Change name help function.
(* Test whether the keyword XXXX may be used as an identifier for:
* STEP, ACTION and TRANSITION name/identifier
*
* The XXXX names in the following code are merely a placeholder.
* They will be replaced by several identifiers before actual testing
* of the compiler.
*)
(* The identifiers that will replace the XXXX
* must be placed on a line starting with #
* All identifiers preceded by # are ignored!
* The identifier list must be placed inside an IEC 61131-3 comment.
*)
(*
#IL_operators ANDN CAL CALC CALCN CD CLK CU IN JMP JMPC JMPCN
#IL_operators LD LDN ORN PT PV R R1 RET RETC RETCN S S1 ST STN XORN
#SFC_qualifiers D DS L N P #R #S SD SL
NOTE: R and S are identical to IL operators!!
#Task_initialisers PRIORITY SINGLE INTERVAL
*)
(* Use of XXXX as a STEP identifier *)
PROGRAM bar01
VAR
IX1 AT %IX1 : BOOL;
IX2 AT %IX2 : BOOL;
IX3 AT %IX3 : BOOL;
END_VAR
INITIAL_STEP XXXX:
END_STEP
STEP STEP1:
END_STEP
STEP STEP2:
END_STEP
TRANSITION FROM XXXX TO STEP1
:= IX1 = FALSE;
END_TRANSITION
TRANSITION FROM STEP1 TO XXXX
:= IX1 = TRUE;
END_TRANSITION
TRANSITION (PRIORITY := 4) FROM XXXX TO STEP2
:= IX2 = TRUE;
END_TRANSITION
TRANSITION (PRIORITY := 4) FROM STEP2 TO XXXX
:= IX2 = TRUE;
END_TRANSITION
TRANSITION transition_id1 FROM STEP2 TO XXXX
:= IX1 = FALSE AND IX3 = FALSE;
END_TRANSITION
TRANSITION transition_id2 FROM XXXX TO STEP2
:= IX1 = FALSE AND IX3 = FALSE;
END_TRANSITION
TRANSITION transition_id3 (PRIORITY := 3) FROM XXXX TO STEP2
:= IX3 = TRUE;
END_TRANSITION
TRANSITION transition_id4 (PRIORITY := 5) FROM STEP2 TO XXXX
:= IX3 = TRUE;
END_TRANSITION
TRANSITION FROM (XXXX, STEP2) TO STEP1
:= IX1 = FALSE;
END_TRANSITION
TRANSITION FROM (STEP2, XXXX) TO STEP1
:= IX2 = FALSE;
END_TRANSITION
TRANSITION FROM STEP1 TO (XXXX, STEP2)
:= IX1 = TRUE;
END_TRANSITION
TRANSITION FROM STEP1 TO (STEP2, XXXX)
:= IX2 = TRUE;
END_TRANSITION
END_PROGRAM
(* Use of XXXX as a TRANSITION identifier *)
PROGRAM bar02
VAR
IX1 AT %IX1 : BOOL;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
END_STEP
TRANSITION XXXX FROM GO TO STEP1
:= IX1 = FALSE AND IX3 = FALSE;
END_TRANSITION
END_PROGRAM
PROGRAM bar03
VAR
IX1 AT %IX1 : BOOL;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
END_STEP
TRANSITION XXXX (PRIORITY := 3) FROM GO TO STEP1
:= IX3 = TRUE;
END_TRANSITION
END_PROGRAM
(* Use of XXXX as an ACTION identifier *)
PROGRAM bar20
VAR
QX1 : BOOL := 1;
QX2 : BOOL := 0;
QX3 : BOOL;
IX1 : BOOL;
IX2 : BOOL;
IX3 : BOOL;
delta_1 : TIME := T#1s;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
XXXX ();
END_STEP
TRANSITION FROM GO TO STEP1
:= IX1 = FALSE;
END_TRANSITION
ACTION XXXX:
QX1 := TRUE;
QX2 := TRUE;
END_ACTION
END_PROGRAM
PROGRAM bar21
VAR
QX1 : BOOL := 1;
QX2 : BOOL := 0;
QX3 : BOOL;
IX1 : BOOL;
IX2 : BOOL;
IX3 : BOOL;
delta_1 : TIME := T#1s;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
XXXX(N);
END_STEP
TRANSITION FROM GO TO STEP1
:= IX1 = FALSE;
END_TRANSITION
ACTION XXXX:
QX1 := TRUE;
QX2 := TRUE;
END_ACTION
END_PROGRAM
PROGRAM bar22
VAR
QX1 : BOOL := 1;
QX2 : BOOL := 0;
QX3 : BOOL;
IX1 : BOOL;
IX2 : BOOL;
IX3 : BOOL;
delta_1 : TIME := T#1s;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
XXXX(P);
END_STEP
TRANSITION FROM GO TO STEP1
:= IX1 = FALSE;
END_TRANSITION
ACTION XXXX:
QX1 := TRUE;
QX2 := TRUE;
END_ACTION
END_PROGRAM
PROGRAM bar23
VAR
QX1 : BOOL := 1;
QX2 : BOOL := 0;
QX3 : BOOL;
IX1 : BOOL;
IX2 : BOOL;
IX3 : BOOL;
delta_1 : TIME := T#1s;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
XXXX(R);
END_STEP
TRANSITION FROM GO TO STEP1
:= IX1 = FALSE;
END_TRANSITION
ACTION XXXX:
QX1 := TRUE;
QX2 := TRUE;
END_ACTION
END_PROGRAM
PROGRAM bar24
VAR
QX1 : BOOL := 1;
QX2 : BOOL := 0;
QX3 : BOOL;
IX1 : BOOL;
IX2 : BOOL;
IX3 : BOOL;
delta_1 : TIME := T#1s;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
XXXX(S);
END_STEP
TRANSITION FROM GO TO STEP1
:= IX1 = FALSE;
END_TRANSITION
ACTION XXXX:
QX1 := TRUE;
QX2 := TRUE;
END_ACTION
END_PROGRAM
PROGRAM bar25
VAR
QX1 : BOOL := 1;
QX2 : BOOL := 0;
QX3 : BOOL;
IX1 : BOOL;
IX2 : BOOL;
IX3 : BOOL;
delta_1 : TIME := T#1s;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
XXXX(D, T#1s);
END_STEP
TRANSITION FROM GO TO STEP1
:= IX1 = FALSE;
END_TRANSITION
ACTION XXXX:
QX1 := TRUE;
QX2 := TRUE;
END_ACTION
END_PROGRAM
PROGRAM bar26
VAR
QX1 : BOOL := 1;
QX2 : BOOL := 0;
QX3 : BOOL;
IX1 : BOOL;
IX2 : BOOL;
IX3 : BOOL;
delta_1 : TIME := T#1s;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
XXXX(L, T#1s);
END_STEP
TRANSITION FROM GO TO STEP1
:= IX1 = FALSE;
END_TRANSITION
ACTION XXXX:
QX1 := TRUE;
QX2 := TRUE;
END_ACTION
END_PROGRAM
PROGRAM bar27
VAR
QX1 : BOOL := 1;
QX2 : BOOL := 0;
QX3 : BOOL;
IX1 : BOOL;
IX2 : BOOL;
IX3 : BOOL;
delta_1 : TIME := T#1s;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
XXXX(DS, T#1s);
END_STEP
TRANSITION FROM GO TO STEP1
:= IX1 = FALSE;
END_TRANSITION
ACTION XXXX:
QX1 := TRUE;
QX2 := TRUE;
END_ACTION
END_PROGRAM
PROGRAM bar28
VAR
QX1 : BOOL := 1;
QX2 : BOOL := 0;
QX3 : BOOL;
IX1 : BOOL;
IX2 : BOOL;
IX3 : BOOL;
delta_1 : TIME := T#1s;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
XXXX(SD, T#1s);
END_STEP
TRANSITION FROM GO TO STEP1
:= IX1 = FALSE;
END_TRANSITION
ACTION XXXX:
QX1 := TRUE;
QX2 := TRUE;
END_ACTION
END_PROGRAM
PROGRAM bar29
VAR
QX1 : BOOL := 1;
QX2 : BOOL := 0;
QX3 : BOOL;
IX1 : BOOL;
IX2 : BOOL;
IX3 : BOOL;
delta_1 : TIME := T#1s;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
XXXX(SL, T#1s);
END_STEP
TRANSITION FROM GO TO STEP1
:= IX1 = FALSE;
END_TRANSITION
ACTION XXXX:
QX1 := TRUE;
QX2 := TRUE;
END_ACTION
END_PROGRAM
PROGRAM bar30
VAR
QX1 : BOOL := 1;
QX2 : BOOL := 0;
QX3 : BOOL;
IX1 : BOOL;
IX2 : BOOL;
IX3 : BOOL;
delta_1 : TIME := T#1s;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
XXXX(L, delta_1);
END_STEP
TRANSITION FROM GO TO STEP1
:= IX1 = FALSE;
END_TRANSITION
ACTION XXXX:
QX1 := TRUE;
QX2 := TRUE;
END_ACTION
END_PROGRAM
PROGRAM bar31
VAR
QX1 : BOOL := 1;
QX2 : BOOL := 0;
QX3 : BOOL;
IX1 : BOOL;
IX2 : BOOL;
IX3 : BOOL;
delta_1 : TIME := T#1s;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
XXXX(L, delta_1, IX1, QX1);
END_STEP
TRANSITION FROM GO TO STEP1
:= IX1 = FALSE;
END_TRANSITION
ACTION XXXX:
QX1 := TRUE;
QX2 := TRUE;
END_ACTION
END_PROGRAM
PROGRAM bar32
VAR
QX1 : BOOL := 1;
QX2 : BOOL := 0;
QX3 : BOOL;
IX1 : BOOL;
IX2 : BOOL;
IX3 : BOOL;
delta_1 : TIME := T#1s;
END_VAR
INITIAL_STEP GO:
END_STEP
STEP STEP1:
INLINE1 ();
XXXX(L, delta_1, IX1, QX1);
INLINE2 ();
END_STEP
STEP STEP2:
XXXX(L, delta_1, IX1, QX1);
INLINE1 ();
INLINE2 ();
END_STEP
STEP STEP3:
INLINE1 ();
INLINE2 ();
XXXX(L, delta_1, IX1, QX1);
END_STEP
TRANSITION FROM GO TO STEP1
:= IX1 = FALSE;
END_TRANSITION
ACTION XXXX:
QX1 := TRUE;
QX2 := TRUE;
END_ACTION
ACTION INLINE1:
IX1 := TRUE;
END_ACTION
ACTION INLINE2:
IX1 := TRUE;
END_ACTION
END_PROGRAM
(* Checking whether the use of XXXX will confuse any other
* normal and correct IL or ST code.
*)
{#include "basic_code.test" }