参照元

説明

引数

返り値

参考

実装

/* Main entry point of the constraint code: search the body of the
   current insn to choose the best alternative.  It is mimicking insn
   alternative cost calculation model of former reload pass.  That is
   because machine descriptions were written to use this model.  This
   model can be changed in future.  Make commutative operand exchange
   if it is chosen.

   if CHECK_ONLY_P is false, do RTL changes to satisfy the
   constraints.  Return true if any change happened during function
   call.

   If CHECK_ONLY_P is true then don't do any transformation.  Just
   check that the insn satisfies all constraints.  If the insn does
   not satisfy any constraint, return true.  */
static bool
curr_insn_transform (bool check_only_p)
{
  int i, j, k;
  int n_operands;
  int n_alternatives;
  int n_outputs;
  int commutative;
  signed char goal_alt_matched[MAX_RECOG_OPERANDS][MAX_RECOG_OPERANDS];
  signed char match_inputs[MAX_RECOG_OPERANDS + 1];
  signed char outputs[MAX_RECOG_OPERANDS + 1];
  rtx_insn *before, *after;
  bool alt_p = false;
  /* Flag that the insn has been changed through a transformation.  */
  bool change_p;
  bool sec_mem_p;
  bool use_sec_mem_p;
  int max_regno_before;
  int reused_alternative_num;
  curr_insn_set = single_set (curr_insn);
  if (curr_insn_set != NULL_RTX && simple_move_p ())
    {
      /* We assume that the corresponding insn alternative has no
	 earlier clobbers.  If it is not the case, don't define move
	 cost equal to 2 for the corresponding register classes.  */
      lra_set_used_insn_alternative (curr_insn, LRA_NON_CLOBBERED_ALT);
      return false;
    }
  no_input_reloads_p = no_output_reloads_p = false;
  goal_alt_number = -1;
  change_p = sec_mem_p = false;
  /* JUMP_INSNs and CALL_INSNs are not allowed to have any output
     reloads; neither are insns that SET cc0.  Insns that use CC0 are
     not allowed to have any input reloads.  */
  if (JUMP_P (curr_insn) || CALL_P (curr_insn))
    no_output_reloads_p = true;

  if (HAVE_cc0 && reg_referenced_p (cc0_rtx, PATTERN (curr_insn)))
    no_input_reloads_p = true;
  if (HAVE_cc0 && reg_set_p (cc0_rtx, PATTERN (curr_insn)))
    no_output_reloads_p = true;
  n_operands = curr_static_id->n_operands;
  n_alternatives = curr_static_id->n_alternatives;

  /* Just return "no reloads" if insn has no operands with
     constraints.  */
  if (n_operands == 0 || n_alternatives == 0)
    return false;

  max_regno_before = max_reg_num ();

  for (i = 0; i < n_operands; i++)
    {
      goal_alt_matched[i][0] = -1;
      goal_alt_matches[i] = -1;
    }

  commutative = curr_static_id->commutative;
  /* Now see what we need for pseudos that didn't get hard regs or got
     the wrong kind of hard reg.  For this, we must consider all the
     operands together against the register constraints.  */

  best_losers = best_overall = INT_MAX;
  best_reload_sum = 0;

  curr_swapped = false;
  goal_alt_swapped = false;
  if (! check_only_p)
    /* Make equivalence substitution and memory subreg elimination
       before address processing because an address legitimacy can
       depend on memory mode.  */
    for (i = 0; i < n_operands; i++)
      {
	rtx op, subst, old;
	bool op_change_p = false;

	if (curr_static_id->operand[i].is_operator)
	  continue;
	
	old = op = *curr_id->operand_loc[i];
	if (GET_CODE (old) == SUBREG)
	  old = SUBREG_REG (old);
	subst = get_equiv_with_elimination (old, curr_insn);
	original_subreg_reg_mode[i] = VOIDmode;
	equiv_substition_p[i] = false;
	if (subst != old)
	  {
	    equiv_substition_p[i] = true;
	    subst = copy_rtx (subst);
	    lra_assert (REG_P (old));
	    if (GET_CODE (op) != SUBREG)
	      *curr_id->operand_loc[i] = subst;
	    else
	      {
		SUBREG_REG (op) = subst;
		if (GET_MODE (subst) == VOIDmode)
		  original_subreg_reg_mode[i] = GET_MODE (old);
	      }
	    if (lra_dump_file != NULL)
	      {
		fprintf (lra_dump_file,
			 "Changing pseudo %d in operand %i of insn %u on equiv ",
			 REGNO (old), i, INSN_UID (curr_insn));
		dump_value_slim (lra_dump_file, subst, 1);
		fprintf (lra_dump_file, "\n");
	      }
	    op_change_p = change_p = true;
	  }
	if (simplify_operand_subreg (i, GET_MODE (old)) || op_change_p)
	  {
	    change_p = true;
	    lra_update_dup (curr_id, i);
	  }
      }

  /* Reload address registers and displacements.  We do it before
     finding an alternative because of memory constraints.  */
  before = after = NULL;
  for (i = 0; i < n_operands; i++)
    if (! curr_static_id->operand[i].is_operator
	&& process_address (i, check_only_p, &before, &after))
      {
	if (check_only_p)
	  return true;
	change_p = true;
	lra_update_dup (curr_id, i);
      }
  
  if (change_p)
    /* If we've changed the instruction then any alternative that
       we chose previously may no longer be valid.  */
    lra_set_used_insn_alternative (curr_insn, LRA_UNKNOWN_ALT);

  if (! check_only_p && curr_insn_set != NULL_RTX
      && check_and_process_move (&change_p, &sec_mem_p))
    return change_p;

 try_swapped:

  reused_alternative_num = check_only_p ? LRA_UNKNOWN_ALT : curr_id->used_insn_alternative;
  if (lra_dump_file != NULL && reused_alternative_num >= 0)
    fprintf (lra_dump_file, "Reusing alternative %d for insn #%u\n",
	     reused_alternative_num, INSN_UID (curr_insn));

  if (process_alt_operands (reused_alternative_num))
    alt_p = true;

  if (check_only_p)
    return ! alt_p || best_losers != 0;

  /* If insn is commutative (it's safe to exchange a certain pair of
     operands) then we need to try each alternative twice, the second
     time matching those two operands as if we had exchanged them.  To
     do this, really exchange them in operands.

     If we have just tried the alternatives the second time, return
     operands to normal and drop through.  */

  if (reused_alternative_num < 0 && commutative >= 0)
    {
      curr_swapped = !curr_swapped;
      if (curr_swapped)
	{
	  swap_operands (commutative);
	  goto try_swapped;
	}
      else
	swap_operands (commutative);
    }

  if (! alt_p && ! sec_mem_p)
    {
      /* No alternative works with reloads??  */
      if (INSN_CODE (curr_insn) >= 0)
	fatal_insn ("unable to generate reloads for:", curr_insn);
      error_for_asm (curr_insn,
		     "inconsistent operand constraints in an %<asm%>");
      /* Avoid further trouble with this insn.  Don't generate use
	 pattern here as we could use the insn SP offset.  */
      lra_set_insn_deleted (curr_insn);
      return true;
    }

  /* If the best alternative is with operands 1 and 2 swapped, swap
     them.  Update the operand numbers of any reloads already
     pushed.  */

  if (goal_alt_swapped)
    {
      if (lra_dump_file != NULL)
	fprintf (lra_dump_file, "  Commutative operand exchange in insn %u\n",
		 INSN_UID (curr_insn));

      /* Swap the duplicates too.  */
      swap_operands (commutative);
      change_p = true;
    }

  /* Some targets' TARGET_SECONDARY_MEMORY_NEEDED (e.g. x86) are defined
     too conservatively.  So we use the secondary memory only if there
     is no any alternative without reloads.  */
  use_sec_mem_p = false;
  if (! alt_p)
    use_sec_mem_p = true;
  else if (sec_mem_p)
    {
      for (i = 0; i < n_operands; i++)
	if (! goal_alt_win[i] && ! goal_alt_match_win[i])
	  break;
      use_sec_mem_p = i < n_operands;
    }

  if (use_sec_mem_p)
    {
      int in = -1, out = -1;
      rtx new_reg, src, dest, rld;
      machine_mode sec_mode, rld_mode;

      lra_assert (curr_insn_set != NULL_RTX && sec_mem_p);
      dest = SET_DEST (curr_insn_set);
      src = SET_SRC (curr_insn_set);
      for (i = 0; i < n_operands; i++)
	if (*curr_id->operand_loc[i] == dest)
	  out = i;
	else if (*curr_id->operand_loc[i] == src)
	  in = i;
      for (i = 0; i < curr_static_id->n_dups; i++)
	if (out < 0 && *curr_id->dup_loc[i] == dest)
	  out = curr_static_id->dup_num[i];
	else if (in < 0 && *curr_id->dup_loc[i] == src)
	  in = curr_static_id->dup_num[i];
      lra_assert (out >= 0 && in >= 0
		  && curr_static_id->operand[out].type == OP_OUT
		  && curr_static_id->operand[in].type == OP_IN);
      rld = partial_subreg_p (GET_MODE (src), GET_MODE (dest)) ? src : dest;
      rld_mode = GET_MODE (rld);
      sec_mode = targetm.secondary_memory_needed_mode (rld_mode);
      new_reg = lra_create_new_reg (sec_mode, NULL_RTX,
				    NO_REGS, "secondary");
      /* If the mode is changed, it should be wider.  */
      lra_assert (!partial_subreg_p (sec_mode, rld_mode));
      if (sec_mode != rld_mode)
        {
	  /* If the target says specifically to use another mode for
	     secondary memory moves we can not reuse the original
	     insn.  */
	  after = emit_spill_move (false, new_reg, dest);
	  lra_process_new_insns (curr_insn, NULL, after,
				 "Inserting the sec. move");
	  /* We may have non null BEFORE here (e.g. after address
	     processing.  */
	  push_to_sequence (before);
	  before = emit_spill_move (true, new_reg, src);
	  emit_insn (before);
	  before = get_insns ();
	  end_sequence ();
	  lra_process_new_insns (curr_insn, before, NULL, "Changing on");
	  lra_set_insn_deleted (curr_insn);
	}
      else if (dest == rld)
        {
	  *curr_id->operand_loc[out] = new_reg;
	  lra_update_dup (curr_id, out);
	  after = emit_spill_move (false, new_reg, dest);
	  lra_process_new_insns (curr_insn, NULL, after,
				 "Inserting the sec. move");
	}
      else
	{
	  *curr_id->operand_loc[in] = new_reg;
	  lra_update_dup (curr_id, in);
	  /* See comments above.  */
	  push_to_sequence (before);
	  before = emit_spill_move (true, new_reg, src);
	  emit_insn (before);
	  before = get_insns ();
	  end_sequence ();
	  lra_process_new_insns (curr_insn, before, NULL,
				 "Inserting the sec. move");
	}
      lra_update_insn_regno_info (curr_insn);
      return true;
    }

  lra_assert (goal_alt_number >= 0);
  lra_set_used_insn_alternative (curr_insn, goal_alt_number);

  if (lra_dump_file != NULL)
    {
      const char *p;

      fprintf (lra_dump_file, "	 Choosing alt %d in insn %u:",
	       goal_alt_number, INSN_UID (curr_insn));
      for (i = 0; i < n_operands; i++)
	{
	  p = (curr_static_id->operand_alternative
	       [goal_alt_number * n_operands + i].constraint);
	  if (*p == '\0')
	    continue;
	  fprintf (lra_dump_file, "  (%d) ", i);
	  for (; *p != '\0' && *p != ',' && *p != '#'; p++)
	    fputc (*p, lra_dump_file);
	}
      if (INSN_CODE (curr_insn) >= 0
          && (p = get_insn_name (INSN_CODE (curr_insn))) != NULL)
        fprintf (lra_dump_file, " {%s}", p);
      if (maybe_ne (curr_id->sp_offset, 0))
	{
	  fprintf (lra_dump_file, " (sp_off=");
	  print_dec (curr_id->sp_offset, lra_dump_file);
	  fprintf (lra_dump_file, ")");
	}
      fprintf (lra_dump_file, "\n");
    }

  /* Right now, for any pair of operands I and J that are required to
     match, with J < I, goal_alt_matches[I] is J.  Add I to
     goal_alt_matched[J].  */

  for (i = 0; i < n_operands; i++)
    if ((j = goal_alt_matches[i]) >= 0)
      {
	for (k = 0; goal_alt_matched[j][k] >= 0; k++)
	  ;
	/* We allow matching one output operand and several input
	   operands.  */
	lra_assert (k == 0
		    || (curr_static_id->operand[j].type == OP_OUT
			&& curr_static_id->operand[i].type == OP_IN
			&& (curr_static_id->operand
			    [goal_alt_matched[j][0]].type == OP_IN)));
	goal_alt_matched[j][k] = i;
	goal_alt_matched[j][k + 1] = -1;
      }

  for (i = 0; i < n_operands; i++)
    goal_alt_win[i] |= goal_alt_match_win[i];

  /* Any constants that aren't allowed and can't be reloaded into
     registers are here changed into memory references.	 */
  for (i = 0; i < n_operands; i++)
    if (goal_alt_win[i])
      {
	int regno;
	enum reg_class new_class;
	rtx reg = *curr_id->operand_loc[i];

	if (GET_CODE (reg) == SUBREG)
	  reg = SUBREG_REG (reg);

	if (REG_P (reg) && (regno = REGNO (reg)) >= FIRST_PSEUDO_REGISTER)
	  {
	    bool ok_p = in_class_p (reg, goal_alt[i], &new_class);

	    if (new_class != NO_REGS && get_reg_class (regno) != new_class)
	      {
		lra_assert (ok_p);
		lra_change_class (regno, new_class, "      Change to", true);
	      }
	  }
      }
    else
      {
	const char *constraint;
	char c;
	rtx op = *curr_id->operand_loc[i];
	rtx subreg = NULL_RTX;
	machine_mode mode = curr_operand_mode[i];

	if (GET_CODE (op) == SUBREG)
	  {
	    subreg = op;
	    op = SUBREG_REG (op);
	    mode = GET_MODE (op);
	  }

	if (CONST_POOL_OK_P (mode, op)
	    && ((targetm.preferred_reload_class
		 (op, (enum reg_class) goal_alt[i]) == NO_REGS)
		|| no_input_reloads_p))
	  {
	    rtx tem = force_const_mem (mode, op);

	    change_p = true;
	    if (subreg != NULL_RTX)
	      tem = gen_rtx_SUBREG (mode, tem, SUBREG_BYTE (subreg));

	    *curr_id->operand_loc[i] = tem;
	    lra_update_dup (curr_id, i);
	    process_address (i, false, &before, &after);

	    /* If the alternative accepts constant pool refs directly
	       there will be no reload needed at all.  */
	    if (subreg != NULL_RTX)
	      continue;
	    /* Skip alternatives before the one requested.  */
	    constraint = (curr_static_id->operand_alternative
			  [goal_alt_number * n_operands + i].constraint);
	    for (;
		 (c = *constraint) && c != ',' && c != '#';
		 constraint += CONSTRAINT_LEN (c, constraint))
	      {
		enum constraint_num cn = lookup_constraint (constraint);
		if ((insn_extra_memory_constraint (cn)
		     || insn_extra_special_memory_constraint (cn))
		    && satisfies_memory_constraint_p (tem, cn))
		  break;
	      }
	    if (c == '\0' || c == ',' || c == '#')
	      continue;

	    goal_alt_win[i] = true;
	  }
      }

  n_outputs = 0;
  outputs[0] = -1;
  for (i = 0; i < n_operands; i++)
    {
      int regno;
      bool optional_p = false;
      rtx old, new_reg;
      rtx op = *curr_id->operand_loc[i];

      if (goal_alt_win[i])
	{
	  if (goal_alt[i] == NO_REGS
	      && REG_P (op)
	      /* When we assign NO_REGS it means that we will not
		 assign a hard register to the scratch pseudo by
		 assigment pass and the scratch pseudo will be
		 spilled.  Spilled scratch pseudos are transformed
		 back to scratches at the LRA end.  */
	      && lra_former_scratch_operand_p (curr_insn, i)
	      && lra_former_scratch_p (REGNO (op)))
	    {
	      int regno = REGNO (op);
	      lra_change_class (regno, NO_REGS, "      Change to", true);
	      if (lra_get_regno_hard_regno (regno) >= 0)
		/* We don't have to mark all insn affected by the
		   spilled pseudo as there is only one such insn, the
		   current one.  */
		reg_renumber[regno] = -1;
	      lra_assert (bitmap_single_bit_set_p
			  (&lra_reg_info[REGNO (op)].insn_bitmap));
	    }
	  /* We can do an optional reload.  If the pseudo got a hard
	     reg, we might improve the code through inheritance.  If
	     it does not get a hard register we coalesce memory/memory
	     moves later.  Ignore move insns to avoid cycling.  */
	  if (! lra_simple_p
	      && lra_undo_inheritance_iter < LRA_MAX_INHERITANCE_PASSES
	      && goal_alt[i] != NO_REGS && REG_P (op)
	      && (regno = REGNO (op)) >= FIRST_PSEUDO_REGISTER
	      && regno < new_regno_start
	      && ! lra_former_scratch_p (regno)
	      && reg_renumber[regno] < 0
	      /* Check that the optional reload pseudo will be able to
		 hold given mode value.  */
	      && ! (prohibited_class_reg_set_mode_p
		    (goal_alt[i], reg_class_contents[goal_alt[i]],
		     PSEUDO_REGNO_MODE (regno)))
	      && (curr_insn_set == NULL_RTX
		  || !((REG_P (SET_SRC (curr_insn_set))
			|| MEM_P (SET_SRC (curr_insn_set))
			|| GET_CODE (SET_SRC (curr_insn_set)) == SUBREG)
		       && (REG_P (SET_DEST (curr_insn_set))
			   || MEM_P (SET_DEST (curr_insn_set))
			   || GET_CODE (SET_DEST (curr_insn_set)) == SUBREG))))
	    optional_p = true;
	  else
	    continue;
	}

      /* Operands that match previous ones have already been handled.  */
      if (goal_alt_matches[i] >= 0)
	continue;

      /* We should not have an operand with a non-offsettable address
	 appearing where an offsettable address will do.  It also may
	 be a case when the address should be special in other words
	 not a general one (e.g. it needs no index reg).  */
      if (goal_alt_matched[i][0] == -1 && goal_alt_offmemok[i] && MEM_P (op))
	{
	  enum reg_class rclass;
	  rtx *loc = &XEXP (op, 0);
	  enum rtx_code code = GET_CODE (*loc);

	  push_to_sequence (before);
	  rclass = base_reg_class (GET_MODE (op), MEM_ADDR_SPACE (op),
				   MEM, SCRATCH);
	  if (GET_RTX_CLASS (code) == RTX_AUTOINC)
	    new_reg = emit_inc (rclass, *loc, *loc,
				/* This value does not matter for MODIFY.  */
				GET_MODE_SIZE (GET_MODE (op)));
	  else if (get_reload_reg (OP_IN, Pmode, *loc, rclass, FALSE,
				   "offsetable address", &new_reg))
	    {
	      rtx addr = *loc;
	      enum rtx_code code = GET_CODE (addr);
	      
	      if (code == AND && CONST_INT_P (XEXP (addr, 1)))
		/* (and ... (const_int -X)) is used to align to X bytes.  */
		addr = XEXP (*loc, 0);
	      lra_emit_move (new_reg, addr);
	      if (addr != *loc)
		emit_move_insn (new_reg, gen_rtx_AND (GET_MODE (new_reg), new_reg, XEXP (*loc, 1)));
	    }
	  before = get_insns ();
	  end_sequence ();
	  *loc = new_reg;
	  lra_update_dup (curr_id, i);
	}
      else if (goal_alt_matched[i][0] == -1)
	{
	  machine_mode mode;
	  rtx reg, *loc;
	  int hard_regno;
	  enum op_type type = curr_static_id->operand[i].type;

	  loc = curr_id->operand_loc[i];
	  mode = curr_operand_mode[i];
	  if (GET_CODE (*loc) == SUBREG)
	    {
	      reg = SUBREG_REG (*loc);
	      poly_int64 byte = SUBREG_BYTE (*loc);
	      if (REG_P (reg)
		  /* Strict_low_part requires reloading the register and not
		     just the subreg.  Likewise for a strict subreg no wider
		     than a word for WORD_REGISTER_OPERATIONS targets.  */
		  && (curr_static_id->operand[i].strict_low
		      || (!paradoxical_subreg_p (mode, GET_MODE (reg))
			  && (hard_regno
			      = get_try_hard_regno (REGNO (reg))) >= 0
			  && (simplify_subreg_regno
			      (hard_regno,
			       GET_MODE (reg), byte, mode) < 0)
			  && (goal_alt[i] == NO_REGS
			      || (simplify_subreg_regno
				  (ira_class_hard_regs[goal_alt[i]][0],
				   GET_MODE (reg), byte, mode) >= 0)))
		      || (partial_subreg_p (mode, GET_MODE (reg))
			  && known_le (GET_MODE_SIZE (GET_MODE (reg)),
				       UNITS_PER_WORD)
			  && WORD_REGISTER_OPERATIONS)))
		{
		  /* An OP_INOUT is required when reloading a subreg of a
		     mode wider than a word to ensure that data beyond the
		     word being reloaded is preserved.  Also automatically
		     ensure that strict_low_part reloads are made into
		     OP_INOUT which should already be true from the backend
		     constraints.  */
		  if (type == OP_OUT
		      && (curr_static_id->operand[i].strict_low
			  || read_modify_subreg_p (*loc)))
		    type = OP_INOUT;
		  loc = &SUBREG_REG (*loc);
		  mode = GET_MODE (*loc);
		}
	    }
	  old = *loc;
	  if (get_reload_reg (type, mode, old, goal_alt[i],
			      loc != curr_id->operand_loc[i], "", &new_reg)
	      && type != OP_OUT)
	    {
	      push_to_sequence (before);
	      lra_emit_move (new_reg, old);
	      before = get_insns ();
	      end_sequence ();
	    }
	  *loc = new_reg;
	  if (type != OP_IN
	      && find_reg_note (curr_insn, REG_UNUSED, old) == NULL_RTX)
	    {
	      start_sequence ();
	      lra_emit_move (type == OP_INOUT ? copy_rtx (old) : old, new_reg);
	      emit_insn (after);
	      after = get_insns ();
	      end_sequence ();
	      *loc = new_reg;
	    }
	  for (j = 0; j < goal_alt_dont_inherit_ops_num; j++)
	    if (goal_alt_dont_inherit_ops[j] == i)
	      {
		lra_set_regno_unique_value (REGNO (new_reg));
		break;
	      }
	  lra_update_dup (curr_id, i);
	}
      else if (curr_static_id->operand[i].type == OP_IN
	       && (curr_static_id->operand[goal_alt_matched[i][0]].type
		   == OP_OUT
		   || (curr_static_id->operand[goal_alt_matched[i][0]].type
		       == OP_INOUT
		       && (operands_match_p
			   (*curr_id->operand_loc[i],
			    *curr_id->operand_loc[goal_alt_matched[i][0]],
			    -1)))))
	{
	  /* generate reloads for input and matched outputs.  */
	  match_inputs[0] = i;
	  match_inputs[1] = -1;
	  match_reload (goal_alt_matched[i][0], match_inputs, outputs,
			goal_alt[i], &before, &after,
			curr_static_id->operand_alternative
			[goal_alt_number * n_operands + goal_alt_matched[i][0]]
			.earlyclobber);
	}
      else if ((curr_static_id->operand[i].type == OP_OUT
		|| (curr_static_id->operand[i].type == OP_INOUT
		    && (operands_match_p
			(*curr_id->operand_loc[i],
			 *curr_id->operand_loc[goal_alt_matched[i][0]],
			 -1))))
	       && (curr_static_id->operand[goal_alt_matched[i][0]].type
		    == OP_IN))
	/* Generate reloads for output and matched inputs.  */
	match_reload (i, goal_alt_matched[i], outputs, goal_alt[i], &before,
		      &after, curr_static_id->operand_alternative
			      [goal_alt_number * n_operands + i].earlyclobber);
      else if (curr_static_id->operand[i].type == OP_IN
	       && (curr_static_id->operand[goal_alt_matched[i][0]].type
		   == OP_IN))
	{
	  /* Generate reloads for matched inputs.  */
	  match_inputs[0] = i;
	  for (j = 0; (k = goal_alt_matched[i][j]) >= 0; j++)
	    match_inputs[j + 1] = k;
	  match_inputs[j + 1] = -1;
	  match_reload (-1, match_inputs, outputs, goal_alt[i], &before,
			&after, false);
	}
      else
	/* We must generate code in any case when function
	   process_alt_operands decides that it is possible.  */
	gcc_unreachable ();

      /* Memorise processed outputs so that output remaining to be processed
	 can avoid using the same register value (see match_reload).  */
      if (curr_static_id->operand[i].type == OP_OUT)
	{
	  outputs[n_outputs++] = i;
	  outputs[n_outputs] = -1;
	}

      if (optional_p)
	{
	  rtx reg = op;

	  lra_assert (REG_P (reg));
	  regno = REGNO (reg);
	  op = *curr_id->operand_loc[i]; /* Substitution.  */
	  if (GET_CODE (op) == SUBREG)
	    op = SUBREG_REG (op);
	  gcc_assert (REG_P (op) && (int) REGNO (op) >= new_regno_start);
	  bitmap_set_bit (&lra_optional_reload_pseudos, REGNO (op));
	  lra_reg_info[REGNO (op)].restore_rtx = reg;
	  if (lra_dump_file != NULL)
	    fprintf (lra_dump_file,
		     "      Making reload reg %d for reg %d optional\n",
		     REGNO (op), regno);
	}
    }
  if (before != NULL_RTX || after != NULL_RTX
      || max_regno_before != max_reg_num ())
    change_p = true;
  if (change_p)
    {
      lra_update_operator_dups (curr_id);
      /* Something changes -- process the insn.	 */
      lra_update_insn_regno_info (curr_insn);
    }
  lra_process_new_insns (curr_insn, before, after, "Inserting insn reload");
  return change_p;
}

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