else
{
/* When we created the PHI nodes, we did not know what mode
- the register should be. Now that we've found an original,
- we can fill that in. */
+ the register should be. Now that we've found an original,
+ we can fill that in. */
if (GET_MODE (SET_DEST (phi)) == VOIDmode)
PUT_MODE (SET_DEST (phi), GET_MODE (reg));
else if (GET_MODE (SET_DEST (phi)) != GET_MODE (reg))
- abort();
+ abort ();
*phi_alternative (phi, bb) = reg;
}
/* Part one of the topological sort. This is a forward (downward) search
through the graph collecting a stack of nodes to process. Assuming no
cycles, the nodes at top of the stack when we are finished will have
- no other dependancies. */
+ no other dependencies. */
static int *
ephi_forward (t, visited, succ, tstack)
if (n_nodes == 0)
return;
- /* Build the auxilliary graph R(B).
+ /* Build the auxiliary graph R(B).
The nodes of the graph are the members of the register partition
present in Phi(B). There is an edge from FIND(T0)->FIND(T1) for
{
if (insn == BLOCK_END (bb))
BLOCK_END (bb) = PREV_INSN (insn);
- insn = delete_related_insns (insn);
+ insn = delete_insn (insn);
}
/* Since all the phi nodes come at the beginning of the
block, if we find an ordinary insn, we can stop looking