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/* Procedure integration for GNU CC.
   Copyright (C) 1988, 1991, 1993, 1994, 1995 Free Software Foundation, Inc.
   Contributed by Michael Tiemann (tiemann@cygnus.com)

This file is part of GNU CC.

GNU CC is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2, or (at your option)
any later version.

GNU CC is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with GNU CC; see the file COPYING.  If not, write to
the Free Software Foundation, 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.  */


#include <stdio.h>

#include "config.h"
#include "rtl.h"
#include "tree.h"
#include "flags.h"
#include "insn-config.h"
#include "insn-flags.h"
#include "expr.h"
#include "output.h"
#include "integrate.h"
#include "real.h"
#include "function.h"
#include "bytecode.h"

#include "obstack.h"
#define	obstack_chunk_alloc	xmalloc
#define	obstack_chunk_free	free

extern struct obstack *function_maybepermanent_obstack;

extern tree pushdecl ();
extern tree poplevel ();

/* Similar, but round to the next highest integer that meets the
   alignment.  */
#define CEIL_ROUND(VALUE,ALIGN)	(((VALUE) + (ALIGN) - 1) & ~((ALIGN)- 1))

/* Default max number of insns a function can have and still be inline.
   This is overridden on RISC machines.  */
#ifndef INTEGRATE_THRESHOLD
#define INTEGRATE_THRESHOLD(DECL) \
  (8 * (8 + list_length (DECL_ARGUMENTS (DECL))))
#endif

static rtx initialize_for_inline PROTO((tree, int, int, int, int));
static void finish_inline	PROTO((tree, rtx));
static void adjust_copied_decl_tree PROTO((tree));
static tree copy_decl_list	PROTO((tree));
static tree copy_decl_tree	PROTO((tree));
static void copy_decl_rtls	PROTO((tree));
static void save_constants	PROTO((rtx *));
static void note_modified_parmregs PROTO((rtx, rtx));
static rtx copy_for_inline	PROTO((rtx));
static void integrate_parm_decls PROTO((tree, struct inline_remap *, rtvec));
static void integrate_decl_tree	PROTO((tree, int, struct inline_remap *));
static void subst_constants	PROTO((rtx *, rtx, struct inline_remap *));
static void restore_constants	PROTO((rtx *));
static void set_block_origin_self PROTO((tree));
static void set_decl_origin_self PROTO((tree));
static void set_block_abstract_flags PROTO((tree, int));

void set_decl_abstract_flags	PROTO((tree, int));

/* Zero if the current function (whose FUNCTION_DECL is FNDECL)
   is safe and reasonable to integrate into other functions.
   Nonzero means value is a warning message with a single %s
   for the function's name.  */

char *
function_cannot_inline_p (fndecl)
     register tree fndecl;
{
  register rtx insn;
  tree last = tree_last (TYPE_ARG_TYPES (TREE_TYPE (fndecl)));
  int max_insns = INTEGRATE_THRESHOLD (fndecl);
  register int ninsns = 0;
  register tree parms;

  /* No inlines with varargs.  `grokdeclarator' gives a warning
     message about that if `inline' is specified.  This code
     it put in to catch the volunteers.  */
  if ((last && TREE_VALUE (last) != void_type_node)
      || current_function_varargs)
    return "varargs function cannot be inline";

  if (current_function_calls_alloca)
    return "function using alloca cannot be inline";

  if (current_function_contains_functions)
    return "function with nested functions cannot be inline";

  /* If its not even close, don't even look.  */
  if (!DECL_INLINE (fndecl) && get_max_uid () > 3 * max_insns)
    return "function too large to be inline";

#if 0
  /* Large stacks are OK now that inlined functions can share them.  */
  /* Don't inline functions with large stack usage,
     since they can make other recursive functions burn up stack.  */
  if (!DECL_INLINE (fndecl) && get_frame_size () > 100)
    return "function stack frame for inlining";
#endif

#if 0
  /* Don't inline functions which do not specify a function prototype and
     have BLKmode argument or take the address of a parameter.  */
  for (parms = DECL_ARGUMENTS (fndecl); parms; parms = TREE_CHAIN (parms))
    {
      if (TYPE_MODE (TREE_TYPE (parms)) == BLKmode)
	TREE_ADDRESSABLE (parms) = 1;
      if (last == NULL_TREE && TREE_ADDRESSABLE (parms))
	return "no prototype, and parameter address used; cannot be inline";
    }
#endif

  /* We can't inline functions that return structures
     the old-fashioned PCC way, copying into a static block.  */
  if (current_function_returns_pcc_struct)
    return "inline functions not supported for this return value type";

  /* We can't inline functions that return BLKmode structures in registers.  */
  if (TYPE_MODE (TREE_TYPE (TREE_TYPE (fndecl))) == BLKmode
      && ! aggregate_value_p (TREE_TYPE (TREE_TYPE (fndecl))))
    return "inline functions not supported for this return value type";

  /* We can't inline functions that return structures of varying size.  */
  if (int_size_in_bytes (TREE_TYPE (TREE_TYPE (fndecl))) < 0)
    return "function with varying-size return value cannot be inline";

  /* Cannot inline a function with a varying size argument or one that
     receives a transparent union.  */
  for (parms = DECL_ARGUMENTS (fndecl); parms; parms = TREE_CHAIN (parms))
    {
      if (int_size_in_bytes (TREE_TYPE (parms)) < 0)
	return "function with varying-size parameter cannot be inline";
      else if (TYPE_TRANSPARENT_UNION (TREE_TYPE (parms)))
	return "function with transparent unit parameter cannot be inline";
    }

  if (!DECL_INLINE (fndecl) && get_max_uid () > max_insns)
    {
      for (ninsns = 0, insn = get_first_nonparm_insn (); insn && ninsns < max_insns;
	   insn = NEXT_INSN (insn))
	{
	  if (GET_RTX_CLASS (GET_CODE (insn)) == 'i')
	    ninsns++;
	}

      if (ninsns >= max_insns)
	return "function too large to be inline";
    }

  /* We cannot inline this function if forced_labels is non-zero.  This
     implies that a label in this function was used as an initializer.
     Because labels can not be duplicated, all labels in the function
     will be renamed when it is inlined.  However, there is no way to find
     and fix all variables initialized with addresses of labels in this
     function, hence inlining is impossible.  */

  if (forced_labels)
    return "function with label addresses used in initializers cannot inline";

  /* We cannot inline a nested function that jumps to a nonlocal label.  */
  if (current_function_has_nonlocal_goto)
    return "function with nonlocal goto cannot be inline";

  return 0;
}

/* Variables used within save_for_inline.  */

/* Mapping from old pseudo-register to new pseudo-registers.
   The first element of this map is reg_map[FIRST_PSEUDO_REGISTER].
   It is allocated in `save_for_inline' and `expand_inline_function',
   and deallocated on exit from each of those routines.  */
static rtx *reg_map;

/* Mapping from old code-labels to new code-labels.
   The first element of this map is label_map[min_labelno].
   It is allocated in `save_for_inline' and `expand_inline_function',
   and deallocated on exit from each of those routines.  */
static rtx *label_map;

/* Mapping from old insn uid's to copied insns.
   It is allocated in `save_for_inline' and `expand_inline_function',
   and deallocated on exit from each of those routines.  */
static rtx *insn_map;

/* Map pseudo reg number into the PARM_DECL for the parm living in the reg.
   Zero for a reg that isn't a parm's home.
   Only reg numbers less than max_parm_reg are mapped here.  */
static tree *parmdecl_map;

/* Keep track of first pseudo-register beyond those that are parms.  */
static int max_parm_reg;

/* When an insn is being copied by copy_for_inline,
   this is nonzero if we have copied an ASM_OPERANDS.
   In that case, it is the original input-operand vector.  */
static rtvec orig_asm_operands_vector;

/* When an insn is being copied by copy_for_inline,
   this is nonzero if we have copied an ASM_OPERANDS.
   In that case, it is the copied input-operand vector.  */
static rtvec copy_asm_operands_vector;

/* Likewise, this is the copied constraints vector.  */
static rtvec copy_asm_constraints_vector;

/* In save_for_inline, nonzero if past the parm-initialization insns.  */
static int in_nonparm_insns;

/* Subroutine for `save_for_inline{copying,nocopy}'.  Performs initialization
   needed to save FNDECL's insns and info for future inline expansion.  */
   
static rtx
initialize_for_inline (fndecl, min_labelno, max_labelno, max_reg, copy)
     tree fndecl;
     int min_labelno;
     int max_labelno;
     int max_reg;
     int copy;
{
  int function_flags, i;
  rtvec arg_vector;
  tree parms;

  /* Compute the values of any flags we must restore when inlining this.  */

  function_flags
    = (current_function_calls_alloca * FUNCTION_FLAGS_CALLS_ALLOCA
       + current_function_calls_setjmp * FUNCTION_FLAGS_CALLS_SETJMP
       + current_function_calls_longjmp * FUNCTION_FLAGS_CALLS_LONGJMP
       + current_function_returns_struct * FUNCTION_FLAGS_RETURNS_STRUCT
       + current_function_returns_pcc_struct * FUNCTION_FLAGS_RETURNS_PCC_STRUCT
       + current_function_needs_context * FUNCTION_FLAGS_NEEDS_CONTEXT
       + current_function_has_nonlocal_label * FUNCTION_FLAGS_HAS_NONLOCAL_LABEL
       + current_function_returns_pointer * FUNCTION_FLAGS_RETURNS_POINTER
       + current_function_uses_const_pool * FUNCTION_FLAGS_USES_CONST_POOL
       + current_function_uses_pic_offset_table * FUNCTION_FLAGS_USES_PIC_OFFSET_TABLE);

  /* Clear out PARMDECL_MAP.  It was allocated in the caller's frame.  */
  bzero ((char *) parmdecl_map, max_parm_reg * sizeof (tree));
  arg_vector = rtvec_alloc (list_length (DECL_ARGUMENTS (fndecl)));

  for (parms = DECL_ARGUMENTS (fndecl), i = 0;
       parms;
       parms = TREE_CHAIN (parms), i++)
    {
      rtx p = DECL_RTL (parms);

      if (GET_CODE (p) == MEM && copy)
	{
	  /* Copy the rtl so that modifications of the addresses
	     later in compilation won't affect this arg_vector.
	     Virtual register instantiation can screw the address
	     of the rtl.  */
	  rtx new = copy_rtx (p);

	  /* Don't leave the old copy anywhere in this decl.  */
	  if (DECL_RTL (parms) == DECL_INCOMING_RTL (parms)
	      || (GET_CODE (DECL_RTL (parms)) == MEM
		  && GET_CODE (DECL_INCOMING_RTL (parms)) == MEM
		  && (XEXP (DECL_RTL (parms), 0)
		      == XEXP (DECL_INCOMING_RTL (parms), 0))))
	    DECL_INCOMING_RTL (parms) = new;
	  DECL_RTL (parms) = new;
	}

      RTVEC_ELT (arg_vector, i) = p;

      if (GET_CODE (p) == REG)
	parmdecl_map[REGNO (p)] = parms;
      else if (GET_CODE (p) == CONCAT)
	{
	  rtx preal = gen_realpart (GET_MODE (XEXP (p, 0)), p);
	  rtx pimag = gen_imagpart (GET_MODE (preal), p);

	  if (GET_CODE (preal) == REG)
	    parmdecl_map[REGNO (preal)] = parms;
	  if (GET_CODE (pimag) == REG)
	    parmdecl_map[REGNO (pimag)] = parms;
	}

      /* This flag is cleared later
	 if the function ever modifies the value of the parm.  */
      TREE_READONLY (parms) = 1;
    }

  /* Assume we start out in the insns that set up the parameters.  */
  in_nonparm_insns = 0;

  /* The list of DECL_SAVED_INSNS, starts off with a header which
     contains the following information:

     the first insn of the function (not including the insns that copy
     parameters into registers).
     the first parameter insn of the function,
     the first label used by that function,
     the last label used by that function,
     the highest register number used for parameters,
     the total number of registers used,
     the size of the incoming stack area for parameters,
     the number of bytes popped on return,
     the stack slot list,
     some flags that are used to restore compiler globals,
     the value of current_function_outgoing_args_size,
     the original argument vector,
     and the original DECL_INITIAL.  */

  return gen_inline_header_rtx (NULL_RTX, NULL_RTX, min_labelno, max_labelno,
				max_parm_reg, max_reg,
				current_function_args_size,
				current_function_pops_args,
				stack_slot_list, forced_labels, function_flags,
				current_function_outgoing_args_size,
				arg_vector, (rtx) DECL_INITIAL (fndecl));
}

/* Subroutine for `save_for_inline{copying,nocopy}'.  Finishes up the
   things that must be done to make FNDECL expandable as an inline function.
   HEAD contains the chain of insns to which FNDECL will expand.  */
   
static void
finish_inline (fndecl, head)
     tree fndecl;
     rtx head;
{
  NEXT_INSN (head) = get_first_nonparm_insn ();
  FIRST_PARM_INSN (head) = get_insns ();
  DECL_SAVED_INSNS (fndecl) = head;
  DECL_FRAME_SIZE (fndecl) = get_frame_size ();
}

/* Adjust the BLOCK_END_NOTE pointers in a given copied DECL tree so that
   they all point to the new (copied) rtxs.  */

static void
adjust_copied_decl_tree (block)
     register tree block;
{
  register tree subblock;
  register rtx original_end;

  original_end = BLOCK_END_NOTE (block);
  if (original_end)
    {
      BLOCK_END_NOTE (block) = (rtx) NOTE_SOURCE_FILE (original_end);
      NOTE_SOURCE_FILE (original_end) = 0;
    }

  /* Process all subblocks.  */
  for (subblock = BLOCK_SUBBLOCKS (block);
       subblock;
       subblock = TREE_CHAIN (subblock))
    adjust_copied_decl_tree (subblock);
}

/* Make the insns and PARM_DECLs of the current function permanent
   and record other information in DECL_SAVED_INSNS to allow inlining
   of this function in subsequent calls.

   This function is called when we are going to immediately compile
   the insns for FNDECL.  The insns in maybepermanent_obstack cannot be
   modified by the compilation process, so we copy all of them to
   new storage and consider the new insns to be the insn chain to be
   compiled.  Our caller (rest_of_compilation) saves the original
   DECL_INITIAL and DECL_ARGUMENTS; here we copy them.  */

/* ??? The nonlocal_label list should be adjusted also.  However, since
   a function that contains a nested function never gets inlined currently,
   the nonlocal_label list will always be empty, so we don't worry about
   it for now.  */

void
save_for_inline_copying (fndecl)
     tree fndecl;
{
  rtx first_insn, last_insn, insn;
  rtx head, copy;
  int max_labelno, min_labelno, i, len;
  int max_reg;
  int max_uid;
  rtx first_nonparm_insn;

  /* Make and emit a return-label if we have not already done so. 
     Do this before recording the bounds on label numbers. */

  if (return_label == 0)
    {
      return_label = gen_label_rtx ();
      emit_label (return_label);
    }

  /* Get some bounds on the labels and registers used.  */

  max_labelno = max_label_num ();
  min_labelno = get_first_label_num ();
  max_reg = max_reg_num ();

  /* Set up PARMDECL_MAP which maps pseudo-reg number to its PARM_DECL.
     Later we set TREE_READONLY to 0 if the parm is modified inside the fn.
     Also set up ARG_VECTOR, which holds the unmodified DECL_RTX values
     for the parms, prior to elimination of virtual registers.
     These values are needed for substituting parms properly.  */

  max_parm_reg = max_parm_reg_num ();
  parmdecl_map = (tree *) alloca (max_parm_reg * sizeof (tree));

  head = initialize_for_inline (fndecl, min_labelno, max_labelno, max_reg, 1);

  if (current_function_uses_const_pool)
    {
      /* Replace any constant pool references with the actual constant.  We
	 will put the constants back in the copy made below.  */
      for (insn = get_insns (); insn; insn = NEXT_INSN (insn))
	if (GET_RTX_CLASS (GET_CODE (insn)) == 'i')
	  {
	    save_constants (&PATTERN (insn));
	    if (REG_NOTES (insn))
	      save_constants (&REG_NOTES (insn));
	  }

      /* Clear out the constant pool so that we can recreate it with the
	 copied constants below.  */
      init_const_rtx_hash_table ();
      clear_const_double_mem ();
    }

  max_uid = INSN_UID (head);

  /* We have now allocated all that needs to be allocated permanently
     on the rtx obstack.  Set our high-water mark, so that we
     can free the rest of this when the time comes.  */

  preserve_data ();

  /* Copy the chain insns of this function.
     Install the copied chain as the insns of this function,
     for continued compilation;
     the original chain is recorded as the DECL_SAVED_INSNS
     for inlining future calls.  */

  /* If there are insns that copy parms from the stack into pseudo registers,
     those insns are not copied.  `expand_inline_function' must
     emit the correct code to handle such things.  */

  insn = get_insns ();
  if (GET_CODE (insn) != NOTE)
    abort ();
  first_insn = rtx_alloc (NOTE);
  NOTE_SOURCE_FILE (first_insn) = NOTE_SOURCE_FILE (insn);
  NOTE_LINE_NUMBER (first_insn) = NOTE_LINE_NUMBER (insn);
  INSN_UID (first_insn) = INSN_UID (insn);
  PREV_INSN (first_insn) = NULL;
  NEXT_INSN (first_insn) = NULL;
  last_insn = first_insn;

  /* Each pseudo-reg in the old insn chain must have a unique rtx in the copy.
     Make these new rtx's now, and install them in regno_reg_rtx, so they
     will be the official pseudo-reg rtx's for the rest of compilation.  */

  reg_map = (rtx *) alloca ((max_reg + 1) * sizeof (rtx));

  len = sizeof (struct rtx_def) + (GET_RTX_LENGTH (REG) - 1) * sizeof (rtunion);
  for (i = max_reg - 1; i > LAST_VIRTUAL_REGISTER; i--)
    reg_map[i] = (rtx)obstack_copy (function_maybepermanent_obstack,
				    regno_reg_rtx[i], len);

  bcopy ((char *) (reg_map + LAST_VIRTUAL_REGISTER + 1),
	 (char *) (regno_reg_rtx + LAST_VIRTUAL_REGISTER + 1),
	 (max_reg - (LAST_VIRTUAL_REGISTER + 1)) * sizeof (rtx));

  /* Likewise each label rtx must have a unique rtx as its copy.  */

  label_map = (rtx *)alloca ((max_labelno - min_labelno) * sizeof (rtx));
  label_map -= min_labelno;

  for (i = min_labelno; i < max_labelno; i++)
    label_map[i] = gen_label_rtx ();

  /* Record the mapping of old insns to copied insns.  */

  insn_map = (rtx *) alloca (max_uid * sizeof (rtx));
  bzero ((char *) insn_map, max_uid * sizeof (rtx));

  /* Get the insn which signals the end of parameter setup code.  */
  first_nonparm_insn = get_first_nonparm_insn ();

  /* Copy any entries in regno_reg_rtx or DECL_RTLs that reference MEM
     (the former occurs when a variable has its address taken)
     since these may be shared and can be changed by virtual
     register instantiation.  DECL_RTL values for our arguments
     have already been copied by initialize_for_inline.  */
  for (i = LAST_VIRTUAL_REGISTER + 1; i < max_reg; i++)
    if (GET_CODE (regno_reg_rtx[i]) == MEM)
      XEXP (regno_reg_rtx[i], 0)
	= copy_for_inline (XEXP (regno_reg_rtx[i], 0));

  /* Copy the tree of subblocks of the function, and the decls in them.
     We will use the copy for compiling this function, then restore the original
     subblocks and decls for use when inlining this function.

     Several parts of the compiler modify BLOCK trees.  In particular,
     instantiate_virtual_regs will instantiate any virtual regs
     mentioned in the DECL_RTLs of the decls, and loop
     unrolling will replicate any BLOCK trees inside an unrolled loop.

     The modified subblocks or DECL_RTLs would be incorrect for the original rtl
     which we will use for inlining.  The rtl might even contain pseudoregs
     whose space has been freed.  */

  DECL_INITIAL (fndecl) = copy_decl_tree (DECL_INITIAL (fndecl));
  DECL_ARGUMENTS (fndecl) = copy_decl_list (DECL_ARGUMENTS (fndecl));

  /* Now copy each DECL_RTL which is a MEM,
     so it is safe to modify their addresses.  */
  copy_decl_rtls (DECL_INITIAL (fndecl));

  /* The fndecl node acts as its own progenitor, so mark it as such.  */
  DECL_ABSTRACT_ORIGIN (fndecl) = fndecl;

  /* Now copy the chain of insns.  Do this twice.  The first copy the insn
     itself and its body.  The second time copy of REG_NOTES.  This is because
     a REG_NOTE may have a forward pointer to another insn.  */

  for (insn = NEXT_INSN (insn); insn; insn = NEXT_INSN (insn))
    {
      orig_asm_operands_vector = 0;

      if (insn == first_nonparm_insn)
	in_nonparm_insns = 1;

      switch (GET_CODE (insn))
	{
	case NOTE:
	  /* No need to keep these.  */
	  if (NOTE_LINE_NUMBER (insn) == NOTE_INSN_DELETED)
	    continue;

	  copy = rtx_alloc (NOTE);
	  NOTE_LINE_NUMBER (copy) = NOTE_LINE_NUMBER (insn);
	  if (NOTE_LINE_NUMBER (insn) != NOTE_INSN_BLOCK_END)
	    NOTE_SOURCE_FILE (copy) = NOTE_SOURCE_FILE (insn);
	  else
	    {
	      NOTE_SOURCE_FILE (insn) = (char *) copy;
	      NOTE_SOURCE_FILE (copy) = 0;
	    }
	  break;

	case INSN:
	case JUMP_INSN:
	case CALL_INSN:
	  copy = rtx_alloc (GET_CODE (insn));

	  if (GET_CODE (insn) == CALL_INSN)
	    CALL_INSN_FUNCTION_USAGE (copy) =
	           copy_for_inline (CALL_INSN_FUNCTION_USAGE (insn));

	  PATTERN (copy) = copy_for_inline (PATTERN (insn));
	  INSN_CODE (copy) = -1;
	  LOG_LINKS (copy) = NULL_RTX;
	  RTX_INTEGRATED_P (copy) = RTX_INTEGRATED_P (insn);
	  break;

	case CODE_LABEL:
	  copy = label_map[CODE_LABEL_NUMBER (insn)];
	  LABEL_NAME (copy) = LABEL_NAME (insn);
	  break;

	case BARRIER:
	  copy = rtx_alloc (BARRIER);
	  break;

	default:
	  abort ();
	}
      INSN_UID (copy) = INSN_UID (insn);
      insn_map[INSN_UID (insn)] = copy;
      NEXT_INSN (last_insn) = copy;
      PREV_INSN (copy) = last_insn;
      last_insn = copy;
    }

  adjust_copied_decl_tree (DECL_INITIAL (fndecl));

  /* Now copy the REG_NOTES.  */
  for (insn = NEXT_INSN (get_insns ()); insn; insn = NEXT_INSN (insn))
    if (GET_RTX_CLASS (GET_CODE (insn)) == 'i'
	&& insn_map[INSN_UID(insn)])
      REG_NOTES (insn_map[INSN_UID (insn)])
	= copy_for_inline (REG_NOTES (insn));

  NEXT_INSN (last_insn) = NULL;

  finish_inline (fndecl, head);

  set_new_first_and_last_insn (first_insn, last_insn);
}

/* Return a copy of a chain of nodes, chained through the TREE_CHAIN field.
   For example, this can copy a list made of TREE_LIST nodes.  While copying,
   for each node copied which doesn't already have is DECL_ABSTRACT_ORIGIN
   set to some non-zero value, set the DECL_ABSTRACT_ORIGIN of the copy to
   point to the corresponding (abstract) original node.  */

static tree
copy_decl_list (list)
     tree list;
{
  tree head;
  register tree prev, next;

  if (list == 0)
    return 0;

  head = prev = copy_node (list);
  if (DECL_ABSTRACT_ORIGIN (head) == NULL_TREE)
    DECL_ABSTRACT_ORIGIN (head) = list;
  next = TREE_CHAIN (list);
  while (next)
    {
      register tree copy;

      copy = copy_node (next);
      if (DECL_ABSTRACT_ORIGIN (copy) == NULL_TREE)
	DECL_ABSTRACT_ORIGIN (copy) = next;
      TREE_CHAIN (prev) = copy;
      prev = copy;
      next = TREE_CHAIN (next);
    }
  return head;
}

/* Make a copy of the entire tree of blocks BLOCK, and return it.  */

static tree
copy_decl_tree (block)
     tree block;
{
  tree t, vars, subblocks;

  vars = copy_decl_list (BLOCK_VARS (block));
  subblocks = 0;

  /* Process all subblocks.  */
  for (t = BLOCK_SUBBLOCKS (block); t; t = TREE_CHAIN (t))
    {
      tree copy = copy_decl_tree (t);
      TREE_CHAIN (copy) = subblocks;
      subblocks = copy;
    }

  t = copy_node (block);
  BLOCK_VARS (t) = vars;
  BLOCK_SUBBLOCKS (t) = nreverse (subblocks);
  /* If the BLOCK being cloned is already marked as having been instantiated
     from something else, then leave that `origin' marking alone.  Elsewise,
     mark the clone as having originated from the BLOCK we are cloning.  */
  if (BLOCK_ABSTRACT_ORIGIN (t) == NULL_TREE)
    BLOCK_ABSTRACT_ORIGIN (t) = block;
  return t;
}

/* Copy DECL_RTLs in all decls in the given BLOCK node.  */

static void
copy_decl_rtls (block)
     tree block;
{
  tree t;

  for (t = BLOCK_VARS (block); t; t = TREE_CHAIN (t))
    if (DECL_RTL (t) && GET_CODE (DECL_RTL (t)) == MEM)
      DECL_RTL (t) = copy_for_inline (DECL_RTL (t));

  /* Process all subblocks.  */
  for (t = BLOCK_SUBBLOCKS (block); t; t = TREE_CHAIN (t))
    copy_decl_rtls (t);
}

/* Make the insns and PARM_DECLs of the current function permanent
   and record other information in DECL_SAVED_INSNS to allow inlining
   of this function in subsequent calls.

   This routine need not copy any insns because we are not going
   to immediately compile the insns in the insn chain.  There
   are two cases when we would compile the insns for FNDECL:
   (1) when FNDECL is expanded inline, and (2) when FNDECL needs to
   be output at the end of other compilation, because somebody took
   its address.  In the first case, the insns of FNDECL are copied
   as it is expanded inline, so FNDECL's saved insns are not
   modified.  In the second case, FNDECL is used for the last time,
   so modifying the rtl is not a problem.

   ??? Actually, we do not verify that FNDECL is not inline expanded
   by other functions which must also be written down at the end
   of compilation.  We could set flag_no_inline to nonzero when
   the time comes to write down such functions.  */

void
save_for_inline_nocopy (fndecl)
     tree fndecl;
{
  rtx insn;
  rtx head;
  rtx first_nonparm_insn;

  /* Set up PARMDECL_MAP which maps pseudo-reg number to its PARM_DECL.
     Later we set TREE_READONLY to 0 if the parm is modified inside the fn.
     Also set up ARG_VECTOR, which holds the unmodified DECL_RTX values
     for the parms, prior to elimination of virtual registers.
     These values are needed for substituting parms properly.  */

  max_parm_reg = max_parm_reg_num ();
  parmdecl_map = (tree *) alloca (max_parm_reg * sizeof (tree));

  /* Make and emit a return-label if we have not already done so.  */

  if (return_label == 0)
    {
      return_label = gen_label_rtx ();
      emit_label (return_label);
    }

  head = initialize_for_inline (fndecl, get_first_label_num (),
				max_label_num (), max_reg_num (), 0);

  /* If there are insns that copy parms from the stack into pseudo registers,
     those insns are not copied.  `expand_inline_function' must
     emit the correct code to handle such things.  */

  insn = get_insns ();
  if (GET_CODE (insn) != NOTE)
    abort ();

  /* Get the insn which signals the end of parameter setup code.  */
  first_nonparm_insn = get_first_nonparm_insn ();

  /* Now just scan the chain of insns to see what happens to our
     PARM_DECLs.  If a PARM_DECL is used but never modified, we
     can substitute its rtl directly when expanding inline (and
     perform constant folding when its incoming value is constant).
     Otherwise, we have to copy its value into a new register and track
     the new register's life.  */

  for (insn = NEXT_INSN (insn); insn; insn = NEXT_INSN (insn))
    {
      if (insn == first_nonparm_insn)
	in_nonparm_insns = 1;

      if (GET_RTX_CLASS (GET_CODE (insn)) == 'i')
	{
	  if (current_function_uses_const_pool)
	    {
	      /* Replace any constant pool references with the actual constant.
		 We will put the constant back if we need to write the
		 function out after all.  */
	      save_constants (&PATTERN (insn));
	      if (REG_NOTES (insn))
		save_constants (&REG_NOTES (insn));
	    }

	  /* Record what interesting things happen to our parameters.  */
	  note_stores (PATTERN (insn), note_modified_parmregs);
	}
    }

  /* We have now allocated all that needs to be allocated permanently
     on the rtx obstack.  Set our high-water mark, so that we
     can free the rest of this when the time comes.  */

  preserve_data ();

  finish_inline (fndecl, head);
}

/* Given PX, a pointer into an insn, search for references to the constant
   pool.  Replace each with a CONST that has the mode of the original
   constant, contains the constant, and has RTX_INTEGRATED_P set.
   Similarly, constant pool addresses not enclosed in a MEM are replaced
   with an ADDRESS rtx which also gives the constant, mode, and has
   RTX_INTEGRATED_P set.  */

static void
save_constants (px)
     rtx *px;
{
  rtx x;
  int i, j;

 again:
  x = *px;

  /* If this is a CONST_DOUBLE, don't try to fix things up in 
     CONST_DOUBLE_MEM, because this is an infinite recursion.  */
  if (GET_CODE (x) == CONST_DOUBLE)
    return;
  else if (GET_CODE (x) == MEM && GET_CODE (XEXP (x, 0)) == SYMBOL_REF
	   && CONSTANT_POOL_ADDRESS_P (XEXP (x,0)))
    {
      enum machine_mode const_mode = get_pool_mode (XEXP (x, 0));
      rtx new = gen_rtx (CONST, const_mode, get_pool_constant (XEXP (x, 0)));
      RTX_INTEGRATED_P (new) = 1;

      /* If the MEM was in a different mode than the constant (perhaps we
	 were only looking at the low-order part), surround it with a 
	 SUBREG so we can save both modes.  */

      if (GET_MODE (x) != const_mode)
	{
	  new = gen_rtx (SUBREG, GET_MODE (x), new, 0);
	  RTX_INTEGRATED_P (new) = 1;
	}

      *px = new;
      save_constants (&XEXP (*px, 0));
    }
  else if (GET_CODE (x) == SYMBOL_REF
	   && CONSTANT_POOL_ADDRESS_P (x))
    {
      *px = gen_rtx (ADDRESS, get_pool_mode (x), get_pool_constant (x));
      save_constants (&XEXP (*px, 0));
      RTX_INTEGRATED_P (*px) = 1;
    }

  else
    {
      char *fmt = GET_RTX_FORMAT (GET_CODE (x));
      int len = GET_RTX_LENGTH (GET_CODE (x));

      for (i = len-1; i >= 0; i--)
	{
	  switch (fmt[i])
	    {
	    case 'E':
	      for (j = 0; j < XVECLEN (x, i); j++)
		save_constants (&XVECEXP (x, i, j));
	      break;

	    case 'e':
	      if (XEXP (x, i) == 0)
		continue;
	      if (i == 0)
		{
		  /* Hack tail-recursion here.  */
		  px = &XEXP (x, 0);
		  goto again;
		}
	      save_constants (&XEXP (x, i));
	      break;
	    }
	}
    }
}

/* Note whether a parameter is modified or not.  */

static void
note_modified_parmregs (reg, x)
     rtx reg;
     rtx x;
{
  if (GET_CODE (reg) == REG && in_nonparm_insns
      && REGNO (reg) < max_parm_reg
      && REGNO (reg) >= FIRST_PSEUDO_REGISTER
      && parmdecl_map[REGNO (reg)] != 0)
    TREE_READONLY (parmdecl_map[REGNO (reg)]) = 0;
}

/* Copy the rtx ORIG recursively, replacing pseudo-regs and labels
   according to `reg_map' and `label_map'.  The original rtl insns
   will be saved for inlining; this is used to make a copy
   which is used to finish compiling the inline function itself.

   If we find a "saved" constant pool entry, one which was replaced with
   the value of the constant, convert it back to a constant pool entry.
   Since the pool wasn't touched, this should simply restore the old
   address.

   All other kinds of rtx are copied except those that can never be
   changed during compilation.  */

static rtx
copy_for_inline (orig)
     rtx orig;
{
  register rtx x = orig;
  register int i;
  register enum rtx_code code;
  register char *format_ptr;

  if (x == 0)
    return x;

  code = GET_CODE (x);

  /* These types may be freely shared.  */

  switch (code)
    {
    case QUEUED:
    case CONST_INT:
    case SYMBOL_REF:
    case PC:
    case CC0:
      return x;

    case CONST_DOUBLE:
      /* We have to make a new CONST_DOUBLE to ensure that we account for
	 it correctly.  Using the old CONST_DOUBLE_MEM data is wrong.  */
      if (GET_MODE_CLASS (GET_MODE (x)) == MODE_FLOAT)
	{
	  REAL_VALUE_TYPE d;

	  REAL_VALUE_FROM_CONST_DOUBLE (d, x);
	  return CONST_DOUBLE_FROM_REAL_VALUE (d, GET_MODE (x));
	}
      else
	return immed_double_const (CONST_DOUBLE_LOW (x), CONST_DOUBLE_HIGH (x),
				   VOIDmode);

    case CONST:
      /* Get constant pool entry for constant in the pool.  */
      if (RTX_INTEGRATED_P (x))
	return validize_mem (force_const_mem (GET_MODE (x),
					      copy_for_inline (XEXP (x, 0))));
      break;

    case SUBREG:
      /* Get constant pool entry, but access in different mode.  */
      if (RTX_INTEGRATED_P (x))
	{
	  rtx new
	    = force_const_mem (GET_MODE (SUBREG_REG (x)),
			       copy_for_inline (XEXP (SUBREG_REG (x), 0)));

	  PUT_MODE (new, GET_MODE (x));
	  return validize_mem (new);
	}
      break;

    case ADDRESS:
      /* If not special for constant pool error.  Else get constant pool
	 address.  */
      if (! RTX_INTEGRATED_P (x))
	abort ();

      return XEXP (force_const_mem (GET_MODE (x),
				    copy_for_inline (XEXP (x, 0))), 0);

    case ASM_OPERANDS:
      /* If a single asm insn contains multiple output operands
	 then it contains multiple ASM_OPERANDS rtx's that share operand 3.
	 We must make sure that the copied insn continues to share it.  */
      if (orig_asm_operands_vector == XVEC (orig, 3))
	{
	  x = rtx_alloc (ASM_OPERANDS);
	  x->volatil = orig->volatil;
	  XSTR (x, 0) = XSTR (orig, 0);
	  XSTR (x, 1) = XSTR (orig, 1);
	  XINT (x, 2) = XINT (orig, 2);
	  XVEC (x, 3) = copy_asm_operands_vector;
	  XVEC (x, 4) = copy_asm_constraints_vector;
	  XSTR (x, 5) = XSTR (orig, 5);
	  XINT (x, 6) = XINT (orig, 6);
	  return x;
	}
      break;

    case MEM:
      /* A MEM is usually allowed to be shared if its address is constant
	 or is a constant plus one of the special registers.

	 We do not allow sharing of addresses that are either a special
	 register or the sum of a constant and a special register because
	 it is possible for unshare_all_rtl to copy the address, into memory
	 that won't be saved.  Although the MEM can safely be shared, and
	 won't be copied there, the address itself cannot be shared, and may
	 need to be copied. 

	 There are also two exceptions with constants: The first is if the
	 constant is a LABEL_REF or the sum of the LABEL_REF
	 and an integer.  This case can happen if we have an inline
	 function that supplies a constant operand to the call of another
	 inline function that uses it in a switch statement.  In this case,
	 we will be replacing the LABEL_REF, so we have to replace this MEM
	 as well.

	 The second case is if we have a (const (plus (address ..) ...)).
	 In that case we need to put back the address of the constant pool
	 entry.  */

      if (CONSTANT_ADDRESS_P (XEXP (x, 0))
	  && GET_CODE (XEXP (x, 0)) != LABEL_REF
	  && ! (GET_CODE (XEXP (x, 0)) == CONST
		&& (GET_CODE (XEXP (XEXP (x, 0), 0)) == PLUS
		    && ((GET_CODE (XEXP (XEXP (XEXP (x, 0), 0), 0))
			== LABEL_REF)
			|| (GET_CODE (XEXP (XEXP (XEXP (x, 0), 0), 0))
			    == ADDRESS)))))
	return x;
      break;

    case LABEL_REF:
      /* If this is a non-local label, just make a new LABEL_REF.
	 Otherwise, use the new label as well.  */
      x = gen_rtx (LABEL_REF, GET_MODE (orig),
		   LABEL_REF_NONLOCAL_P (orig) ? XEXP (orig, 0)
		   : label_map[CODE_LABEL_NUMBER (XEXP (orig, 0))]);
      LABEL_REF_NONLOCAL_P (x) = LABEL_REF_NONLOCAL_P (orig);
      LABEL_OUTSIDE_LOOP_P (x) = LABEL_OUTSIDE_LOOP_P (orig);
      return x;

    case REG:
      if (REGNO (x) > LAST_VIRTUAL_REGISTER)
	return reg_map [REGNO (x)];
      else
	return x;

    case SET:
      /* If a parm that gets modified lives in a pseudo-reg,
	 clear its TREE_READONLY to prevent certain optimizations.  */
      {
	rtx dest = SET_DEST (x);

	while (GET_CODE (dest) == STRICT_LOW_PART
	       || GET_CODE (dest) == ZERO_EXTRACT
	       || GET_CODE (dest) == SUBREG)
	  dest = XEXP (dest, 0);

	if (GET_CODE (dest) == REG
	    && REGNO (dest) < max_parm_reg
	    && REGNO (dest) >= FIRST_PSEUDO_REGISTER
	    && parmdecl_map[REGNO (dest)] != 0
	    /* The insn to load an arg pseudo from a stack slot
	       does not count as modifying it.  */
	    && in_nonparm_insns)
	  TREE_READONLY (parmdecl_map[REGNO (dest)]) = 0;
      }
      break;

#if 0 /* This is a good idea, but here is the wrong place for it.  */
      /* Arrange that CONST_INTs always appear as the second operand
	 if they appear, and that `frame_pointer_rtx' or `arg_pointer_rtx'
	 always appear as the first.  */
    case PLUS:
      if (GET_CODE (XEXP (x, 0)) == CONST_INT
	  || (XEXP (x, 1) == frame_pointer_rtx
	      || (ARG_POINTER_REGNUM != FRAME_POINTER_REGNUM
		  && XEXP (x, 1) == arg_pointer_rtx)))
	{
	  rtx t = XEXP (x, 0);
	  XEXP (x, 0) = XEXP (x, 1);
	  XEXP (x, 1) = t;
	}
      break;
#endif
    }

  /* Replace this rtx with a copy of itself.  */

  x = rtx_alloc (code);
  bcopy ((char *) orig, (char *) x,
	 (sizeof (*x) - sizeof (x->fld)
	  + sizeof (x->fld[0]) * GET_RTX_LENGTH (code)));

  /* Now scan the subexpressions recursively.
     We can store any replaced subexpressions directly into X
     since we know X is not shared!  Any vectors in X
     must be copied if X was copied.  */

  format_ptr = GET_RTX_FORMAT (code);

  for (i = 0; i < GET_RTX_LENGTH (code); i++)
    {
      switch (*format_ptr++)
	{
	case 'e':
	  XEXP (x, i) = copy_for_inline (XEXP (x, i));
	  break;

	case 'u':
	  /* Change any references to old-insns to point to the
	     corresponding copied insns.  */
	  XEXP (x, i) = insn_map[INSN_UID (XEXP (x, i))];
	  break;

	case 'E':
	  if (XVEC (x, i) != NULL && XVECLEN (x, i) != 0)
	    {
	      register int j;

	      XVEC (x, i) = gen_rtvec_v (XVECLEN (x, i), &XVECEXP (x, i, 0));
	      for (j = 0; j < XVECLEN (x, i); j++)
		XVECEXP (x, i, j)
		  = copy_for_inline (XVECEXP (x, i, j));
	    }
	  break;
	}
    }

  if (code == ASM_OPERANDS && orig_asm_operands_vector == 0)
    {
      orig_asm_operands_vector = XVEC (orig, 3);
      copy_asm_operands_vector = XVEC (x, 3);
      copy_asm_constraints_vector = XVEC (x, 4);
    }

  return x;
}

/* Unfortunately, we need a global copy of const_equiv map for communication
   with a function called from note_stores.  Be *very* careful that this
   is used properly in the presence of recursion.  */

rtx *global_const_equiv_map;
int global_const_equiv_map_size;

#define FIXED_BASE_PLUS_P(X) \
  (GET_CODE (X) == PLUS && GET_CODE (XEXP (X, 1)) == CONST_INT	\
   && GET_CODE (XEXP (X, 0)) == REG				\
   && REGNO (XEXP (X, 0)) >= FIRST_VIRTUAL_REGISTER		\
   && REGNO (XEXP (X, 0)) <= LAST_VIRTUAL_REGISTER)

/* Integrate the procedure defined by FNDECL.  Note that this function
   may wind up calling itself.  Since the static variables are not
   reentrant, we do not assign them until after the possibility
   of recursion is eliminated.

   If IGNORE is nonzero, do not produce a value.
   Otherwise store the value in TARGET if it is nonzero and that is convenient.

   Value is:
   (rtx)-1 if we could not substitute the function
   0 if we substituted it and it does not produce a value
   else an rtx for where the value is stored.  */

rtx
expand_inline_function (fndecl, parms, target, ignore, type, structure_value_addr)
     tree fndecl, parms;
     rtx target;
     int ignore;
     tree type;
     rtx structure_value_addr;
{
  tree formal, actual, block;
  rtx header = DECL_SAVED_INSNS (fndecl);
  rtx insns = FIRST_FUNCTION_INSN (header);
  rtx parm_insns = FIRST_PARM_INSN (header);
  tree *arg_trees;
  rtx *arg_vals;
  rtx insn;
  int max_regno;
  register int i;
  int min_labelno = FIRST_LABELNO (header);
  int max_labelno = LAST_LABELNO (header);
  int nargs;
  rtx local_return_label = 0;
  rtx loc;
  rtx stack_save = 0;
  rtx temp;
  struct inline_remap *map;
  rtx cc0_insn = 0;
  rtvec arg_vector = ORIGINAL_ARG_VECTOR (header);
  rtx static_chain_value = 0;

  /* Allow for equivalences of the pseudos we make for virtual fp and ap.  */
  max_regno = MAX_REGNUM (header) + 3;
  if (max_regno < FIRST_PSEUDO_REGISTER)
    abort ();

  nargs = list_length (DECL_ARGUMENTS (fndecl));

  /* Check that the parms type match and that sufficient arguments were
     passed.  Since the appropriate conversions or default promotions have
     already been applied, the machine modes should match exactly.  */

  for (formal = DECL_ARGUMENTS (fndecl),
       actual = parms;
       formal;
       formal = TREE_CHAIN (formal),
       actual = TREE_CHAIN (actual))
    {
      tree arg;
      enum machine_mode mode;

      if (actual == 0)
	return (rtx) (HOST_WIDE_INT) -1;

      arg = TREE_VALUE (actual);
      mode= TYPE_MODE (DECL_ARG_TYPE (formal));

      if (mode != TYPE_MODE (TREE_TYPE (arg))
	  /* If they are block mode, the types should match exactly.
	     They don't match exactly if TREE_TYPE (FORMAL) == ERROR_MARK_NODE,
	     which could happen if the parameter has incomplete type.  */
	  || (mode == BLKmode && TREE_TYPE (arg) != TREE_TYPE (formal)))
	return (rtx) (HOST_WIDE_INT) -1;
    }

  /* Extra arguments are valid, but will be ignored below, so we must
     evaluate them here for side-effects.  */
  for (; actual; actual = TREE_CHAIN (actual))
    expand_expr (TREE_VALUE (actual), const0_rtx,
		 TYPE_MODE (TREE_TYPE (TREE_VALUE (actual))), 0);

  /* Make a binding contour to keep inline cleanups called at
     outer function-scope level from looking like they are shadowing
     parameter declarations.  */
  pushlevel (0);

  /* Make a fresh binding contour that we can easily remove.  */
  pushlevel (0);
  expand_start_bindings (0);

  /* Expand the function arguments.  Do this first so that any
     new registers get created before we allocate the maps.  */

  arg_vals = (rtx *) alloca (nargs * sizeof (rtx));
  arg_trees = (tree *) alloca (nargs * sizeof (tree));

  for (formal = DECL_ARGUMENTS (fndecl), actual = parms, i = 0;
       formal;
       formal = TREE_CHAIN (formal), actual = TREE_CHAIN (actual), i++)
    {
      /* Actual parameter, converted to the type of the argument within the
	 function.  */
      tree arg = convert (TREE_TYPE (formal), TREE_VALUE (actual));
      /* Mode of the variable used within the function.  */
      enum machine_mode mode = TYPE_MODE (TREE_TYPE (formal));
      int invisiref = 0;

      arg_trees[i] = arg;
      loc = RTVEC_ELT (arg_vector, i);

      /* If this is an object passed by invisible reference, we copy the
	 object into a stack slot and save its address.  If this will go
	 into memory, we do nothing now.  Otherwise, we just expand the
	 argument.  */
      if (GET_CODE (loc) == MEM && GET_CODE (XEXP (loc, 0)) == REG
	  && REGNO (XEXP (loc, 0)) > LAST_VIRTUAL_REGISTER)
	{
	  rtx stack_slot
	    = assign_stack_temp (TYPE_MODE (TREE_TYPE (arg)),
				 int_size_in_bytes (TREE_TYPE (arg)), 1);
	  MEM_IN_STRUCT_P (stack_slot) = AGGREGATE_TYPE_P (TREE_TYPE (arg));

	  store_expr (arg, stack_slot, 0);

	  arg_vals[i] = XEXP (stack_slot, 0);
	  invisiref = 1;
	}
      else if (GET_CODE (loc) != MEM)
	{
	  if (GET_MODE (loc) != TYPE_MODE (TREE_TYPE (arg)))
	    /* The mode if LOC and ARG can differ if LOC was a variable
	       that had its mode promoted via PROMOTED_MODE.  */
	    arg_vals[i] = convert_modes (GET_MODE (loc),
					 TYPE_MODE (TREE_TYPE (arg)),
					 expand_expr (arg, NULL_RTX, mode,
						      EXPAND_SUM),
					 TREE_UNSIGNED (TREE_TYPE (formal)));
	  else
	    arg_vals[i] = expand_expr (arg, NULL_RTX, mode, EXPAND_SUM);
	}
      else
	arg_vals[i] = 0;

      if (arg_vals[i] != 0
	  && (! TREE_READONLY (formal)
	      /* If the parameter is not read-only, copy our argument through
		 a register.  Also, we cannot use ARG_VALS[I] if it overlaps
		 TARGET in any way.  In the inline function, they will likely
		 be two different pseudos, and `safe_from_p' will make all
		 sorts of smart assumptions about their not conflicting.
		 But if ARG_VALS[I] overlaps TARGET, these assumptions are
		 wrong, so put ARG_VALS[I] into a fresh register.
		 Don't worry about invisible references, since their stack
		 temps will never overlap the target.  */
	      || (target != 0
		  && ! invisiref
		  && (GET_CODE (arg_vals[i]) == REG
		      || GET_CODE (arg_vals[i]) == SUBREG
		      || GET_CODE (arg_vals[i]) == MEM)
		  && reg_overlap_mentioned_p (arg_vals[i], target))
	      /* ??? We must always copy a SUBREG into a REG, because it might
		 get substituted into an address, and not all ports correctly
		 handle SUBREGs in addresses.  */
	      || (GET_CODE (arg_vals[i]) == SUBREG)))
	arg_vals[i] = copy_to_mode_reg (GET_MODE (loc), arg_vals[i]);
    }
	
  /* Allocate the structures we use to remap things.  */

  map = (struct inline_remap *) alloca (sizeof (struct inline_remap));
  map->fndecl = fndecl;

  map->reg_map = (rtx *) alloca (max_regno * sizeof (rtx));
  bzero ((char *) map->reg_map, max_regno * sizeof (rtx));

  map->label_map = (rtx *)alloca ((max_labelno - min_labelno) * sizeof (rtx));
  map->label_map -= min_labelno;

  map->insn_map = (rtx *) alloca (INSN_UID (header) * sizeof (rtx));
  bzero ((char *) map->insn_map, INSN_UID (header) * sizeof (rtx));
  map->min_insnno = 0;
  map->max_insnno = INSN_UID (header);

  map->integrating = 1;

  /* const_equiv_map maps pseudos in our routine to constants, so it needs to
     be large enough for all our pseudos.  This is the number we are currently
     using plus the number in the called routine, plus 15 for each arg,
     five to compute the virtual frame pointer, and five for the return value.
     This should be enough for most cases.  We do not reference entries
     outside the range of the map.

     ??? These numbers are quite arbitrary and were obtained by
     experimentation.  At some point, we should try to allocate the
     table after all the parameters are set up so we an more accurately
     estimate the number of pseudos we will need.  */

  map->const_equiv_map_size
    = max_reg_num () + (max_regno - FIRST_PSEUDO_REGISTER) + 15 * nargs + 10;

  map->const_equiv_map
    = (rtx *)alloca (map->const_equiv_map_size * sizeof (rtx));
  bzero ((char *) map->const_equiv_map,
	 map->const_equiv_map_size * sizeof (rtx));

  map->const_age_map
    = (unsigned *)alloca (map->const_equiv_map_size * sizeof (unsigned));
  bzero ((char *) map->const_age_map,
	 map->const_equiv_map_size * sizeof (unsigned));
  map->const_age = 0;

  /* Record the current insn in case we have to set up pointers to frame
     and argument memory blocks.  */
  map->insns_at_start = get_last_insn ();

  /* Update the outgoing argument size to allow for those in the inlined
     function.  */
  if (OUTGOING_ARGS_SIZE (header) > current_function_outgoing_args_size)
    current_function_outgoing_args_size = OUTGOING_ARGS_SIZE (header);

  /* If the inline function needs to make PIC references, that means
     that this function's PIC offset table must be used.  */
  if (FUNCTION_FLAGS (header) & FUNCTION_FLAGS_USES_PIC_OFFSET_TABLE)
    current_function_uses_pic_offset_table = 1;

  /* If this function needs a context, set it up.  */
  if (FUNCTION_FLAGS (header) & FUNCTION_FLAGS_NEEDS_CONTEXT)
    static_chain_value = lookup_static_chain (fndecl);

  if (GET_CODE (parm_insns) == NOTE
      && NOTE_LINE_NUMBER (parm_insns) > 0)
    {
      rtx note = emit_note (NOTE_SOURCE_FILE (parm_insns),
			    NOTE_LINE_NUMBER (parm_insns));
      if (note)
	RTX_INTEGRATED_P (note) = 1;
    }

  /* Process each argument.  For each, set up things so that the function's
     reference to the argument will refer to the argument being passed.
     We only replace REG with REG here.  Any simplifications are done
     via const_equiv_map.

     We make two passes:  In the first, we deal with parameters that will
     be placed into registers, since we need to ensure that the allocated
     register number fits in const_equiv_map.  Then we store all non-register
     parameters into their memory location.  */

  /* Don't try to free temp stack slots here, because we may put one of the
     parameters into a temp stack slot.  */

  for (i = 0; i < nargs; i++)
    {
      rtx copy = arg_vals[i];

      loc = RTVEC_ELT (arg_vector, i);

      /* There are three cases, each handled separately.  */
      if (GET_CODE (loc) == MEM && GET_CODE (XEXP (loc, 0)) == REG
	  && REGNO (XEXP (loc, 0)) > LAST_VIRTUAL_REGISTER)
	{
	  /* This must be an object passed by invisible reference (it could
	     also be a variable-sized object, but we forbid inlining functions
	     with variable-sized arguments).  COPY is the address of the
	     actual value (this computation will cause it to be copied).  We
	     map that address for the register, noting the actual address as
	     an equivalent in case it can be substituted into the insns.  */

	  if (GET_CODE (copy) != REG)
	    {
	      temp = copy_addr_to_reg (copy);
	      if ((CONSTANT_P (copy) || FIXED_BASE_PLUS_P (copy))
		  && REGNO (temp) < map->const_equiv_map_size)
		{
		  map->const_equiv_map[REGNO (temp)] = copy;
		  map->const_age_map[REGNO (temp)] = CONST_AGE_PARM;
		}
	      copy = temp;
	    }
	  map->reg_map[REGNO (XEXP (loc, 0))] = copy;
	}
      else if (GET_CODE (loc) == MEM)
	{
	  /* This is the case of a parameter that lives in memory.
	     It will live in the block we allocate in the called routine's
	     frame that simulates the incoming argument area.  Do nothing
	     now; we will call store_expr later.  */
	  ;
	}
      else if (GET_CODE (loc) == REG)
	{
	  /* This is the good case where the parameter is in a register.
	     If it is read-only and our argument is a constant, set up the
	     constant equivalence.

	     If LOC is REG_USERVAR_P, the usual case, COPY must also have
	     that flag set if it is a register.

	     Also, don't allow hard registers here; they might not be valid
	     when substituted into insns. */

	  if ((GET_CODE (copy) != REG && GET_CODE (copy) != SUBREG)
	      || (GET_CODE (copy) == REG && REG_USERVAR_P (loc)
		  && ! REG_USERVAR_P (copy))
	      || (GET_CODE (copy) == REG
		  && REGNO (copy) < FIRST_PSEUDO_REGISTER))
	    {
	      temp = copy_to_mode_reg (GET_MODE (loc), copy);
	      REG_USERVAR_P (temp) = REG_USERVAR_P (loc);
	      if ((CONSTANT_P (copy) || FIXED_BASE_PLUS_P (copy))
		  && REGNO (temp) < map->const_equiv_map_size)
		{
		  map->const_equiv_map[REGNO (temp)] = copy;
		  map->const_age_map[REGNO (temp)] = CONST_AGE_PARM;
		}
	      copy = temp;
	    }
	  map->reg_map[REGNO (loc)] = copy;
	}
      else if (GET_CODE (loc) == CONCAT)
	{
	  /* This is the good case where the parameter is in a
	     pair of separate pseudos.
	     If it is read-only and our argument is a constant, set up the
	     constant equivalence.

	     If LOC is REG_USERVAR_P, the usual case, COPY must also have
	     that flag set if it is a register.

	     Also, don't allow hard registers here; they might not be valid
	     when substituted into insns. */
	  rtx locreal = gen_realpart (GET_MODE (XEXP (loc, 0)), loc);
	  rtx locimag = gen_imagpart (GET_MODE (XEXP (loc, 0)), loc);
	  rtx copyreal = gen_realpart (GET_MODE (locreal), copy);
	  rtx copyimag = gen_imagpart (GET_MODE (locimag), copy);

	  if ((GET_CODE (copyreal) != REG && GET_CODE (copyreal) != SUBREG)
	      || (GET_CODE (copyreal) == REG && REG_USERVAR_P (locreal)
		  && ! REG_USERVAR_P (copyreal))
	      || (GET_CODE (copyreal) == REG
		  && REGNO (copyreal) < FIRST_PSEUDO_REGISTER))
	    {
	      temp = copy_to_mode_reg (GET_MODE (locreal), copyreal);
	      REG_USERVAR_P (temp) = REG_USERVAR_P (locreal);
	      if ((CONSTANT_P (copyreal) || FIXED_BASE_PLUS_P (copyreal))
		  && REGNO (temp) < map->const_equiv_map_size)
		{
		  map->const_equiv_map[REGNO (temp)] = copyreal;
		  map->const_age_map[REGNO (temp)] = CONST_AGE_PARM;
		}
	      copyreal = temp;
	    }
	  map->reg_map[REGNO (locreal)] = copyreal;

	  if ((GET_CODE (copyimag) != REG && GET_CODE (copyimag) != SUBREG)
	      || (GET_CODE (copyimag) == REG && REG_USERVAR_P (locimag)
		  && ! REG_USERVAR_P (copyimag))
	      || (GET_CODE (copyimag) == REG
		  && REGNO (copyimag) < FIRST_PSEUDO_REGISTER))
	    {
	      temp = copy_to_mode_reg (GET_MODE (locimag), copyimag);
	      REG_USERVAR_P (temp) = REG_USERVAR_P (locimag);
	      if ((CONSTANT_P (copyimag) || FIXED_BASE_PLUS_P (copyimag))
		  && REGNO (temp) < map->const_equiv_map_size)
		{
		  map->const_equiv_map[REGNO (temp)] = copyimag;
		  map->const_age_map[REGNO (temp)] = CONST_AGE_PARM;
		}
	      copyimag = temp;
	    }
	  map->reg_map[REGNO (locimag)] = copyimag;
	}
      else
	abort ();
    }

  /* Now do the parameters that will be placed in memory.  */

  for (formal = DECL_ARGUMENTS (fndecl), i = 0;
       formal; formal = TREE_CHAIN (formal), i++)
    {
      loc = RTVEC_ELT (arg_vector, i);

      if (GET_CODE (loc) == MEM
	  /* Exclude case handled above.  */
	  && ! (GET_CODE (XEXP (loc, 0)) == REG
		&& REGNO (XEXP (loc, 0)) > LAST_VIRTUAL_REGISTER))
	{
	  rtx note = emit_note (DECL_SOURCE_FILE (formal),
				DECL_SOURCE_LINE (formal));
	  if (note)
	    RTX_INTEGRATED_P (note) = 1;

	  /* Compute the address in the area we reserved and store the
	     value there.  */
	  temp = copy_rtx_and_substitute (loc, map);
	  subst_constants (&temp, NULL_RTX, map);
	  apply_change_group ();
	  if (! memory_address_p (GET_MODE (temp), XEXP (temp, 0)))
	    temp = change_address (temp, VOIDmode, XEXP (temp, 0));
	  store_expr (arg_trees[i], temp, 0);
	}
    }

  /* Deal with the places that the function puts its result.
     We are driven by what is placed into DECL_RESULT.

     Initially, we assume that we don't have anything special handling for
     REG_FUNCTION_RETURN_VALUE_P.  */

  map->inline_target = 0;
  loc = DECL_RTL (DECL_RESULT (fndecl));
  if (TYPE_MODE (type) == VOIDmode)
    /* There is no return value to worry about.  */
    ;
  else if (GET_CODE (loc) == MEM)
    {
      if (! structure_value_addr || ! aggregate_value_p (DECL_RESULT (fndecl)))
	abort ();
  
      /* Pass the function the address in which to return a structure value.
	 Note that a constructor can cause someone to call us with
	 STRUCTURE_VALUE_ADDR, but the initialization takes place
	 via the first parameter, rather than the struct return address.

	 We have two cases:  If the address is a simple register indirect,
	 use the mapping mechanism to point that register to our structure
	 return address.  Otherwise, store the structure return value into
	 the place that it will be referenced from.  */

      if (GET_CODE (XEXP (loc, 0)) == REG)
	{
	  temp = force_reg (Pmode, structure_value_addr);
	  map->reg_map[REGNO (XEXP (loc, 0))] = temp;
	  if ((CONSTANT_P (structure_value_addr)
	       || (GET_CODE (structure_value_addr) == PLUS
		   && XEXP (structure_value_addr, 0) == virtual_stack_vars_rtx
		   && GET_CODE (XEXP (structure_value_addr, 1)) == CONST_INT))
	      && REGNO (temp) < map->const_equiv_map_size)
	    {
	      map->const_equiv_map[REGNO (temp)] = structure_value_addr;
	      map->const_age_map[REGNO (temp)] = CONST_AGE_PARM;
	    }
	}
      else
	{
	  temp = copy_rtx_and_substitute (loc, map);
	  subst_constants (&temp, NULL_RTX, map);
	  apply_change_group ();
	  emit_move_insn (temp, structure_value_addr);
	}
    }
  else if (ignore)
    /* We will ignore the result value, so don't look at its structure.
       Note that preparations for an aggregate return value
       do need to be made (above) even if it will be ignored.  */
    ;
  else if (GET_CODE (loc) == REG)
    {
      /* The function returns an object in a register and we use the return
	 value.  Set up our target for remapping.  */

      /* Machine mode function was declared to return.   */
      enum machine_mode departing_mode = TYPE_MODE (type);
      /* (Possibly wider) machine mode it actually computes
	 (for the sake of callers that fail to declare it right).  */
      enum machine_mode arriving_mode
	= TYPE_MODE (TREE_TYPE (DECL_RESULT (fndecl)));
      rtx reg_to_map;

      /* Don't use MEMs as direct targets because on some machines
	 substituting a MEM for a REG makes invalid insns.
	 Let the combiner substitute the MEM if that is valid.  */
      if (target == 0 || GET_CODE (target) != REG
	  || GET_MODE (target) != departing_mode)
	target = gen_reg_rtx (departing_mode);

      /* If function's value was promoted before return,
	 avoid machine mode mismatch when we substitute INLINE_TARGET.
	 But TARGET is what we will return to the caller.  */
      if (arriving_mode != departing_mode)
	reg_to_map = gen_rtx (SUBREG, arriving_mode, target, 0);
      else
	reg_to_map = target;

      /* Usually, the result value is the machine's return register.
	 Sometimes it may be a pseudo. Handle both cases.  */
      if (REG_FUNCTION_VALUE_P (loc))
	map->inline_target = reg_to_map;
      else
	map->reg_map[REGNO (loc)] = reg_to_map;
    }

  /* Make new label equivalences for the labels in the called function.  */
  for (i = min_labelno; i < max_labelno; i++)
    map->label_map[i] = gen_label_rtx ();

  /* Perform postincrements before actually calling the function.  */
  emit_queue ();

  /* Clean up stack so that variables might have smaller offsets.  */
  do_pending_stack_adjust ();

  /* Save a copy of the location of const_equiv_map for mark_stores, called
     via note_stores.  */
  global_const_equiv_map = map->const_equiv_map;
  global_const_equiv_map_size = map->const_equiv_map_size;

  /* If the called function does an alloca, save and restore the
     stack pointer around the call.  This saves stack space, but
     also is required if this inline is being done between two
     pushes.  */
  if (FUNCTION_FLAGS (header) & FUNCTION_FLAGS_CALLS_ALLOCA)
    emit_stack_save (SAVE_BLOCK, &stack_save, NULL_RTX);

  /* Now copy the insns one by one.  Do this in two passes, first the insns and
     then their REG_NOTES, just like save_for_inline.  */

  /* This loop is very similar to the loop in copy_loop_body in unroll.c.  */

  for (insn = insns; insn; insn = NEXT_INSN (insn))
    {
      rtx copy, pattern, set;

      map->orig_asm_operands_vector = 0;

      switch (GET_CODE (insn))
	{
	case INSN:
	  pattern = PATTERN (insn);
	  set = single_set (insn);
	  copy = 0;
	  if (GET_CODE (pattern) == USE
	      && GET_CODE (XEXP (pattern, 0)) == REG
	      && REG_FUNCTION_VALUE_P (XEXP (pattern, 0)))
	    /* The (USE (REG n)) at return from the function should
	       be ignored since we are changing (REG n) into
	       inline_target.  */
	    break;

	  /* Ignore setting a function value that we don't want to use.  */
	  if (map->inline_target == 0
	      && set != 0
	      && GET_CODE (SET_DEST (set)) == REG
	      && REG_FUNCTION_VALUE_P (SET_DEST (set)))
	    {
	      if (volatile_refs_p (SET_SRC (set)))
		{
		  rtx new_set;

		  /* If we must not delete the source,
		     load it into a new temporary.  */
		  copy = emit_insn (copy_rtx_and_substitute (pattern, map));

		  new_set = single_set (copy);
		  if (new_set == 0)
		    abort ();

		  SET_DEST (new_set)
		    = gen_reg_rtx (GET_MODE (SET_DEST (new_set)));
		}
	      else
		break;
	    }

	  /* If this is setting the static chain rtx, omit it.  */
	  else if (static_chain_value != 0
		   && set != 0
		   && GET_CODE (SET_DEST (set)) == REG
		   && rtx_equal_p (SET_DEST (set),
				   static_chain_incoming_rtx))
	    break;

	  /* If this is setting the static chain pseudo, set it from
	     the value we want to give it instead.  */
	  else if (static_chain_value != 0
		   && set != 0
		   && rtx_equal_p (SET_SRC (set),
				   static_chain_incoming_rtx))
	    {
	      rtx newdest = copy_rtx_and_substitute (SET_DEST (set), map);

	      copy = emit_move_insn (newdest, static_chain_value);
	      static_chain_value = 0;
	    }
	  else
	    copy = emit_insn (copy_rtx_and_substitute (pattern, map));
	  /* REG_NOTES will be copied later.  */

#ifdef HAVE_cc0
	  /* If this insn is setting CC0, it may need to look at
	     the insn that uses CC0 to see what type of insn it is.
	     In that case, the call to recog via validate_change will
	     fail.  So don't substitute constants here.  Instead,
	     do it when we emit the following insn.

	     For example, see the pyr.md file.  That machine has signed and
	     unsigned compares.  The compare patterns must check the
	     following branch insn to see which what kind of compare to
	     emit.

	     If the previous insn set CC0, substitute constants on it as
	     well.  */
	  if (sets_cc0_p (PATTERN (copy)) != 0)
	    cc0_insn = copy;
	  else
	    {
	      if (cc0_insn)
		try_constants (cc0_insn, map);
	      cc0_insn = 0;
	      try_constants (copy, map);
	    }
#else
	  try_constants (copy, map);
#endif
	  break;

	case JUMP_INSN:
	  if (GET_CODE (PATTERN (insn)) == RETURN)
	    {
	      if (local_return_label == 0)
		local_return_label = gen_label_rtx ();
	      pattern = gen_jump (local_return_label);
	    }
	  else
	    pattern = copy_rtx_and_substitute (PATTERN (insn), map);

	  copy = emit_jump_insn (pattern);

#ifdef HAVE_cc0
	  if (cc0_insn)
	    try_constants (cc0_insn, map);
	  cc0_insn = 0;
#endif
	  try_constants (copy, map);

	  /* If this used to be a conditional jump insn but whose branch
	     direction is now know, we must do something special.  */
	  if (condjump_p (insn) && ! simplejump_p (insn) && map->last_pc_value)
	    {
#ifdef HAVE_cc0
	      /* The previous insn set cc0 for us.  So delete it.  */
	      delete_insn (PREV_INSN (copy));
#endif

	      /* If this is now a no-op, delete it.  */
	      if (map->last_pc_value == pc_rtx)
		{
		  delete_insn (copy);
		  copy = 0;
		}
	      else
		/* Otherwise, this is unconditional jump so we must put a
		   BARRIER after it.  We could do some dead code elimination
		   here, but jump.c will do it just as well.  */
		emit_barrier ();
	    }
	  break;

	case CALL_INSN:
	  pattern = copy_rtx_and_substitute (PATTERN (insn), map);
	  copy = emit_call_insn (pattern);

	  /* Because the USAGE information potentially contains objects other
	     than hard registers, we need to copy it.  */
	  CALL_INSN_FUNCTION_USAGE (copy) =
	     copy_rtx_and_substitute (CALL_INSN_FUNCTION_USAGE (insn), map);

#ifdef HAVE_cc0
	  if (cc0_insn)
	    try_constants (cc0_insn, map);
	  cc0_insn = 0;
#endif
	  try_constants (copy, map);

	  /* Be lazy and assume CALL_INSNs clobber all hard registers.  */
	  for (i = 0; i < FIRST_PSEUDO_REGISTER; i++)
	    map->const_equiv_map[i] = 0;
	  break;

	case CODE_LABEL:
	  copy = emit_label (map->label_map[CODE_LABEL_NUMBER (insn)]);
	  LABEL_NAME (copy) = LABEL_NAME (insn);
	  map->const_age++;
	  break;

	case BARRIER:
	  copy = emit_barrier ();
	  break;

	case NOTE:
	  /* It is important to discard function-end and function-beg notes,
	     so we have only one of each in the current function.
	     Also, NOTE_INSN_DELETED notes aren't useful (save_for_inline
	     deleted these in the copy used for continuing compilation,
	     not the copy used for inlining).  */
	  if (NOTE_LINE_NUMBER (insn) != NOTE_INSN_FUNCTION_END
	      && NOTE_LINE_NUMBER (insn) != NOTE_INSN_FUNCTION_BEG
	      && NOTE_LINE_NUMBER (insn) != NOTE_INSN_DELETED)
	    copy = emit_note (NOTE_SOURCE_FILE (insn), NOTE_LINE_NUMBER (insn));
	  else
	    copy = 0;
	  break;

	default:
	  abort ();
	  break;
	}

      if (copy)
	RTX_INTEGRATED_P (copy) = 1;

      map->insn_map[INSN_UID (insn)] = copy;
    }

  /* Now copy the REG_NOTES.  Increment const_age, so that only constants
     from parameters can be substituted in.  These are the only ones that
     are valid across the entire function.  */
  map->const_age++;
  for (insn = insns; insn; insn = NEXT_INSN (insn))
    if (GET_RTX_CLASS (GET_CODE (insn)) == 'i'
	&& map->insn_map[INSN_UID (insn)]
	&& REG_NOTES (insn))
      {
	rtx tem = copy_rtx_and_substitute (REG_NOTES (insn), map);
	/* We must also do subst_constants, in case one of our parameters
	   has const type and constant value.  */
	subst_constants (&tem, NULL_RTX, map);
	apply_change_group ();
	REG_NOTES (map->insn_map[INSN_UID (insn)]) = tem;
      }

  if (local_return_label)
    emit_label (local_return_label);

  /* Restore the stack pointer if we saved it above.  */
  if (FUNCTION_FLAGS (header) & FUNCTION_FLAGS_CALLS_ALLOCA)
    emit_stack_restore (SAVE_BLOCK, stack_save, NULL_RTX);

  /* Make copies of the decls of the symbols in the inline function, so that
     the copies of the variables get declared in the current function.  Set
     up things so that lookup_static_chain knows that to interpret registers
     in SAVE_EXPRs for TYPE_SIZEs as local.  */

  inline_function_decl = fndecl;
  integrate_parm_decls (DECL_ARGUMENTS (fndecl), map, arg_vector);
  integrate_decl_tree ((tree) ORIGINAL_DECL_INITIAL (header), 0, map);
  inline_function_decl = 0;

  /* End the scope containing the copied formal parameter variables
     and copied LABEL_DECLs.  */

  expand_end_bindings (getdecls (), 1, 1);
  block = poplevel (1, 1, 0);
  BLOCK_ABSTRACT_ORIGIN (block) = (DECL_ABSTRACT_ORIGIN (fndecl) == NULL
				   ? fndecl : DECL_ABSTRACT_ORIGIN (fndecl));
  poplevel (0, 0, 0);
  emit_line_note (input_filename, lineno);

  if (structure_value_addr)
    {
      target = gen_rtx (MEM, TYPE_MODE (type),
			memory_address (TYPE_MODE (type), structure_value_addr));
      MEM_IN_STRUCT_P (target) = 1;
    }
  return target;
}

/* Given a chain of PARM_DECLs, ARGS, copy each decl into a VAR_DECL,
   push all of those decls and give each one the corresponding home.  */

static void
integrate_parm_decls (args, map, arg_vector)
     tree args;
     struct inline_remap *map;
     rtvec arg_vector;
{
  register tree tail;
  register int i;

  for (tail = args, i = 0; tail; tail = TREE_CHAIN (tail), i++)
    {
      register tree decl = build_decl (VAR_DECL, DECL_NAME (tail),
				       TREE_TYPE (tail));
      rtx new_decl_rtl
	= copy_rtx_and_substitute (RTVEC_ELT (arg_vector, i), map);

      DECL_ARG_TYPE (decl) = DECL_ARG_TYPE (tail);
      /* We really should be setting DECL_INCOMING_RTL to something reasonable
	 here, but that's going to require some more work.  */
      /* DECL_INCOMING_RTL (decl) = ?; */
      /* These args would always appear unused, if not for this.  */
      TREE_USED (decl) = 1;
      /* Prevent warning for shadowing with these.  */
      DECL_ABSTRACT_ORIGIN (decl) = tail;
      pushdecl (decl);
      /* Fully instantiate the address with the equivalent form so that the
	 debugging information contains the actual register, instead of the
	 virtual register.   Do this by not passing an insn to
	 subst_constants.  */
      subst_constants (&new_decl_rtl, NULL_RTX, map);
      apply_change_group ();
      DECL_RTL (decl) = new_decl_rtl;
    }
}

/* Given a BLOCK node LET, push decls and levels so as to construct in the
   current function a tree of contexts isomorphic to the one that is given.

   LEVEL indicates how far down into the BLOCK tree is the node we are
   currently traversing.  It is always zero except for recursive calls.

   MAP, if nonzero, is a pointer to an inline_remap map which indicates how
   registers used in the DECL_RTL field should be remapped.  If it is zero,
   no mapping is necessary.  */

static void
integrate_decl_tree (let, level, map)
     tree let;
     int level;
     struct inline_remap *map;
{
  tree t, node;

  if (level > 0)
    pushlevel (0);
  
  for (t = BLOCK_VARS (let); t; t = TREE_CHAIN (t))
    {
      tree d;
      tree newd;

      push_obstacks_nochange ();
      saveable_allocation ();
      d = copy_node (t);
      pop_obstacks ();

      if (DECL_RTL (t) != 0)
	{
	  DECL_RTL (d) = copy_rtx_and_substitute (DECL_RTL (t), map);
	  /* Fully instantiate the address with the equivalent form so that the
	     debugging information contains the actual register, instead of the
	     virtual register.   Do this by not passing an insn to
	     subst_constants.  */
	  subst_constants (&DECL_RTL (d), NULL_RTX, map);
	  apply_change_group ();
	}
      /* These args would always appear unused, if not for this.  */
      TREE_USED (d) = 1;

      if (DECL_LANG_SPECIFIC (d))
	copy_lang_decl (d);

      /* Must set DECL_ABSTRACT_ORIGIN here for local variables, to ensure
	 that we don't get -Wshadow warnings.  But don't set it here if
	 pushdecl might return a duplicate decl, as that will result in
	 incorrect DWARF debug info.  */
      if (! DECL_EXTERNAL (d) || ! TREE_PUBLIC (d))
	/* Prevent warning for shadowing with these.  */
	DECL_ABSTRACT_ORIGIN (d) = t;

      newd = pushdecl (d);

      /* If we didn't set DECL_ABSTRACT_ORIGIN above, then set it now.
	 Simpler to just set it always rather than checking.
	 If the decl we get back is the copy of 't' that we started with,
	 then set the DECL_ABSTRACT_ORIGIN.  Otherwise, we must have a
	 duplicate decl, and we got the older one back.  In that case, setting
	 DECL_ABSTRACT_ORIGIN is not appropriate.  */
      if (newd == d)
	DECL_ABSTRACT_ORIGIN (d) = t;
    }

  for (t = BLOCK_SUBBLOCKS (let); t; t = TREE_CHAIN (t))
    integrate_decl_tree (t, level + 1, map);

  if (level > 0)
    {
      node = poplevel (1, 0, 0);
      if (node)
	{
	  TREE_USED (node) = TREE_USED (let);
	  BLOCK_ABSTRACT_ORIGIN (node) = let;
	}
    }
}

/* Create a new copy of an rtx.
   Recursively copies the operands of the rtx,
   except for those few rtx codes that are sharable.

   We always return an rtx that is similar to that incoming rtx, with the
   exception of possibly changing a REG to a SUBREG or vice versa.  No
   rtl is ever emitted.

   Handle constants that need to be placed in the constant pool by
   calling `force_const_mem'.  */

rtx
copy_rtx_and_substitute (orig, map)
     register rtx orig;
     struct inline_remap *map;
{
  register rtx copy, temp;
  register int i, j;
  register RTX_CODE code;
  register enum machine_mode mode;
  register char *format_ptr;
  int regno;

  if (orig == 0)
    return 0;

  code = GET_CODE (orig);
  mode = GET_MODE (orig);

  switch (code)
    {
    case REG:
      /* If the stack pointer register shows up, it must be part of
	 stack-adjustments (*not* because we eliminated the frame pointer!).
	 Small hard registers are returned as-is.  Pseudo-registers
	 go through their `reg_map'.  */
      regno = REGNO (orig);
      if (regno <= LAST_VIRTUAL_REGISTER)
	{
	  /* Some hard registers are also mapped,
	     but others are not translated.  */
	  if (map->reg_map[regno] != 0)
	    return map->reg_map[regno];

	  /* If this is the virtual frame pointer, make space in current
	     function's stack frame for the stack frame of the inline function.

	     Copy the address of this area into a pseudo.  Map
	     virtual_stack_vars_rtx to this pseudo and set up a constant
	     equivalence for it to be the address.  This will substitute the
	     address into insns where it can be substituted and use the new
	     pseudo where it can't.  */
	  if (regno == VIRTUAL_STACK_VARS_REGNUM)
	    {
	      rtx loc, seq;
	      int size = DECL_FRAME_SIZE (map->fndecl);
	      int rounded;

	      start_sequence ();
	      loc = assign_stack_temp (BLKmode, size, 1);
	      loc = XEXP (loc, 0);
#ifdef FRAME_GROWS_DOWNWARD
	      /* In this case, virtual_stack_vars_rtx points to one byte
		 higher than the top of the frame area.  So compute the offset
		 to one byte higher than our substitute frame.
		 Keep the fake frame pointer aligned like a real one.  */
	      rounded = CEIL_ROUND (size, BIGGEST_ALIGNMENT / BITS_PER_UNIT);
	      loc = plus_constant (loc, rounded);
#endif
	      map->reg_map[regno] = temp
		= force_reg (Pmode, force_operand (loc, NULL_RTX));

	      if (REGNO (temp) < map->const_equiv_map_size)
		{
		  map->const_equiv_map[REGNO (temp)] = loc;
		  map->const_age_map[REGNO (temp)] = CONST_AGE_PARM;
		}

	      seq = gen_sequence ();
	      end_sequence ();
	      emit_insn_after (seq, map->insns_at_start);
	      return temp;
	    }
	  else if (regno == VIRTUAL_INCOMING_ARGS_REGNUM)
	    {
	      /* Do the same for a block to contain any arguments referenced
		 in memory. */
	      rtx loc, seq;
	      int size = FUNCTION_ARGS_SIZE (DECL_SAVED_INSNS (map->fndecl));

	      start_sequence ();
	      loc = assign_stack_temp (BLKmode, size, 1);
	      loc = XEXP (loc, 0);
	      /* When arguments grow downward, the virtual incoming 
		 args pointer points to the top of the argument block,
		 so the remapped location better do the same. */
#ifdef ARGS_GROW_DOWNWARD
	      loc = plus_constant (loc, size);
#endif
	      map->reg_map[regno] = temp
		= force_reg (Pmode, force_operand (loc, NULL_RTX));

	      if (REGNO (temp) < map->const_equiv_map_size)
		{
		  map->const_equiv_map[REGNO (temp)] = loc;
		  map->const_age_map[REGNO (temp)] = CONST_AGE_PARM;
		}

	      seq = gen_sequence ();
	      end_sequence ();
	      emit_insn_after (seq, map->insns_at_start);
	      return temp;
	    }
	  else if (REG_FUNCTION_VALUE_P (orig))
	    {
	      /* This is a reference to the function return value.  If
		 the function doesn't have a return value, error.  If the
		 mode doesn't agree, make a SUBREG.  */
	      if (map->inline_target == 0)
		/* Must be unrolling loops or replicating code if we
		   reach here, so return the register unchanged.  */
		return orig;
	      else if (mode != GET_MODE (map->inline_target))
		return gen_lowpart (mode, map->inline_target);
	      else
		return map->inline_target;
	    }
	  return orig;
	}
      if (map->reg_map[regno] == NULL)
	{
	  map->reg_map[regno] = gen_reg_rtx (mode);
	  REG_USERVAR_P (map->reg_map[regno]) = REG_USERVAR_P (orig);
	  REG_LOOP_TEST_P (map->reg_map[regno]) = REG_LOOP_TEST_P (orig);
	  RTX_UNCHANGING_P (map->reg_map[regno]) = RTX_UNCHANGING_P (orig);
	  /* A reg with REG_FUNCTION_VALUE_P true will never reach here.  */
	}
      return map->reg_map[regno];

    case SUBREG:
      copy = copy_rtx_and_substitute (SUBREG_REG (orig), map);
      /* SUBREG is ordinary, but don't make nested SUBREGs.  */
      if (GET_CODE (copy) == SUBREG)
	return gen_rtx (SUBREG, GET_MODE (orig), SUBREG_REG (copy),
			SUBREG_WORD (orig) + SUBREG_WORD (copy));
      else if (GET_CODE (copy) == CONCAT)
	return (subreg_realpart_p (orig) ? XEXP (copy, 0) : XEXP (copy, 1));
      else
	return gen_rtx (SUBREG, GET_MODE (orig), copy,
			SUBREG_WORD (orig));

    case USE:
    case CLOBBER:
      /* USE and CLOBBER are ordinary, but we convert (use (subreg foo))
	 to (use foo) if the original insn didn't have a subreg.
	 Removing the subreg distorts the VAX movstrhi pattern
	 by changing the mode of an operand.  */
      copy = copy_rtx_and_substitute (XEXP (orig, 0), map);
      if (GET_CODE (copy) == SUBREG && GET_CODE (XEXP (orig, 0)) != SUBREG)
	copy = SUBREG_REG (copy);
      return gen_rtx (code, VOIDmode, copy);

    case CODE_LABEL:
      LABEL_PRESERVE_P (map->label_map[CODE_LABEL_NUMBER (orig)])
	= LABEL_PRESERVE_P (orig);
      return map->label_map[CODE_LABEL_NUMBER (orig)];

    case LABEL_REF:
      copy = gen_rtx (LABEL_REF, mode,
		      LABEL_REF_NONLOCAL_P (orig) ? XEXP (orig, 0)
		      : map->label_map[CODE_LABEL_NUMBER (XEXP (orig, 0))]);
      LABEL_OUTSIDE_LOOP_P (copy) = LABEL_OUTSIDE_LOOP_P (orig);

      /* The fact that this label was previously nonlocal does not mean
	 it still is, so we must check if it is within the range of
	 this function's labels.  */
      LABEL_REF_NONLOCAL_P (copy)
	= (LABEL_REF_NONLOCAL_P (orig)
	   && ! (CODE_LABEL_NUMBER (XEXP (copy, 0)) >= get_first_label_num ()
		 && CODE_LABEL_NUMBER (XEXP (copy, 0)) < max_label_num ()));

      /* If we have made a nonlocal label local, it means that this
	 inlined call will be referring to our nonlocal goto handler.
	 So make sure we create one for this block; we normally would
	 not since this is not otherwise considered a "call".  */
      if (LABEL_REF_NONLOCAL_P (orig) && ! LABEL_REF_NONLOCAL_P (copy))
	function_call_count++;

      return copy;

    case PC:
    case CC0:
    case CONST_INT:
      return orig;

    case SYMBOL_REF:
      /* Symbols which represent the address of a label stored in the constant
	 pool must be modified to point to a constant pool entry for the
	 remapped label.  Otherwise, symbols are returned unchanged.  */
      if (CONSTANT_POOL_ADDRESS_P (orig))
	{
	  rtx constant = get_pool_constant (orig);
	  if (GET_CODE (constant) == LABEL_REF)
	    return XEXP (force_const_mem (Pmode, 
					  copy_rtx_and_substitute (constant,
								   map)),
			 0);
	}

      return orig;

    case CONST_DOUBLE:
      /* We have to make a new copy of this CONST_DOUBLE because don't want
	 to use the old value of CONST_DOUBLE_MEM.  Also, this may be a
	 duplicate of a CONST_DOUBLE we have already seen.  */
      if (GET_MODE_CLASS (GET_MODE (orig)) == MODE_FLOAT)
	{
	  REAL_VALUE_TYPE d;

	  REAL_VALUE_FROM_CONST_DOUBLE (d, orig);
	  return CONST_DOUBLE_FROM_REAL_VALUE (d, GET_MODE (orig));
	}
      else
	return immed_double_const (CONST_DOUBLE_LOW (orig),
				   CONST_DOUBLE_HIGH (orig), VOIDmode);

    case CONST:
      /* Make new constant pool entry for a constant
	 that was in the pool of the inline function.  */
      if (RTX_INTEGRATED_P (orig))
	{
	  /* If this was an address of a constant pool entry that itself
	     had to be placed in the constant pool, it might not be a
	     valid address.  So the recursive call below might turn it
	     into a register.  In that case, it isn't a constant any
	     more, so return it.  This has the potential of changing a
	     MEM into a REG, but we'll assume that it safe.  */
	  temp = copy_rtx_and_substitute (XEXP (orig, 0), map);
	  if (! CONSTANT_P (temp))
	    return temp;
	  return validize_mem (force_const_mem (GET_MODE (orig), temp));
	}
      break;

    case ADDRESS:
      /* If from constant pool address, make new constant pool entry and
	 return its address.  */
      if (! RTX_INTEGRATED_P (orig))
	abort ();

      temp = force_const_mem (GET_MODE (orig),
			      copy_rtx_and_substitute (XEXP (orig, 0), map));

#if 0
      /* Legitimizing the address here is incorrect.

	 The only ADDRESS rtx's that can reach here are ones created by
	 save_constants.  Hence the operand of the ADDRESS is always valid
	 in this position of the instruction, since the original rtx without
	 the ADDRESS was valid.

	 The reason we don't legitimize the address here is that on the
	 Sparc, the caller may have a (high ...) surrounding this ADDRESS.
	 This code forces the operand of the address to a register, which
	 fails because we can not take the HIGH part of a register.

	 Also, change_address may create new registers.  These registers
	 will not have valid reg_map entries.  This can cause try_constants()
	 to fail because assumes that all registers in the rtx have valid
	 reg_map entries, and it may end up replacing one of these new
	 registers with junk. */

      if (! memory_address_p (GET_MODE (temp), XEXP (temp, 0)))
	temp = change_address (temp, GET_MODE (temp), XEXP (temp, 0));
#endif

      return XEXP (temp, 0);

    case ASM_OPERANDS:
      /* If a single asm insn contains multiple output operands
	 then it contains multiple ASM_OPERANDS rtx's that share operand 3.
	 We must make sure that the copied insn continues to share it.  */
      if (map->orig_asm_operands_vector == XVEC (orig, 3))
	{
	  copy = rtx_alloc (ASM_OPERANDS);
	  copy->volatil = orig->volatil;
	  XSTR (copy, 0) = XSTR (orig, 0);
	  XSTR (copy, 1) = XSTR (orig, 1);
	  XINT (copy, 2) = XINT (orig, 2);
	  XVEC (copy, 3) = map->copy_asm_operands_vector;
	  XVEC (copy, 4) = map->copy_asm_constraints_vector;
	  XSTR (copy, 5) = XSTR (orig, 5);
	  XINT (copy, 6) = XINT (orig, 6);
	  return copy;
	}
      break;

    case CALL:
      /* This is given special treatment because the first
	 operand of a CALL is a (MEM ...) which may get
	 forced into a register for cse.  This is undesirable
	 if function-address cse isn't wanted or if we won't do cse.  */
#ifndef NO_FUNCTION_CSE
      if (! (optimize && ! flag_no_function_cse))
#endif
	return gen_rtx (CALL, GET_MODE (orig),
			gen_rtx (MEM, GET_MODE (XEXP (orig, 0)),
				 copy_rtx_and_substitute (XEXP (XEXP (orig, 0), 0), map)),
			copy_rtx_and_substitute (XEXP (orig, 1), map));
      break;

#if 0
      /* Must be ifdefed out for loop unrolling to work.  */
    case RETURN:
      abort ();
#endif

    case SET:
      /* If this is setting fp or ap, it means that we have a nonlocal goto.
	 Don't alter that.
	 If the nonlocal goto is into the current function,
	 this will result in unnecessarily bad code, but should work.  */
      if (SET_DEST (orig) == virtual_stack_vars_rtx
	  || SET_DEST (orig) == virtual_incoming_args_rtx)
	return gen_rtx (SET, VOIDmode, SET_DEST (orig),
			copy_rtx_and_substitute (SET_SRC (orig), map));
      break;

    case MEM:
      copy = rtx_alloc (MEM);
      PUT_MODE (copy, mode);
      XEXP (copy, 0) = copy_rtx_and_substitute (XEXP (orig, 0), map);
      MEM_IN_STRUCT_P (copy) = MEM_IN_STRUCT_P (orig);
      MEM_VOLATILE_P (copy) = MEM_VOLATILE_P (orig);

      /* If doing function inlining, this MEM might not be const in the
	 function that it is being inlined into, and thus may not be
	 unchanging after function inlining.  Constant pool references are
	 handled elsewhere, so this doesn't lose RTX_UNCHANGING_P bits
	 for them.  */
      if (! map->integrating)
	RTX_UNCHANGING_P (copy) = RTX_UNCHANGING_P (orig);

      return copy;
    }

  copy = rtx_alloc (code);
  PUT_MODE (copy, mode);
  copy->in_struct = orig->in_struct;
  copy->volatil = orig->volatil;
  copy->unchanging = orig->unchanging;

  format_ptr = GET_RTX_FORMAT (GET_CODE (copy));

  for (i = 0; i < GET_RTX_LENGTH (GET_CODE (copy)); i++)
    {
      switch (*format_ptr++)
	{
	case '0':
	  break;

	case 'e':
	  XEXP (copy, i) = copy_rtx_and_substitute (XEXP (orig, i), map);
	  break;

	case 'u':
	  /* Change any references to old-insns to point to the
	     corresponding copied insns.  */
	  XEXP (copy, i) = map->insn_map[INSN_UID (XEXP (orig, i))];
	  break;

	case 'E':
	  XVEC (copy, i) = XVEC (orig, i);
	  if (XVEC (orig, i) != NULL && XVECLEN (orig, i) != 0)
	    {
	      XVEC (copy, i) = rtvec_alloc (XVECLEN (orig, i));
	      for (j = 0; j < XVECLEN (copy, i); j++)
		XVECEXP (copy, i, j)
		  = copy_rtx_and_substitute (XVECEXP (orig, i, j), map);
	    }
	  break;

	case 'w':
	  XWINT (copy, i) = XWINT (orig, i);
	  break;

	case 'i':
	  XINT (copy, i) = XINT (orig, i);
	  break;

	case 's':
	  XSTR (copy, i) = XSTR (orig, i);
	  break;

	default:
	  abort ();
	}
    }

  if (code == ASM_OPERANDS && map->orig_asm_operands_vector == 0)
    {
      map->orig_asm_operands_vector = XVEC (orig, 3);
      map->copy_asm_operands_vector = XVEC (copy, 3);
      map->copy_asm_constraints_vector = XVEC (copy, 4);
    }

  return copy;
}

/* Substitute known constant values into INSN, if that is valid.  */

void
try_constants (insn, map)
     rtx insn;
     struct inline_remap *map;
{
  int i;

  map->num_sets = 0;
  subst_constants (&PATTERN (insn), insn, map);

  /* Apply the changes if they are valid; otherwise discard them.  */
  apply_change_group ();

  /* Show we don't know the value of anything stored or clobbered.  */
  note_stores (PATTERN (insn), mark_stores);
  map->last_pc_value = 0;
#ifdef HAVE_cc0
  map->last_cc0_value = 0;
#endif

  /* Set up any constant equivalences made in this insn.  */
  for (i = 0; i < map->num_sets; i++)
    {
      if (GET_CODE (map->equiv_sets[i].dest) == REG)
	{
	  int regno = REGNO (map->equiv_sets[i].dest);

	  if (regno < map->const_equiv_map_size
	      && (map->const_equiv_map[regno] == 0
		  /* Following clause is a hack to make case work where GNU C++
		     reassigns a variable to make cse work right.  */
		  || ! rtx_equal_p (map->const_equiv_map[regno],
				    map->equiv_sets[i].equiv)))
	    {
	      map->const_equiv_map[regno] = map->equiv_sets[i].equiv;
	      map->const_age_map[regno] = map->const_age;
	    }
	}
      else if (map->equiv_sets[i].dest == pc_rtx)
	map->last_pc_value = map->equiv_sets[i].equiv;
#ifdef HAVE_cc0
      else if (map->equiv_sets[i].dest == cc0_rtx)
	map->last_cc0_value = map->equiv_sets[i].equiv;
#endif
    }
}

/* Substitute known constants for pseudo regs in the contents of LOC,
   which are part of INSN.
   If INSN is zero, the substitution should always be done (this is used to
   update DECL_RTL).
   These changes are taken out by try_constants if the result is not valid.

   Note that we are more concerned with determining when the result of a SET
   is a constant, for further propagation, than actually inserting constants
   into insns; cse will do the latter task better.

   This function is also used to adjust address of items previously addressed
   via the virtual stack variable or virtual incoming arguments registers.  */

static void
subst_constants (loc, insn, map)
     rtx *loc;
     rtx insn;
     struct inline_remap *map;
{
  rtx x = *loc;
  register int i;
  register enum rtx_code code;
  register char *format_ptr;
  int num_changes = num_validated_changes ();
  rtx new = 0;
  enum machine_mode op0_mode;

  code = GET_CODE (x);

  switch (code)
    {
    case PC:
    case CONST_INT:
    case CONST_DOUBLE:
    case SYMBOL_REF:
    case CONST:
    case LABEL_REF:
    case ADDRESS:
      return;

#ifdef HAVE_cc0
    case CC0:
      validate_change (insn, loc, map->last_cc0_value, 1);
      return;
#endif

    case USE:
    case CLOBBER:
      /* The only thing we can do with a USE or CLOBBER is possibly do
	 some substitutions in a MEM within it.  */
      if (GET_CODE (XEXP (x, 0)) == MEM)
	subst_constants (&XEXP (XEXP (x, 0), 0), insn, map);
      return;

    case REG:
      /* Substitute for parms and known constants.  Don't replace
	 hard regs used as user variables with constants.  */
      {
	int regno = REGNO (x);

	if (! (regno < FIRST_PSEUDO_REGISTER && REG_USERVAR_P (x))
	    && regno < map->const_equiv_map_size
	    && map->const_equiv_map[regno] != 0
	    && map->const_age_map[regno] >= map->const_age)
	  validate_change (insn, loc, map->const_equiv_map[regno], 1);
	return;
      }

    case SUBREG:
      /* SUBREG applied to something other than a reg
	 should be treated as ordinary, since that must
	 be a special hack and we don't know how to treat it specially.
	 Consider for example mulsidi3 in m68k.md.
	 Ordinary SUBREG of a REG needs this special treatment.  */
      if (GET_CODE (SUBREG_REG (x)) == REG)
	{
	  rtx inner = SUBREG_REG (x);
	  rtx new = 0;

	  /* We can't call subst_constants on &SUBREG_REG (x) because any
	     constant or SUBREG wouldn't be valid inside our SUBEG.  Instead,
	     see what is inside, try to form the new SUBREG and see if that is
	     valid.  We handle two cases: extracting a full word in an 
	     integral mode and extracting the low part.  */
	  subst_constants (&inner, NULL_RTX, map);

	  if (GET_MODE_CLASS (GET_MODE (x)) == MODE_INT
	      && GET_MODE_SIZE (GET_MODE (x)) == UNITS_PER_WORD
	      && GET_MODE (SUBREG_REG (x)) != VOIDmode)
	    new = operand_subword (inner, SUBREG_WORD (x), 0,
				   GET_MODE (SUBREG_REG (x)));

	  if (new == 0 && subreg_lowpart_p (x))
	    new = gen_lowpart_common (GET_MODE (x), inner);

	  if (new)
	    validate_change (insn, loc, new, 1);

	  return;
	}
      break;

    case MEM:
      subst_constants (&XEXP (x, 0), insn, map);

      /* If a memory address got spoiled, change it back.  */
      if (insn != 0 && num_validated_changes () != num_changes
	  && !memory_address_p (GET_MODE (x), XEXP (x, 0)))
	cancel_changes (num_changes);
      return;

    case SET:
      {
	/* Substitute constants in our source, and in any arguments to a
	   complex (e..g, ZERO_EXTRACT) destination, but not in the destination
	   itself.  */
	rtx *dest_loc = &SET_DEST (x);
	rtx dest = *dest_loc;
	rtx src, tem;

	subst_constants (&SET_SRC (x), insn, map);
	src = SET_SRC (x);

	while (GET_CODE (*dest_loc) == ZERO_EXTRACT
	       /* By convention, we always use ZERO_EXTRACT in the dest.  */
/*	       || GET_CODE (*dest_loc) == SIGN_EXTRACT */
	       || GET_CODE (*dest_loc) == SUBREG
	       || GET_CODE (*dest_loc) == STRICT_LOW_PART)
	  {
	    if (GET_CODE (*dest_loc) == ZERO_EXTRACT)
	      {
		subst_constants (&XEXP (*dest_loc, 1), insn, map);
		subst_constants (&XEXP (*dest_loc, 2), insn, map);
	      }
	    dest_loc = &XEXP (*dest_loc, 0);
	  }

	/* Do substitute in the address of a destination in memory.  */
	if (GET_CODE (*dest_loc) == MEM)
	  subst_constants (&XEXP (*dest_loc, 0), insn, map);

	/* Check for the case of DEST a SUBREG, both it and the underlying
	   register are less than one word, and the SUBREG has the wider mode.
	   In the case, we are really setting the underlying register to the
	   source converted to the mode of DEST.  So indicate that.  */
	if (GET_CODE (dest) == SUBREG
	    && GET_MODE_SIZE (GET_MODE (dest)) <= UNITS_PER_WORD
	    && GET_MODE_SIZE (GET_MODE (SUBREG_REG (dest))) <= UNITS_PER_WORD
	    && (GET_MODE_SIZE (GET_MODE (SUBREG_REG (dest)))
		      <= GET_MODE_SIZE (GET_MODE (dest)))
	    && (tem = gen_lowpart_if_possible (GET_MODE (SUBREG_REG (dest)),
					       src)))
	  src = tem, dest = SUBREG_REG (dest);

	/* If storing a recognizable value save it for later recording.  */
	if ((map->num_sets < MAX_RECOG_OPERANDS)
	    && (CONSTANT_P (src)
		|| (GET_CODE (src) == REG
		    && (REGNO (src) == VIRTUAL_INCOMING_ARGS_REGNUM
			|| REGNO (src) == VIRTUAL_STACK_VARS_REGNUM))
		|| (GET_CODE (src) == PLUS
		    && GET_CODE (XEXP (src, 0)) == REG
		    && (REGNO (XEXP (src, 0)) == VIRTUAL_INCOMING_ARGS_REGNUM
			|| REGNO (XEXP (src, 0)) == VIRTUAL_STACK_VARS_REGNUM)
		    && CONSTANT_P (XEXP (src, 1)))
		|| GET_CODE (src) == COMPARE
#ifdef HAVE_cc0
		|| dest == cc0_rtx
#endif
		|| (dest == pc_rtx
		    && (src == pc_rtx || GET_CODE (src) == RETURN
			|| GET_CODE (src) == LABEL_REF))))
	  {
	    /* Normally, this copy won't do anything.  But, if SRC is a COMPARE
	       it will cause us to save the COMPARE with any constants
	       substituted, which is what we want for later.  */
	    map->equiv_sets[map->num_sets].equiv = copy_rtx (src);
	    map->equiv_sets[map->num_sets++].dest = dest;
	  }

	return;
      }
    }

  format_ptr = GET_RTX_FORMAT (code);
  
  /* If the first operand is an expression, save its mode for later.  */
  if (*format_ptr == 'e')
    op0_mode = GET_MODE (XEXP (x, 0));

  for (i = 0; i < GET_RTX_LENGTH (code); i++)
    {
      switch (*format_ptr++)
	{
	case '0':
	  break;

	case 'e':
	  if (XEXP (x, i))
	    subst_constants (&XEXP (x, i), insn, map);
	  break;

	case 'u':
	case 'i':
	case 's':
	case 'w':
	  break;

	case 'E':
	  if (XVEC (x, i) != NULL && XVECLEN (x, i) != 0)
	    {
	      int j;
	      for (j = 0; j < XVECLEN (x, i); j++)
		subst_constants (&XVECEXP (x, i, j), insn, map);
	    }
	  break;

	default:
	  abort ();
	}
    }

  /* If this is a commutative operation, move a constant to the second
     operand unless the second operand is already a CONST_INT.  */
  if ((GET_RTX_CLASS (code) == 'c' || code == NE || code == EQ)
      && CONSTANT_P (XEXP (x, 0)) && GET_CODE (XEXP (x, 1)) != CONST_INT)
    {
      rtx tem = XEXP (x, 0);
      validate_change (insn, &XEXP (x, 0), XEXP (x, 1), 1);
      validate_change (insn, &XEXP (x, 1), tem, 1);
    }

  /* Simplify the expression in case we put in some constants.  */
  switch (GET_RTX_CLASS (code))
    {
    case '1':
      new = simplify_unary_operation (code, GET_MODE (x),
				      XEXP (x, 0), op0_mode);
      break;

    case '<':
      {
	enum machine_mode op_mode = GET_MODE (XEXP (x, 0));
	if (op_mode == VOIDmode)
	  op_mode = GET_MODE (XEXP (x, 1));
	new = simplify_relational_operation (code, op_mode,
					     XEXP (x, 0), XEXP (x, 1));
#ifdef FLOAT_STORE_FLAG_VALUE
	if (new != 0 && GET_MODE_CLASS (GET_MODE (x)) == MODE_FLOAT)
	  new = ((new == const0_rtx) ? CONST0_RTX (GET_MODE (x))
		 : CONST_DOUBLE_FROM_REAL_VALUE (FLOAT_STORE_FLAG_VALUE,
						 GET_MODE (x)));
#endif
	break;
      }

    case '2':
    case 'c':
      new = simplify_binary_operation (code, GET_MODE (x),
				       XEXP (x, 0), XEXP (x, 1));
      break;

    case 'b':
    case '3':
      new = simplify_ternary_operation (code, GET_MODE (x), op0_mode,
					XEXP (x, 0), XEXP (x, 1), XEXP (x, 2));
      break;
    }

  if (new)
    validate_change (insn, loc, new, 1);
}

/* Show that register modified no longer contain known constants.  We are
   called from note_stores with parts of the new insn.  */

void
mark_stores (dest, x)
     rtx dest;
     rtx x;
{
  int regno = -1;
  enum machine_mode mode;

  /* DEST is always the innermost thing set, except in the case of
     SUBREGs of hard registers.  */

  if (GET_CODE (dest) == REG)
    regno = REGNO (dest), mode = GET_MODE (dest);
  else if (GET_CODE (dest) == SUBREG && GET_CODE (SUBREG_REG (dest)) == REG)
    {
      regno = REGNO (SUBREG_REG (dest)) + SUBREG_WORD (dest);
      mode = GET_MODE (SUBREG_REG (dest));
    }

  if (regno >= 0)
    {
      int last_reg = (regno >= FIRST_PSEUDO_REGISTER ? regno
		      : regno + HARD_REGNO_NREGS (regno, mode) - 1);
      int i;

      for (i = regno; i <= last_reg; i++)
	if (i < global_const_equiv_map_size)
	  global_const_equiv_map[i] = 0;
    }
}

/* If any CONST expressions with RTX_INTEGRATED_P are present in the rtx
   pointed to by PX, they represent constants in the constant pool.
   Replace these with a new memory reference obtained from force_const_mem.
   Similarly, ADDRESS expressions with RTX_INTEGRATED_P represent the
   address of a constant pool entry.  Replace them with the address of
   a new constant pool entry obtained from force_const_mem.  */

static void
restore_constants (px)
     rtx *px;
{
  rtx x = *px;
  int i, j;
  char *fmt;

  if (x == 0)
    return;

  if (GET_CODE (x) == CONST_DOUBLE)
    {
      /* We have to make a new CONST_DOUBLE to ensure that we account for
	 it correctly.  Using the old CONST_DOUBLE_MEM data is wrong.  */
      if (GET_MODE_CLASS (GET_MODE (x)) == MODE_FLOAT)
	{
	  REAL_VALUE_TYPE d;

	  REAL_VALUE_FROM_CONST_DOUBLE (d, x);
	  *px = CONST_DOUBLE_FROM_REAL_VALUE (d, GET_MODE (x));
	}
      else
	*px = immed_double_const (CONST_DOUBLE_LOW (x), CONST_DOUBLE_HIGH (x),
				  VOIDmode);
    }

  else if (RTX_INTEGRATED_P (x) && GET_CODE (x) == CONST)
    {
      restore_constants (&XEXP (x, 0));
      *px = validize_mem (force_const_mem (GET_MODE (x), XEXP (x, 0)));
    }
  else if (RTX_INTEGRATED_P (x) && GET_CODE (x) == SUBREG)
    {
      /* This must be (subreg/i:M1 (const/i:M2 ...) 0).  */
      rtx new = XEXP (SUBREG_REG (x), 0);

      restore_constants (&new);
      new = force_const_mem (GET_MODE (SUBREG_REG (x)), new);
      PUT_MODE (new, GET_MODE (x));
      *px = validize_mem (new);
    }
  else if (RTX_INTEGRATED_P (x) && GET_CODE (x) == ADDRESS)
    {
      restore_constants (&XEXP (x, 0));
      *px = XEXP (force_const_mem (GET_MODE (x), XEXP (x, 0)), 0);
    }
  else
    {
      fmt = GET_RTX_FORMAT (GET_CODE (x));
      for (i = 0; i < GET_RTX_LENGTH (GET_CODE (x)); i++)
	{
	  switch (*fmt++)
	    {
	    case 'E':
	      for (j = 0; j < XVECLEN (x, i); j++)
		restore_constants (&XVECEXP (x, i, j));
	      break;

	    case 'e':
	      restore_constants (&XEXP (x, i));
	      break;
	    }
	}
    }
}

/* Given a pointer to some BLOCK node, if the BLOCK_ABSTRACT_ORIGIN for the
   given BLOCK node is NULL, set the BLOCK_ABSTRACT_ORIGIN for the node so
   that it points to the node itself, thus indicating that the node is its
   own (abstract) origin.  Additionally, if the BLOCK_ABSTRACT_ORIGIN for
   the given node is NULL, recursively descend the decl/block tree which
   it is the root of, and for each other ..._DECL or BLOCK node contained
   therein whose DECL_ABSTRACT_ORIGINs or BLOCK_ABSTRACT_ORIGINs are also
   still NULL, set *their* DECL_ABSTRACT_ORIGIN or BLOCK_ABSTRACT_ORIGIN
   values to point to themselves.  */

static void
set_block_origin_self (stmt)
     register tree stmt;
{
  if (BLOCK_ABSTRACT_ORIGIN (stmt) == NULL_TREE)
    {
      BLOCK_ABSTRACT_ORIGIN (stmt) = stmt;

      {
        register tree local_decl;

        for (local_decl = BLOCK_VARS (stmt);
	     local_decl != NULL_TREE;
	     local_decl = TREE_CHAIN (local_decl))
          set_decl_origin_self (local_decl);	/* Potential recursion.  */
      }

      {
        register tree subblock;

        for (subblock = BLOCK_SUBBLOCKS (stmt);
	     subblock != NULL_TREE;
	     subblock = BLOCK_CHAIN (subblock))
          set_block_origin_self (subblock);	/* Recurse.  */
      }
    }
}

/* Given a pointer to some ..._DECL node, if the DECL_ABSTRACT_ORIGIN for
   the given ..._DECL node is NULL, set the DECL_ABSTRACT_ORIGIN for the
   node to so that it points to the node itself, thus indicating that the
   node represents its own (abstract) origin.  Additionally, if the
   DECL_ABSTRACT_ORIGIN for the given node is NULL, recursively descend
   the decl/block tree of which the given node is the root of, and for
   each other ..._DECL or BLOCK node contained therein whose
   DECL_ABSTRACT_ORIGINs or BLOCK_ABSTRACT_ORIGINs are also still NULL,
   set *their* DECL_ABSTRACT_ORIGIN or BLOCK_ABSTRACT_ORIGIN values to
   point to themselves.  */

static void
set_decl_origin_self (decl)
     register tree decl;
{
  if (DECL_ABSTRACT_ORIGIN (decl) == NULL_TREE)
    {
      DECL_ABSTRACT_ORIGIN (decl) = decl;
      if (TREE_CODE (decl) == FUNCTION_DECL)
	{
	  register tree arg;

	  for (arg = DECL_ARGUMENTS (decl); arg; arg = TREE_CHAIN (arg))
	    DECL_ABSTRACT_ORIGIN (arg) = arg;
	  if (DECL_INITIAL (decl) != NULL_TREE)
	    set_block_origin_self (DECL_INITIAL (decl));
	}
    }
}

/* Given a pointer to some BLOCK node, and a boolean value to set the
   "abstract" flags to, set that value into the BLOCK_ABSTRACT flag for
   the given block, and for all local decls and all local sub-blocks
   (recursively) which are contained therein.  */

static void
set_block_abstract_flags (stmt, setting)
     register tree stmt;
     register int setting;
{
  BLOCK_ABSTRACT (stmt) = setting;

  {
    register tree local_decl;

    for (local_decl = BLOCK_VARS (stmt);
	 local_decl != NULL_TREE;
	 local_decl = TREE_CHAIN (local_decl))
      set_decl_abstract_flags (local_decl, setting);
  }

  {
    register tree subblock;

    for (subblock = BLOCK_SUBBLOCKS (stmt);
	 subblock != NULL_TREE;
	 subblock = BLOCK_CHAIN (subblock))
      set_block_abstract_flags (subblock, setting);
  }
}

/* Given a pointer to some ..._DECL node, and a boolean value to set the
   "abstract" flags to, set that value into the DECL_ABSTRACT flag for the
   given decl, and (in the case where the decl is a FUNCTION_DECL) also
   set the abstract flags for all of the parameters, local vars, local
   blocks and sub-blocks (recursively) to the same setting.  */

void
set_decl_abstract_flags (decl, setting)
     register tree decl;
     register int setting;
{
  DECL_ABSTRACT (decl) = setting;
  if (TREE_CODE (decl) == FUNCTION_DECL)
    {
      register tree arg;

      for (arg = DECL_ARGUMENTS (decl); arg; arg = TREE_CHAIN (arg))
	DECL_ABSTRACT (arg) = setting;
      if (DECL_INITIAL (decl) != NULL_TREE)
	set_block_abstract_flags (DECL_INITIAL (decl), setting);
    }
}

/* Output the assembly language code for the function FNDECL
   from its DECL_SAVED_INSNS.  Used for inline functions that are output
   at end of compilation instead of where they came in the source.  */

void
output_inline_function (fndecl)
     tree fndecl;
{
  rtx head;
  rtx last;

  if (output_bytecode)
    {
      warning ("`inline' ignored for bytecode output");
      return;
    }

  head = DECL_SAVED_INSNS (fndecl);
  current_function_decl = fndecl;

  /* This call is only used to initialize global variables.  */
  init_function_start (fndecl, "lossage", 1);

  /* Redo parameter determinations in case the FUNCTION_...
     macros took machine-specific actions that need to be redone.  */
  assign_parms (fndecl, 1);

  /* Set stack frame size.  */
  assign_stack_local (BLKmode, DECL_FRAME_SIZE (fndecl), 0);

  restore_reg_data (FIRST_PARM_INSN (head));

  stack_slot_list = STACK_SLOT_LIST (head);
  forced_labels = FORCED_LABELS (head);

  if (FUNCTION_FLAGS (head) & FUNCTION_FLAGS_CALLS_ALLOCA)
    current_function_calls_alloca = 1;

  if (FUNCTION_FLAGS (head) & FUNCTION_FLAGS_CALLS_SETJMP)
    current_function_calls_setjmp = 1;

  if (FUNCTION_FLAGS (head) & FUNCTION_FLAGS_CALLS_LONGJMP)
    current_function_calls_longjmp = 1;

  if (FUNCTION_FLAGS (head) & FUNCTION_FLAGS_RETURNS_STRUCT)
    current_function_returns_struct = 1;

  if (FUNCTION_FLAGS (head) & FUNCTION_FLAGS_RETURNS_PCC_STRUCT)
    current_function_returns_pcc_struct = 1;

  if (FUNCTION_FLAGS (head) & FUNCTION_FLAGS_NEEDS_CONTEXT)
    current_function_needs_context = 1;

  if (FUNCTION_FLAGS (head) & FUNCTION_FLAGS_HAS_NONLOCAL_LABEL)
    current_function_has_nonlocal_label = 1;

  if (FUNCTION_FLAGS (head) & FUNCTION_FLAGS_RETURNS_POINTER)
    current_function_returns_pointer = 1;

  if (FUNCTION_FLAGS (head) & FUNCTION_FLAGS_USES_CONST_POOL)
    current_function_uses_const_pool = 1;

  if (FUNCTION_FLAGS (head) & FUNCTION_FLAGS_USES_PIC_OFFSET_TABLE)
    current_function_uses_pic_offset_table = 1;

  current_function_outgoing_args_size = OUTGOING_ARGS_SIZE (head);
  current_function_pops_args = POPS_ARGS (head);

  /* This is the only thing the expand_function_end call that uses to be here
     actually does and that call can cause problems.  */
  immediate_size_expand--;

  /* Find last insn and rebuild the constant pool.  */
  for (last = FIRST_PARM_INSN (head);
       NEXT_INSN (last); last = NEXT_INSN (last))
    {
      if (GET_RTX_CLASS (GET_CODE (last)) == 'i')
	{
	  restore_constants (&PATTERN (last));
	  restore_constants (&REG_NOTES (last));
	}
    }

  set_new_first_and_last_insn (FIRST_PARM_INSN (head), last);
  set_new_first_and_last_label_num (FIRST_LABELNO (head), LAST_LABELNO (head));

  /* We must have already output DWARF debugging information for the
     original (abstract) inline function declaration/definition, so
     we want to make sure that the debugging information we generate
     for this special instance of the inline function refers back to
     the information we already generated.  To make sure that happens,
     we simply have to set the DECL_ABSTRACT_ORIGIN for the function
     node (and for all of the local ..._DECL nodes which are its children)
     so that they all point to themselves.  */

  set_decl_origin_self (fndecl);

  /* We're not deferring this any longer.  */
  DECL_DEFER_OUTPUT (fndecl) = 0;

  /* Compile this function all the way down to assembly code.  */
  rest_of_compilation (fndecl);

  current_function_decl = 0;
}