Test WRW+2W+fencembs

C WRW+2W+fencembs
Hash=0c70f33d9d6f990ffe8c4ec12f8f2118
Cycle=Rfe FenceMbdRW Wse FenceMbdWW Wse
Relax=
Safe=Rfe Wse FenceMbdWW FenceMbdRW
Generator=diy7 (version 7.46+1)
Prefetch=1:x=F,1:y=W,2:y=F,2:x=W
Com=Rf Ws Ws
Orig=Rfe FenceMbdRW Wse FenceMbdWW Wse

{}


P0(int* x) {
  WRITE_ONCE(*x,2);
}

P1(int* x,int* y) {
  int r0 = READ_ONCE(*x);
  smp_mb();
  WRITE_ONCE(*y,1);
}

P2(int* x,int* y) {
  WRITE_ONCE(*y,2);
  smp_mb();
  WRITE_ONCE(*x,1);
}

Observed
    y=2; x=2; 1:r0=2;

C11 equivalent:

C WRW+2W+fencembs
Hash=0c70f33d9d6f990ffe8c4ec12f8f2118
Cycle=Rfe FenceMbdRW Wse FenceMbdWW Wse
Relax=
Safe=Rfe Wse FenceMbdWW FenceMbdRW
Generator=diy7 (version 7.46+1)
Prefetch=1:x=F,1:y=W,2:y=F,2:x=W
Com=Rf Ws Ws
Orig=Rfe FenceMbdRW Wse FenceMbdWW Wse

{}


P0(atomic_int* x) {
  atomic_store_explicit(x,2,memory_order_relaxed);
}

P1(atomic_int* x,atomic_int* y) {
  int r0 = atomic_load_explicit(x,memory_order_relaxed);
  atomic_thread_fence(memory_order_seq_cst);
  atomic_store_explicit(y,1,memory_order_relaxed);
}

P2(atomic_int* x,atomic_int* y) {
  atomic_store_explicit(y,2,memory_order_relaxed);
  atomic_thread_fence(memory_order_seq_cst);
  atomic_store_explicit(x,1,memory_order_relaxed);
}

exists (x=2 /\ y=2 /\ 1:r0=2)