 0)
      THEN CV := CV-1;
  END_IF ;
  Q := (CV <= 0) ;
END_FUNCTION_BLOCK


FUNCTION_BLOCK CTD_ULINT
  VAR_INPUT
    CD : BOOL;
    LD : BOOL;
    PV : ULINT;
  END_VAR
  VAR_OUTPUT
    Q : BOOL;
    CV : ULINT;
  END_VAR
  VAR
    CD_T: R_TRIG;
  END_VAR

  CD_T(CD);
  IF LD THEN CV := PV ;
  ELSIF CD_T.Q AND (CV > 0)
      THEN CV := CV-1;
  END_IF ;
  Q := (CV <= 0) ;
END_FUNCTION_BLOCK


(********************)
(*                  *)
(*    C  T  U D     *)
(*                  *)
(********************)


FUNCTION_BLOCK CTUD
  VAR_INPUT
    CU : BOOL;
    CD : BOOL;
    R  : BOOL;
    LD : BOOL;
    PV : INT;
  END_VAR
  VAR_OUTPUT
    QU : BOOL;
    QD : BOOL;
    CV : INT;
  END_VAR
  VAR
    CD_T: R_TRIG;
    CU_T: R_TRIG;
  END_VAR

  CD_T(CD);
  CU_T(CU);

  IF R THEN CV := 0 ;
  ELSIF LD THEN CV := PV ;
  ELSE
    IF NOT (CU_T.Q AND CD_T.Q) THEN
      IF CU_T.Q AND (CV < PV)
      THEN CV := CV+1;
      ELSIF CD_T.Q AND (CV > 0)
      THEN CV := CV-1;
      END_IF;
    END_IF;
  END_IF ;
  QU := (CV >= PV) ;
  QD := (CV <= 0) ;
END_FUNCTION_BLOCK


FUNCTION_BLOCK CTUD_DINT
  VAR_INPUT
    CU : BOOL;
    CD : BOOL;
    R  : BOOL;
    LD : BOOL;
    PV : DINT;
  END_VAR
  VAR_OUTPUT
    QU : BOOL;
    QD : BOOL;
    CV : DINT;
  END_VAR
  VAR
    CD_T: R_TRIG;
    CU_T: R_TRIG;
  END_VAR

  CD_T(CD);
  CU_T(CU);

  IF R THEN CV := 0 ;
  ELSIF LD THEN CV := PV ;
  ELSE
    IF NOT (CU_T.Q AND CD_T.Q) THEN
      IF CU_T.Q AND (CV < PV)
      THEN CV := CV+1;
      ELSIF CD_T.Q AND (CV > 0)
      THEN CV := CV-1;
      END_IF;
    END_IF;
  END_IF ;
  QU := (CV >= PV) ;
  QD := (CV <= 0) ;
END_FUNCTION_BLOCK


FUNCTION_BLOCK CTUD_LINT
  VAR_INPUT
    CU : BOOL;
    CD : BOOL;
    R  : BOOL;
    LD : BOOL;
    PV : LINT;
  END_VAR
  VAR_OUTPUT
    QU : BOOL;
    QD : BOOL;
    CV : LINT;
  END_VAR
  VAR
    CD_T: R_TRIG;
    CU_T: R_TRIG;
  END_VAR

  CD_T(CD);
  CU_T(CU);

  IF R THEN CV := 0 ;
  ELSIF LD THEN CV := PV ;
  ELSE
    IF NOT (CU_T.Q AND CD_T.Q) THEN
      IF CU_T.Q AND (CV < PV)
      THEN CV := CV+1;
      ELSIF CD_T.Q AND (CV > 0)
      THEN CV := CV-1;
      END_IF;
    END_IF;
  END_IF ;
  QU := (CV >= PV) ;
  QD := (CV <= 0) ;
END_FUNCTION_BLOCK


FUNCTION_BLOCK CTUD_UDINT
  VAR_INPUT
    CU : BOOL;
    CD : BOOL;
    R  : BOOL;
    LD : BOOL;
    PV : UDINT;
  END_VAR
  VAR_OUTPUT
    QU : BOOL;
    QD : BOOL;
    CV : UDINT;
  END_VAR
  VAR
    CD_T: R_TRIG;
    CU_T: R_TRIG;
  END_VAR

  CD_T(CD);
  CU_T(CU);

  IF R THEN CV := 0 ;
  ELSIF LD THEN CV := PV ;
  ELSE
    IF NOT (CU_T.Q AND CD_T.Q) THEN
      IF CU_T.Q AND (CV < PV)
      THEN CV := CV+1;
      ELSIF CD_T.Q AND (CV > 0)
      THEN CV := CV-1;
      END_IF;
    END_IF;
  END_IF ;
  QU := (CV >= PV) ;
  QD := (CV <= 0) ;
END_FUNCTION_BLOCK


FUNCTION_BLOCK CTUD_ULINT
  VAR_INPUT
    CU : BOOL;
    CD : BOOL;
    R  : BOOL;
    LD : BOOL;
    PV : ULINT;
  END_VAR
  VAR_OUTPUT
    QU : BOOL;
    QD : BOOL;
    CV : ULINT;
  END_VAR
  VAR
    CD_T: R_TRIG;
    CU_T: R_TRIG;
  END_VAR

  CD_T(CD);
  CU_T(CU);

  IF R THEN CV := 0 ;
  ELSIF LD THEN CV := PV ;
  ELSE
    IF NOT (CU_T.Q AND CD_T.Q) THEN
      IF CU_T.Q AND (CV < PV)
      THEN CV := CV+1;
      ELSIF CD_T.Q AND (CV > 0)
      THEN CV := CV-1;
      END_IF;
    END_IF;
  END_IF ;
  QU := (CV >= PV) ;
  QD := (CV <= 0) ;
END_FUNCTION_BLOCK