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  1.   35ffae60212bc53b682b3373cc8e5d0b1494fac6
  2.   backends
  3.   ia64_retval.c
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/* Function return value location for IA64 ABI.
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   Copyright (C) 2006-2010, 2014 Red Hat, Inc.
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   This file is part of elfutils.
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   This file is free software; you can redistribute it and/or modify
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   it under the terms of either
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     * the GNU Lesser General Public License as published by the Free
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       Software Foundation; either version 3 of the License, or (at
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       your option) any later version
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   or
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     * the GNU General Public License as published by the Free
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       Software Foundation; either version 2 of the License, or (at
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       your option) any later version
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   or both in parallel, as here.
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   elfutils is distributed in the hope that it will be useful, but
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   WITHOUT ANY WARRANTY; without even the implied warranty of
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   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
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   General Public License for more details.
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   You should have received copies of the GNU General Public License and
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   the GNU Lesser General Public License along with this program.  If
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   not, see <http://www.gnu.org/licenses/>.  */
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#ifdef HAVE_CONFIG_H
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# include <config.h>
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#endif
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#include <assert.h>
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#include <dwarf.h>
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#define BACKEND ia64_
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#include "libebl_CPU.h"
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/* r8, or pair r8, r9, or aggregate up to r8-r11.  */
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static const Dwarf_Op loc_intreg[] =
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  {
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    { .atom = DW_OP_reg8 }, { .atom = DW_OP_piece, .number = 8 },
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    { .atom = DW_OP_reg9 }, { .atom = DW_OP_piece, .number = 8 },
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    { .atom = DW_OP_reg10 }, { .atom = DW_OP_piece, .number = 8 },
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    { .atom = DW_OP_reg11 }, { .atom = DW_OP_piece, .number = 8 },
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  };
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#define nloc_intreg	1
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#define nloc_intregs(n)	(2 * (n))
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/* f8, or aggregate up to f8-f15.  */
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#define DEFINE_FPREG(size) 						      \
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  static const Dwarf_Op loc_fpreg_##size[] =				      \
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    {									      \
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      { .atom = DW_OP_regx, .number = 128 + 8 },			      \
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      { .atom = DW_OP_piece, .number = size },				      \
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      { .atom = DW_OP_regx, .number = 128 + 9 },			      \
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      { .atom = DW_OP_piece, .number = size },				      \
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      { .atom = DW_OP_regx, .number = 128 + 10 },			      \
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      { .atom = DW_OP_piece, .number = size },				      \
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      { .atom = DW_OP_regx, .number = 128 + 11 },			      \
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      { .atom = DW_OP_piece, .number = size },				      \
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      { .atom = DW_OP_regx, .number = 128 + 12 },			      \
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      { .atom = DW_OP_piece, .number = size },				      \
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      { .atom = DW_OP_regx, .number = 128 + 13 },			      \
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      { .atom = DW_OP_piece, .number = size },				      \
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      { .atom = DW_OP_regx, .number = 128 + 14 },			      \
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      { .atom = DW_OP_piece, .number = size },				      \
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      { .atom = DW_OP_regx, .number = 128 + 15 },			      \
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      { .atom = DW_OP_piece, .number = size },				      \
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    }
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#define nloc_fpreg	1
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#define nloc_fpregs(n)	(2 * (n))
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DEFINE_FPREG (4);
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DEFINE_FPREG (8);
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DEFINE_FPREG (10);
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#undef DEFINE_FPREG
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/* The return value is a structure and is actually stored in stack space
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   passed in a hidden argument by the caller.  But, the compiler
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   helpfully returns the address of that space in r8.  */
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static const Dwarf_Op loc_aggregate[] =
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  {
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    { .atom = DW_OP_breg8, .number = 0 }
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  };
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#define nloc_aggregate 1
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static inline int
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compute_hfa (const Dwarf_Op *loc, int nregs,
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	     const Dwarf_Op **locp, int fpregs_used)
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{
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  if (fpregs_used == 0)
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    *locp = loc;
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  else if (*locp != loc)
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    return 9;
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  return fpregs_used + nregs;
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}
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/* If this type is an HFA small enough to be returned in FP registers,
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   return the number of registers to use.  Otherwise 9, or -1 for errors.  */
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static int
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hfa_type (Dwarf_Die *typedie, Dwarf_Word size,
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	  const Dwarf_Op **locp, int fpregs_used)
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{
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  /* Descend the type structure, counting elements and finding their types.
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     If we find a datum that's not an FP type (and not quad FP), punt.
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     If we find a datum that's not the same FP type as the first datum, punt.
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     If we count more than eight total homogeneous FP data, punt.  */
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  int tag = DWARF_TAG_OR_RETURN (typedie);
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  switch (tag)
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    {
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      Dwarf_Attribute attr_mem;
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    case -1:
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      return -1;
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    case DW_TAG_base_type:;
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      Dwarf_Word encoding;
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      if (dwarf_formudata (dwarf_attr_integrate (typedie, DW_AT_encoding,
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						 &attr_mem), &encoding) != 0)
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	return -1;
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#define hfa(loc, nregs) compute_hfa(loc, nregs, locp, fpregs_used)
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      switch (encoding)
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	{
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	case DW_ATE_float:
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	  switch (size)
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	    {
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	    case 4:		/* float */
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	      return hfa (loc_fpreg_4, 1);
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	    case 8:		/* double */
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	      return hfa (loc_fpreg_8, 1);
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	    case 10:       /* x86-style long double, not really used */
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	      return hfa (loc_fpreg_10, 1);
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	    }
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	  break;
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	case DW_ATE_complex_float:
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	  switch (size)
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	    {
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	    case 4 * 2:	/* complex float */
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	      return hfa (loc_fpreg_4, 2);
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	    case 8 * 2:	/* complex double */
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	      return hfa (loc_fpreg_8, 2);
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	    case 10 * 2:	/* complex long double (x86-style) */
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	      return hfa (loc_fpreg_10, 2);
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	    }
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	  break;
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	}
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      break;
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    case DW_TAG_structure_type:
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    case DW_TAG_class_type:
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    case DW_TAG_union_type:;
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      Dwarf_Die child_mem;
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      switch (dwarf_child (typedie, &child_mem))
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	{
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	default:
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	  return -1;
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	case 1:			/* No children: empty struct.  */
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	  break;
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	case 0:;		/* Look at each element.  */
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	  int max_used = fpregs_used;
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	  do
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	    switch (dwarf_tag (&child_mem))
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	      {
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	      case -1:
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		return -1;
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	      case DW_TAG_member:;
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		Dwarf_Die child_type_mem;
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		Dwarf_Die *child_typedie
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		  = dwarf_formref_die (dwarf_attr_integrate (&child_mem,
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							     DW_AT_type,
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							     &attr_mem),
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				       &child_type_mem);
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		Dwarf_Word child_size;
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		if (dwarf_aggregate_size (child_typedie, &child_size) != 0)
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		  return -1;
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		if (tag == DW_TAG_union_type)
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		  {
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		    int used = hfa_type (child_typedie, child_size,
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					 locp, fpregs_used);
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		    if (used < 0 || used > 8)
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		      return used;
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		    if (used > max_used)
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		      max_used = used;
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		  }
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		else
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		  {
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		    fpregs_used = hfa_type (child_typedie, child_size,
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					    locp, fpregs_used);
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		    if (fpregs_used < 0 || fpregs_used > 8)
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		      return fpregs_used;
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		  }
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	      }
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	  while (dwarf_siblingof (&child_mem, &child_mem) == 0);
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	  if (tag == DW_TAG_union_type)
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	    fpregs_used = max_used;
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	  break;
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	}
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      break;
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    case DW_TAG_array_type:
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      if (size == 0)
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	break;
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      Dwarf_Die base_type_mem;
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      Dwarf_Die *base_typedie
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	= dwarf_formref_die (dwarf_attr_integrate (typedie, DW_AT_type,
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						   &attr_mem),
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			     &base_type_mem);
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      Dwarf_Word base_size;
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      if (dwarf_aggregate_size (base_typedie, &base_size) != 0)
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	return -1;
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      int used = hfa_type (base_typedie, base_size, locp, 0);
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      if (used < 0 || used > 8)
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	return used;
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      if (size % (*locp)[1].number != 0)
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	return 0;
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      fpregs_used += used * (size / (*locp)[1].number);
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      break;
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    default:
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      return 9;
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    }
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  return fpregs_used;
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}
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int
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ia64_return_value_location (Dwarf_Die *functypedie, const Dwarf_Op **locp)
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{
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  /* Start with the function's type, and get the DW_AT_type attribute,
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     which is the type of the return value.  */
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  Dwarf_Die die_mem, *typedie = &die_mem;
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  int tag = dwarf_peeled_die_type (functypedie, typedie);
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  if (tag <= 0)
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    return tag;
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  Dwarf_Word size;
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  switch (tag)
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    {
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    case -1:
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      return -1;
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    case DW_TAG_subrange_type:
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      if (! dwarf_hasattr_integrate (typedie, DW_AT_byte_size))
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	{
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	  Dwarf_Attribute attr_mem, *attr;
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	  attr = dwarf_attr_integrate (typedie, DW_AT_type, &attr_mem);
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	  typedie = dwarf_formref_die (attr, &die_mem);
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	  tag = DWARF_TAG_OR_RETURN (typedie);
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	}
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      FALLTHROUGH;
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    case DW_TAG_base_type:
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    case DW_TAG_enumeration_type:
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    case DW_TAG_pointer_type:
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    case DW_TAG_ptr_to_member_type:
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      {
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	Dwarf_Attribute attr_mem;
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	if (dwarf_formudata (dwarf_attr_integrate (typedie, DW_AT_byte_size,
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						   &attr_mem), &size) != 0)
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	  {
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	    if (tag == DW_TAG_pointer_type || tag == DW_TAG_ptr_to_member_type)
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	      size = 8;
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	    else
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	      return -1;
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	  }
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      }
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      if (tag == DW_TAG_base_type)
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	{
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	  Dwarf_Attribute attr_mem;
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	  Dwarf_Word encoding;
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	  if (dwarf_formudata (dwarf_attr_integrate (typedie, DW_AT_encoding,
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						     &attr_mem),
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			       &encoding) != 0)
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	    return -1;
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	  switch (encoding)
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	    {
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	    case DW_ATE_float:
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	      switch (size)
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		{
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		case 4:		/* float */
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		  *locp = loc_fpreg_4;
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		  return nloc_fpreg;
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		case 8:		/* double */
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		  *locp = loc_fpreg_8;
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		  return nloc_fpreg;
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		case 10:       /* x86-style long double, not really used */
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		  *locp = loc_fpreg_10;
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		  return nloc_fpreg;
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		case 16:	/* long double, IEEE quad format */
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		  *locp = loc_intreg;
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		  return nloc_intregs (2);
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		}
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	      return -2;
Packit 032894
Packit 032894 
	    case DW_ATE_complex_float:
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	      switch (size)
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		{
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		case 4 * 2:	/* complex float */
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		  *locp = loc_fpreg_4;
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		  return nloc_fpregs (2);
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		case 8 * 2:	/* complex double */
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		  *locp = loc_fpreg_8;
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		  return nloc_fpregs (2);
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		case 10 * 2:	/* complex long double (x86-style) */
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		  *locp = loc_fpreg_10;
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		  return nloc_fpregs (2);
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		case 16 * 2:	/* complex long double (IEEE quad) */
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		  *locp = loc_intreg;
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		  return nloc_intregs (4);
Packit 032894 
		}
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	      return -2;
Packit 032894 
	    }
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	}
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Packit 032894 
    intreg:
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      *locp = loc_intreg;
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      if (size <= 8)
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	return nloc_intreg;
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      if (size <= 32)
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	return nloc_intregs ((size + 7) / 8);
Packit 032894
Packit 032894 
    large:
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      *locp = loc_aggregate;
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      return nloc_aggregate;
Packit 032894
Packit 032894 
    case DW_TAG_structure_type:
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    case DW_TAG_class_type:
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    case DW_TAG_union_type:
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    case DW_TAG_array_type:
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      if (dwarf_aggregate_size (typedie, &size) != 0)
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	return -1;
Packit 032894
Packit 032894 
      /* If this qualifies as an homogeneous floating-point aggregate
Packit 032894 
	 (HFA), then it should be returned in FP regs. */
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      int nfpreg = hfa_type (typedie, size, locp, 0);
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      if (nfpreg < 0)
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	return nfpreg;
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      else if (nfpreg > 0 && nfpreg <= 8)
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	return nfpreg == 1 ? nloc_fpreg : nloc_fpregs (nfpreg);
Packit 032894
Packit 032894 
      if (size > 32)
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	goto large;
Packit 032894
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      goto intreg;
Packit 032894 
    }
Packit 032894
Packit 032894 
  /* XXX We don't have a good way to return specific errors from ebl calls.
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     This value means we do not understand the type, but it is well-formed
Packit 032894 
     DWARF and might be valid.  */
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  return -2;
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}

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