X86 X038+X039-A "Fre PodWW Wse PodWR Fre PodWW Rfi PodRR+Fre PodWR Fre PodWW Wse PodWR Fre PodWW Rfi PodRR" {} P0 | P1 | P2 | P3 ; MOV [a],$1 | MOV [c],$1 | MOV [f],$1 | MOV %atom,$2 ; MOV [x],$1 | MOV %atom,$2 | MOV %atom,$1 | XCHG [e],%atom ; MOV [d],$1 | XCHG [x],%atom | XCHG [y],%atom | MOV EAX,[f] ; MOV [e],$1 | MOV EBX,[d] | MOV [b],$1 | ; | MOV EAX,[y] | MOV [z],$1 | ; | | MOV EAX,[z] | ; | | MOV ECX,[b] | ; | | MOV EDX,[c] | ; | | MOV EBX,[a] | ; forall (2:EAX=1 /\ 2:ECX=1 /\ (1:EAX=1 /\ (1:EBX=1 /\ (2:EBX=1 /\ (2:EDX=1 /\ (3:EAX=1 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1)) \/ 3:EAX=0 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1))) \/ 2:EDX=0 /\ (3:EAX=1 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1)) \/ 3:EAX=0 /\ (e=2 /\ x=2 \/ e=1 /\ (x=2 \/ x=1)))) \/ 2:EBX=0 /\ (2:EDX=1 /\ (3:EAX=1 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1)) \/ 3:EAX=0 /\ e=1 /\ (x=2 \/ x=1)) \/ 2:EDX=0 /\ (3:EAX=1 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1)) \/ 3:EAX=0 /\ e=1 /\ (x=2 \/ x=1)))) \/ 1:EBX=0 /\ (2:EBX=1 /\ (2:EDX=1 /\ (3:EAX=1 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1)) \/ 3:EAX=0 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1))) \/ 2:EDX=0 /\ (3:EAX=1 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1)) \/ 3:EAX=0 /\ e=1 /\ (x=2 \/ x=1))) \/ 2:EBX=0 /\ (2:EDX=1 /\ (3:EAX=1 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1)) \/ 3:EAX=0 /\ e=1 /\ (x=2 \/ x=1)) \/ 2:EDX=0 /\ (3:EAX=1 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1)) \/ 3:EAX=0 /\ e=1 /\ (x=2 \/ x=1))))) \/ 1:EAX=0 /\ 2:EDX=1 /\ (1:EBX=1 /\ 2:EBX=1 /\ (3:EAX=1 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1)) \/ 3:EAX=0 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1))) \/ 1:EBX=0 /\ (2:EBX=1 /\ (3:EAX=1 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1)) \/ 3:EAX=0 /\ (e=2 /\ (x=2 \/ x=1) \/ e=1 /\ (x=2 \/ x=1))) \/ 2:EBX=0 /\ x=1 /\ (3:EAX=1 /\ (e=2 \/ e=1) \/ 3:EAX=0 /\ e=1)))))