determine const value of hex, octal and bin literals correctly.
FUNCTION_BLOCK STACK_INT
VAR_INPUT PUSH, POP: BOOL R_EDGE; (* Basic stack operations *)
R1 : BOOL ; (* Over-riding reset *)
IN : INT ; (* Input to be pushed *)
N : INT ; (* Maximum depth after reset *)
END_VAR
VAR_OUTPUT EMPTY : BOOL := 1 ; (* Stack empty *)
OFLO : BOOL := 0 ; (* Stack overflow *)
OUT : INT := 0 ; (* Top of stack data *)
END_VAR
VAR STK : ARRAY[0..127] OF INT; (* Internal stack *)
NI : INT :=128 ; (* Storage for N upon reset *)
PTR : INT := -1 ; (* Stack pointer *)
END_VAR
(* Function Block body *)
LD R1 (* Dispatch on operations *)
JMPC RESET
LD POP
ANDN EMPTY (* Don't pop empty stack *)
JMPC POP_STK
LD PUSH
ANDN OFLO (* Don't push overflowed stack *)
JMPC PUSH_STK
RET (* Return if no operations active *)
RESET: LD 0 (* Stack reset operations *)
ST OFLO
LD 1
ST EMPTY
LD -1
ST PTR
CAL LIMIT(MN:=1,IN:=N,MX:=128)
ST NI
JMP ZRO_OUT
POP_STK: LD 0
ST OFLO (* Popped stack is not overflowing *)
LD PTR
SUB 1
ST PTR
LT 0 (* Empty when PTR < 0 *)
ST EMPTY
JMPC ZRO_OUT
LD STK[PTR]
JMP SET_OUT
PUSH_STK: LD 0
ST EMPTY (* Pushed stack is not empty *)
LD PTR
ADD 1
ST PTR
EQ NI (* Overflow when PTR = NI *)
ST OFLO
JMPC ZRO_OUT
LD IN
ST STK[PTR] (* Push IN onto STK *)
JMP SET_OUT
ZRO_OUT: LD 0 (* OUT=0 for EMPTY or OFLO *)
SET_OUT: ST OUT
END_FUNCTION_BLOCK