{
rtx *pnote;
- /* Clean up invalid ASMs so that they don't confuse later passes.
- See PR 21299. */
- if (asm_noperands (PATTERN (insn)) >= 0)
- {
- extract_insn (insn);
- if (!constrain_operands (1))
- {
- error_for_asm (insn,
- "%<asm%> operand has impossible constraints");
- delete_insn (insn);
- continue;
- }
- }
-
if (CALL_P (insn))
replace_pseudos_in (& CALL_INSN_FUNCTION_USAGE (insn),
VOIDmode, CALL_INSN_FUNCTION_USAGE (insn));
add_auto_inc_notes (insn, PATTERN (insn));
#endif
- /* And simplify (subreg (reg)) if it appears as an operand. */
+ /* Simplify (subreg (reg)) if it appears as an operand. */
cleanup_subreg_operands (insn);
+
+ /* Clean up invalid ASMs so that they don't confuse later passes.
+ See PR 21299. */
+ if (asm_noperands (PATTERN (insn)) >= 0)
+ {
+ extract_insn (insn);
+ if (!constrain_operands (1))
+ {
+ error_for_asm (insn,
+ "%<asm%> operand has impossible constraints");
+ delete_insn (insn);
+ continue;
+ }
+ }
}
/* If we are doing stack checking, give a warning if this function's
/* Get the operand values and constraints out of the insn. */
decode_asm_operands (pat, recog_data.operand, recog_data.operand_loc,
- constraints, operand_mode);
+ constraints, operand_mode, NULL);
/* For every operand, see what registers are allowed. */
for (i = 0; i < noperands; i++)
case POST_INC:
case PRE_DEC:
case POST_DEC:
+ /* We do not support elimination of a register that is modified.
+ elimination_effects has already make sure that this does not
+ happen. */
+ return x;
+
+ case PRE_MODIFY:
+ case POST_MODIFY:
+ /* We do not support elimination of a register that is modified.
+ elimination_effects has already make sure that this does not
+ happen. The only remaining case we need to consider here is
+ that the increment value may be an eliminable register. */
+ if (GET_CODE (XEXP (x, 1)) == PLUS
+ && XEXP (XEXP (x, 1), 0) == XEXP (x, 0))
+ {
+ rtx new = eliminate_regs_1 (XEXP (XEXP (x, 1), 1), mem_mode,
+ insn, true);
+
+ if (new != XEXP (XEXP (x, 1), 1))
+ return gen_rtx_fmt_ee (code, GET_MODE (x), XEXP (x, 0),
+ gen_rtx_PLUS (GET_MODE (x),
+ XEXP (x, 0), new));
+ }
+ return x;
+
case STRICT_LOW_PART:
case NEG: case NOT:
case SIGN_EXTEND: case ZERO_EXTEND:
case POST_DEC:
case POST_MODIFY:
case PRE_MODIFY:
+ /* If we modify the source of an elimination rule, disable it. */
+ for (ep = reg_eliminate; ep < ®_eliminate[NUM_ELIMINABLE_REGS]; ep++)
+ if (ep->from_rtx == XEXP (x, 0))
+ ep->can_eliminate = 0;
+
+ /* If we modify the target of an elimination rule by adding a constant,
+ update its offset. If we modify the target in any other way, we'll
+ have to disable the rule as well. */
for (ep = reg_eliminate; ep < ®_eliminate[NUM_ELIMINABLE_REGS]; ep++)
if (ep->to_rtx == XEXP (x, 0))
{
ep->offset += size;
else if (code == PRE_INC || code == POST_INC)
ep->offset -= size;
- else if ((code == PRE_MODIFY || code == POST_MODIFY)
- && GET_CODE (XEXP (x, 1)) == PLUS
- && XEXP (x, 0) == XEXP (XEXP (x, 1), 0)
- && CONSTANT_P (XEXP (XEXP (x, 1), 1)))
- ep->offset -= INTVAL (XEXP (XEXP (x, 1), 1));
+ else if (code == PRE_MODIFY || code == POST_MODIFY)
+ {
+ if (GET_CODE (XEXP (x, 1)) == PLUS
+ && XEXP (x, 0) == XEXP (XEXP (x, 1), 0)
+ && CONST_INT_P (XEXP (XEXP (x, 1), 1)))
+ ep->offset -= INTVAL (XEXP (XEXP (x, 1), 1));
+ else
+ ep->can_eliminate = 0;
+ }
}
/* These two aren't unary operators. */
rtx links;
for (links = REG_NOTES (insn); links; links = XEXP (links, 1))
{
- if (REG_NOTE_KIND (links) == REG_EQUAL
+ if ((REG_NOTE_KIND (links) == REG_EQUAL
+ || REG_NOTE_KIND (links) == REG_EQUIV)
&& GET_CODE (XEXP (links, 0)) == PLUS
&& GET_CODE (XEXP (XEXP (links, 0), 1)) == CONST_INT)
{
if (GET_CODE (XEXP (plus_cst_src, 0)) == SUBREG)
to_rtx = gen_lowpart (GET_MODE (XEXP (plus_cst_src, 0)),
to_rtx);
- if (offset == 0)
- {
- int num_clobbers;
- /* We assume here that if we need a PARALLEL with
- CLOBBERs for this assignment, we can do with the
- MATCH_SCRATCHes that add_clobbers allocates.
- There's not much we can do if that doesn't work. */
- PATTERN (insn) = gen_rtx_SET (VOIDmode,
- SET_DEST (old_set),
- to_rtx);
- num_clobbers = 0;
- INSN_CODE (insn) = recog (PATTERN (insn), insn, &num_clobbers);
- if (num_clobbers)
- {
- rtvec vec = rtvec_alloc (num_clobbers + 1);
-
- vec->elem[0] = PATTERN (insn);
- PATTERN (insn) = gen_rtx_PARALLEL (VOIDmode, vec);
- add_clobbers (PATTERN (insn), INSN_CODE (insn));
- }
- gcc_assert (INSN_CODE (insn) >= 0);
- }
/* If we have a nonzero offset, and the source is already
a simple REG, the following transformation would
increase the cost of the insn by replacing a simple REG
with (plus (reg sp) CST). So try only when we already
had a PLUS before. */
- else if (plus_src)
+ if (offset == 0 || plus_src)
{
+ rtx new_src = plus_constant (to_rtx, offset);
+
new_body = old_body;
if (! replace)
{
PATTERN (insn) = new_body;
old_set = single_set (insn);
- XEXP (SET_SRC (old_set), 0) = to_rtx;
- XEXP (SET_SRC (old_set), 1) = GEN_INT (offset);
+ /* First see if this insn remains valid when we make the
+ change. If not, try to replace the whole pattern with
+ a simple set (this may help if the original insn was a
+ PARALLEL that was only recognized as single_set due to
+ REG_UNUSED notes). If this isn't valid either, keep
+ the INSN_CODE the same and let reload fix it up. */
+ if (!validate_change (insn, &SET_SRC (old_set), new_src, 0))
+ {
+ rtx new_pat = gen_rtx_SET (VOIDmode,
+ SET_DEST (old_set), new_src);
+
+ if (!validate_change (insn, &PATTERN (insn), new_pat, 0))
+ SET_SRC (old_set) = new_src;
+ }
}
else
break;
SET_HARD_REG_BIT (*pset, HARD_FRAME_POINTER_REGNUM);
}
+/* Return true if X is used as the target register of an elimination. */
+
+bool
+elimination_target_reg_p (rtx x)
+{
+ struct elim_table *ep;
+
+ for (ep = reg_eliminate; ep < ®_eliminate[NUM_ELIMINABLE_REGS]; ep++)
+ if (ep->to_rtx == x && ep->can_eliminate)
+ return true;
+
+ return false;
+}
+
/* Initialize the table of registers to eliminate. */
static void
transfer_replacements (i, j);
}
- /* If this is now RELOAD_OTHER, look for any reloads that load
- parts of this operand and set them to RELOAD_FOR_OTHER_ADDRESS
- if they were for inputs, RELOAD_OTHER for outputs. Note that
- this test is equivalent to looking for reloads for this operand
- number. */
- /* We must take special care with RELOAD_FOR_OUTPUT_ADDRESS; it may
- share registers with a RELOAD_FOR_INPUT, so we can not change it
- to RELOAD_FOR_OTHER_ADDRESS. We should never need to, since we
- do not modify RELOAD_FOR_OUTPUT. */
+ /* If this is now RELOAD_OTHER, look for any reloads that
+ load parts of this operand and set them to
+ RELOAD_FOR_OTHER_ADDRESS if they were for inputs,
+ RELOAD_OTHER for outputs. Note that this test is
+ equivalent to looking for reloads for this operand
+ number.
+
+ We must take special care with RELOAD_FOR_OUTPUT_ADDRESS;
+ it may share registers with a RELOAD_FOR_INPUT, so we can
+ not change it to RELOAD_FOR_OTHER_ADDRESS. We should
+ never need to, since we do not modify RELOAD_FOR_OUTPUT.
+
+ It is possible that the RELOAD_FOR_OPERAND_ADDRESS
+ instruction is assigned the same register as the earlier
+ RELOAD_FOR_OTHER_ADDRESS instruction. Merging these two
+ instructions will cause the RELOAD_FOR_OTHER_ADDRESS
+ instruction to be deleted later on. */
if (rld[i].when_needed == RELOAD_OTHER)
for (j = 0; j < n_reloads; j++)
&& rld[j].when_needed != RELOAD_OTHER
&& rld[j].when_needed != RELOAD_FOR_OTHER_ADDRESS
&& rld[j].when_needed != RELOAD_FOR_OUTPUT_ADDRESS
+ && rld[j].when_needed != RELOAD_FOR_OPERAND_ADDRESS
&& (! conflicting_input
|| rld[j].when_needed == RELOAD_FOR_INPUT_ADDRESS
|| rld[j].when_needed == RELOAD_FOR_INPADDR_ADDRESS)
actually no need to store the old value in it. */
if (optimize
- /* Only attempt this for input reloads; for RELOAD_OTHER we miss
- that there may be multiple uses of the previous output reload.
- Restricting to RELOAD_FOR_INPUT is mostly paranoia. */
- && rl->when_needed == RELOAD_FOR_INPUT
&& (reload_inherited[j] || reload_override_in[j])
&& rl->reg_rtx
&& REG_P (rl->reg_rtx)
/* If that failed, copy the address register to the reload register.
Then add the constant to the reload register. */
+ gcc_assert (!reg_overlap_mentioned_p (out, op0));
gen_reload (out, op1, opnum, type);
insn = emit_insn (gen_add2_insn (out, op0));
set_unique_reg_note (insn, REG_EQUIV, in);
if (rtx_equal_p (reg2, reg))
{
if (reload_inherited[k] || reload_override_in[k] || k == j)
- {
- n_inherited++;
- reg2 = rld[k].out_reg;
- if (! reg2)
- continue;
- while (GET_CODE (reg2) == SUBREG)
- reg2 = XEXP (reg2, 0);
- if (rtx_equal_p (reg2, reg))
- n_inherited++;
- }
+ n_inherited++;
else
return;
}
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