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Re: [patch] Separate immediate uses and phi routines from tree-flow*.h


On 09/25/2013 04:49 AM, Richard Biener wrote:
On Tue, Sep 24, 2013 at 4:39 PM, Andrew MacLeod <amacleod@redhat.com> wrote:
This larger patch moves all the immediate use and operand routines from
tree-flow.h into tree-ssa-operands.h.
It also moves the basic phi routines and prototypes into a newly created
tree-phinodes.h, or tree-ssa-operands.h if they belong there.
And finally shuffles a couple of other routines which allows
tree-ssa-operands.h to be removed from the gimple.h header file.

of note or interest:

1 - dump_decl_set() was defined in tree-into-ssa.c, but isn't really ssa
specific. Its tree-specific, so normally I'd throw it into tree.c.  Looking
forward a little, its only used in a gimple context, so when we map to
gimple_types it will need to be converted to/created for those. If it is in
tree.c, I'll have to create a new version for gimple types, and then the
routine in tree.c will become unused.  Based on that, I figured gimple.c is
the place place for it.

2 - has_zero_uses_1() and single_imm_use_1() were both in tree-cfg.c for
some reason.. they've been moved to tree-ssa-operands.c

3 - a few routines seem like basic gimple routines, but really turn out to
require the operand infrastructure to implement... so they are moved to
tree-ssa-operands.[ch] as well.  This sort of thing showed up when removing
tree-ssa-operands.h from the gimple.h include file.  These were things like
gimple_vuse_op, gimple_vdef_op, update_stmt, and update_stmt_if_modified
Note that things like gimple_vuse_op are on the interface border between
gimple (where the SSA operands are stored) and SSA operands.  So
it's not so clear for them given they access internal gimple fields directly
but use the regular SSA operand API.

I'd prefer gimple_vuse_op and gimple_vdef_op to stay in gimple.[ch].

Ugg. I incorporated what we talked about, and it was much messier than expected :-P. I ended up with a chicken and egg problem between the gimple_v{use,def}_op routines in gimple-ssa.h and the operand routines in tree-ssa-operands.h. They both require each other, and I couldn't get things into a consistent state while they are in separate files. It was actually the immediate use iterators which were requiring gimple_vuse_op()... So I have created a new ssa-iterators.h file to resolve this problem. They build on the operand code and clearly has other prerequisites, so that seems reasonable to me...

This in fact solves a couple of other little warts. It allows me to put both gimple_phi_arg_imm_use_ptr() and phi_arg_index_from_use() into tree-phinodes.h.

It also exposes that gimple.c::walk_stmt_load_store_addr_ops() and friends actually depend on the existence of PHI nodes, meaning it really belongs on the gimple-ssa border as well. So I moved those into gimple-ssa.c

And finally, it turns out that a lot of files include "tree-flow.h" and depend on it to include "gimple.h" rather than including it themselves. Since tree-flow.h is losing its kitchen-sink attribute, and I needed to move it to the bottom of the #include list for tree-ssa.h, I have temporarily included gimple.h at the top of tree-ssa.h to make sure it gets hauled in. When I remove tree-flow.h as the "everyone includes it" file, I'll add gimple.h in all the appropriate .c files and remove it from tree-ssa.h. It would have just made this growing patch even more annoying for now.

Does this seem reasonable?

Bootstraps on x86_64-unknown-linux-gnu and currently running regressions.

Andrew

PS Oh and I noticed the macro name for tree-outof-ssa.h wasnt right, so I changed it too.

Next I'll diverge into trying to sort through putting all the phi-related structs and such into tree-phinodes.h
	* tree-into-ssa.c (enum need_phi_state): Relocate from tree-flow.h.
	(dump_decl_set): Move to gimple.c.
	* gimple.h: Don't include tree-ssa-operands.h.
	(dump_decl_set): Add prototype.
	(gimple_vuse_op, gimple_vdef_op, update_stmt, update_stmt_if_modified):
	Move to gimple-ssa.h.
	* gimple.c (get_base_loadstore, walk_stmt_load_store_ops,
	gimple_ior_addresses_taken_1, gimple_ior_addresses_taken): Move to
	gimple-ssa.c.
	(walk_stmt_load_store_addr_ops): Move to gimple-ssa.h.
	(dump_decl_set): Relocate here.
	* gimple-ssa.h: New file.
	(walk_stmt_load_store_ops): Relocate here from gimple.c.
	(gimple_vuse_op, gimple_vdef_op, update_stmt, update_stmt_if_modified):
	Relocate from gimple.h.
	* gimple-ssa.c: New file.
	(get_base_loadstore, walk_stmt_load_store_addr_ops,
	gimple_ior_addresses_taken_1, gimple_ior_addresses_taken): Relocate from
	gimple.c.
	* tree-cfg.c (has_zero_uses_1, single_imm_use_1): Move to...
	* tree-ssa-operands.c (swap_ssa_operands): Rename from
	swap_tree_operands and remove non-ssa path.
	(has_zero_uses_1, single_imm_use_1): Relocate from tree-cfg.c.
	* tree-ssa-reassoc.c (linearize_expr_tree, repropagate_negates): Use
	swap_ssa_operands.
	* tree-vect-loop.c (destroy_loop_vec_info, vect_is_slp_reduction,
	vect_is_simple_reduction_1): Use swap_ssa_operands.
	* tree-flow.h: Move various prototypes to tree-phinodes.h.
	(enum need_phi_state): Move to tree-into-ssa.c.
	(struct immediate_use_iterator_d, FOR_EACH_IMM_*,
	BREAK_FROM_IMM_USE_STMT): Move to ssa-iterators.h.
	(swap_tree_operands): Rename and move prototype to tree-ssa-operands.h.
	* tree-flow-inline.h (delink_imm_use, link_imm_use_to_list,
	link_imm_use, set_ssa_use_from_ptr, link_imm_use_stmt, relink_imm_use,
	relink_imm_use_stmt, end_readonly_imm_use_p, first_readonly_imm_use,
	next_readonly_imm_use, has_zero_uses, has_single_use, single_imm_use,
	num_imm_uses): Move to ssa-iterators.h.
	(get_use_from_ptr, get_def_from_ptr): Move to tree-ssa-operands.h
	(gimple_phi_arg_imm_use_ptr, phi_arg_index_from_use): Move to 
	tree-phinodes.h.
	(op_iter_done, op_iter_next_def, op_iter_next_tree,
	clear_and_done_ssa_iter, op_iter_init, op_iter_init_use,
	op_iter_init_def, op_iter_init_tree, single_ssa_tree_operand,
	single_ssa_use_operand, single_ssa_def_operand, zero_ssa_operands,
	num_ssa_operands, delink_stmt_imm_use, single_phi_def,
	op_iter_init_phiuse, op_iter_init_phidef, end_imm_use_stmt_p,
	end_imm_use_stmt_traverse, move_use_after_head, link_use_stmts_after,
	first_imm_use_stmt, next_imm_use_stmt, first_imm_use_on_stmt,
	end_imm_use_on_stmt_p, next_imm_use_on_stmt): Move to ssa-iterators.h.
	(gimple_phi_arg_def, gimple_phi_arg_def_ptr, gimple_phi_arg_edge,
	gimple_phi_arg_location, gimple_phi_arg_location_from_edge,
	gimple_phi_arg_set_location, gimple_phi_arg_has_location, phi_nodes,
	phi_nodes_ptr, set_phi_nodes, phi_ssa_name_p): Move to tree-phinodes.h.
	* tree-ssa-operands.h (enum ssa_op_iter_type,
	struct ssa_operand_iterator_d, SSA_OP*, FOR_EACH_SSA*, SINGLE_SSA*,
	ZERO_SSA_OPERANDS, NUM_SSA_OPERANDS): Move to ssa-iterators.h.
	(dump_decl_set): Remove prototype.
	(get_use_from_ptr, get_def_from_ptr): Relocate from tree-flow.h.
	* tree-phinodes.h: New file.  Move some prototypes from tree-flow.h.
	(phi_ssa_name_p, phi_nodes, phi_node_ptr, set_phi_nodes,
	gimple_phi_arg_def, gimple_phi_arg_def_ptr, gimple_phi_arg_edge,
	gimple_phi_arg_location, gimple_phi_arg_location_from_edge,
	gimple_phi_arg_set_location, gimple_phi_arg_has_location,
	gimple_phi_arg_imm_use_ptr, phi_arg_index_from_use): Relocate from 
	tree-flow-inline.h
	* tree-ssa.h: Add tree-phinodes.h, gimple-ssa.h, ssa-iterators.h to
	include list.  Temporarily add gimple.h to include list.
	* ssa-iteratoras.h: New file.
	(struct immediate_use_iterator_d, FOR_EACH_IMM_*,
	BREAK_FROM_IMM_USE_STMT): Relocate from tree-flow.h.
	(enum ssa_op_iter_type, struct ssa_operand_iterator_d, SSA_OP*,
	FOR_EACH_SSA*, SINGLE_SSA*, ZERO_SSA_OPERANDS, NUM_SSA_OPERANDS):
	Relocate from tree-ssa-operands.h.
	(delink_imm_use, link_imm_use_to_list, link_imm_use,
	set_ssa_use_from_ptr, link_imm_use_stmt, relink_imm_use,
	relink_imm_use_stmt, end_readonly_imm_use_p, first_readonly_imm_use,
	next_readonly_imm_use, has_zero_uses, has_single_use, single_imm_use,
	num_imm_uses, get_use_from_ptr, get_def_from_ptr,
	phi_arg_index_from_use, op_iter_done, op_iter_next_def,
	op_iter_next_tree, clear_and_done_ssa_iter, op_iter_init,
	op_iter_init_use, op_iter_init_def, op_iter_init_tree,
	single_ssa_tree_operand, single_ssa_use_operand, single_ssa_def_operand,
	zero_ssa_operands, num_ssa_operands, delink_stmt_imm_use,
	single_phi_def, op_iter_init_phiuse, op_iter_init_phidef,
	end_imm_use_stmt_p, end_imm_use_stmt_traverse, move_use_after_head,
	link_use_stmts_after, first_imm_use_stmt, next_imm_use_stmt,
	first_imm_use_on_stmt, end_imm_use_on_stmt_p, next_imm_use_on_stmt):
	Relocate from tree-flow-inline.h.
	* tree-outof-ssa.h: Change _SSAEXPAND_H macro to GCC_TREE_OUTOF_SSA_H.
	* Makefile.in: Add gimple-ssa.o to OBJS.

Index: tree-into-ssa.c
===================================================================
*** tree-into-ssa.c	(revision 202947)
--- tree-into-ssa.c	(working copy)
*************** struct mark_def_sites_global_data
*** 128,133 ****
--- 128,157 ----
    bitmap kills;
  };
  
+ /* It is advantageous to avoid things like life analysis for variables which
+    do not need PHI nodes.  This enum describes whether or not a particular
+    variable may need a PHI node.  */
+ 
+ enum need_phi_state {
+   /* This is the default.  If we are still in this state after finding
+      all the definition and use sites, then we will assume the variable
+      needs PHI nodes.  This is probably an overly conservative assumption.  */
+   NEED_PHI_STATE_UNKNOWN,
+ 
+   /* This state indicates that we have seen one or more sets of the
+      variable in a single basic block and that the sets dominate all
+      uses seen so far.  If after finding all definition and use sites
+      we are still in this state, then the variable does not need any
+      PHI nodes.  */
+   NEED_PHI_STATE_NO,
+ 
+   /* This state indicates that we have either seen multiple definitions of
+      the variable in multiple blocks, or that we encountered a use in a
+      block that was not dominated by the block containing the set(s) of
+      this variable.  This variable is assumed to need PHI nodes.  */
+   NEED_PHI_STATE_MAYBE
+ };
+ 
  /* Information stored for both SSA names and decls.  */
  struct common_info_d
  {
*************** rewrite_dom_walker::after_dom_children (
*** 1494,1524 ****
  
  /* Dump bitmap SET (assumed to contain VAR_DECLs) to FILE.  */
  
- void
- dump_decl_set (FILE *file, bitmap set)
- {
-   if (set)
-     {
-       bitmap_iterator bi;
-       unsigned i;
- 
-       fprintf (file, "{ ");
- 
-       EXECUTE_IF_SET_IN_BITMAP (set, 0, i, bi)
- 	{
- 	  fprintf (file, "D.%u", i);
- 	  fprintf (file, " ");
- 	}
- 
-       fprintf (file, "}");
-     }
-   else
-     fprintf (file, "NIL");
- }
- 
- 
- /* Dump bitmap SET (assumed to contain VAR_DECLs) to FILE.  */
- 
  DEBUG_FUNCTION void
  debug_decl_set (bitmap set)
  {
--- 1518,1523 ----
Index: gimple.h
===================================================================
*** gimple.h	(revision 202947)
--- gimple.h	(working copy)
*************** along with GCC; see the file COPYING3.  
*** 28,34 ****
  #include "ggc.h"
  #include "basic-block.h"
  #include "tree.h"
- #include "tree-ssa-operands.h"
  #include "tree-ssa-alias.h"
  #include "internal-fn.h"
  
--- 28,33 ----
*************** extern void free_gimple_type_tables (voi
*** 896,909 ****
  extern tree gimple_unsigned_type (tree);
  extern tree gimple_signed_type (tree);
  extern alias_set_type gimple_get_alias_set (tree);
- extern bool walk_stmt_load_store_addr_ops (gimple, void *,
- 					   bool (*)(gimple, tree, void *),
- 					   bool (*)(gimple, tree, void *),
- 					   bool (*)(gimple, tree, void *));
- extern bool walk_stmt_load_store_ops (gimple, void *,
- 				      bool (*)(gimple, tree, void *),
- 				      bool (*)(gimple, tree, void *));
- extern bool gimple_ior_addresses_taken (bitmap, gimple);
  extern bool gimple_call_builtin_p (gimple, enum built_in_class);
  extern bool gimple_call_builtin_p (gimple, enum built_in_function);
  extern bool gimple_asm_clobbers_memory_p (const_gimple);
--- 895,900 ----
*************** extern void omp_firstprivatize_variable 
*** 1064,1069 ****
--- 1055,1061 ----
  extern tree gimple_boolify (tree);
  extern gimple_predicate rhs_predicate_for (tree);
  extern tree canonicalize_cond_expr_cond (tree);
+ extern void dump_decl_set (FILE *, bitmap);
  
  /* In omp-low.c.  */
  extern tree omp_reduction_init (tree, tree);
*************** gimple_set_use_ops (gimple g, struct use
*** 1471,1504 ****
  }
  
  
- /* Return the set of VUSE operand for statement G.  */
- 
- static inline use_operand_p
- gimple_vuse_op (const_gimple g)
- {
-   struct use_optype_d *ops;
-   if (!gimple_has_mem_ops (g))
-     return NULL_USE_OPERAND_P;
-   ops = g->gsops.opbase.use_ops;
-   if (ops
-       && USE_OP_PTR (ops)->use == &g->gsmembase.vuse)
-     return USE_OP_PTR (ops);
-   return NULL_USE_OPERAND_P;
- }
- 
- /* Return the set of VDEF operand for statement G.  */
- 
- static inline def_operand_p
- gimple_vdef_op (gimple g)
- {
-   if (!gimple_has_mem_ops (g))
-     return NULL_DEF_OPERAND_P;
-   if (g->gsmembase.vdef)
-     return &g->gsmembase.vdef;
-   return NULL_DEF_OPERAND_P;
- }
- 
- 
  /* Return the single VUSE operand of the statement G.  */
  
  static inline tree
--- 1463,1468 ----
*************** gimple_expr_code (const_gimple stmt)
*** 1599,1625 ****
  }
  
  
- /* Mark statement S as modified, and update it.  */
- 
- static inline void
- update_stmt (gimple s)
- {
-   if (gimple_has_ops (s))
-     {
-       gimple_set_modified (s, true);
-       update_stmt_operands (s);
-     }
- }
- 
- /* Update statement S if it has been optimized.  */
- 
- static inline void
- update_stmt_if_modified (gimple s)
- {
-   if (gimple_modified_p (s))
-     update_stmt_operands (s);
- }
- 
  /* Return true if statement STMT contains volatile operands.  */
  
  static inline bool
--- 1563,1568 ----
Index: gimple.c
===================================================================
*** gimple.c	(revision 202947)
--- gimple.c	(working copy)
*************** gimple_get_alias_set (tree t)
*** 3706,3985 ****
  }
  
  
- /* From a tree operand OP return the base of a load or store operation
-    or NULL_TREE if OP is not a load or a store.  */
- 
- static tree
- get_base_loadstore (tree op)
- {
-   while (handled_component_p (op))
-     op = TREE_OPERAND (op, 0);
-   if (DECL_P (op)
-       || INDIRECT_REF_P (op)
-       || TREE_CODE (op) == MEM_REF
-       || TREE_CODE (op) == TARGET_MEM_REF)
-     return op;
-   return NULL_TREE;
- }
- 
- /* For the statement STMT call the callbacks VISIT_LOAD, VISIT_STORE and
-    VISIT_ADDR if non-NULL on loads, store and address-taken operands
-    passing the STMT, the base of the operand and DATA to it.  The base
-    will be either a decl, an indirect reference (including TARGET_MEM_REF)
-    or the argument of an address expression.
-    Returns the results of these callbacks or'ed.  */
- 
- bool
- walk_stmt_load_store_addr_ops (gimple stmt, void *data,
- 			       bool (*visit_load)(gimple, tree, void *),
- 			       bool (*visit_store)(gimple, tree, void *),
- 			       bool (*visit_addr)(gimple, tree, void *))
- {
-   bool ret = false;
-   unsigned i;
-   if (gimple_assign_single_p (stmt))
-     {
-       tree lhs, rhs;
-       if (visit_store)
- 	{
- 	  lhs = get_base_loadstore (gimple_assign_lhs (stmt));
- 	  if (lhs)
- 	    ret |= visit_store (stmt, lhs, data);
- 	}
-       rhs = gimple_assign_rhs1 (stmt);
-       while (handled_component_p (rhs))
- 	rhs = TREE_OPERAND (rhs, 0);
-       if (visit_addr)
- 	{
- 	  if (TREE_CODE (rhs) == ADDR_EXPR)
- 	    ret |= visit_addr (stmt, TREE_OPERAND (rhs, 0), data);
- 	  else if (TREE_CODE (rhs) == TARGET_MEM_REF
- 		   && TREE_CODE (TMR_BASE (rhs)) == ADDR_EXPR)
- 	    ret |= visit_addr (stmt, TREE_OPERAND (TMR_BASE (rhs), 0), data);
- 	  else if (TREE_CODE (rhs) == OBJ_TYPE_REF
- 		   && TREE_CODE (OBJ_TYPE_REF_OBJECT (rhs)) == ADDR_EXPR)
- 	    ret |= visit_addr (stmt, TREE_OPERAND (OBJ_TYPE_REF_OBJECT (rhs),
- 						   0), data);
- 	  else if (TREE_CODE (rhs) == CONSTRUCTOR)
- 	    {
- 	      unsigned int ix;
- 	      tree val;
- 
- 	      FOR_EACH_CONSTRUCTOR_VALUE (CONSTRUCTOR_ELTS (rhs), ix, val)
- 		if (TREE_CODE (val) == ADDR_EXPR)
- 		  ret |= visit_addr (stmt, TREE_OPERAND (val, 0), data);
- 		else if (TREE_CODE (val) == OBJ_TYPE_REF
- 			 && TREE_CODE (OBJ_TYPE_REF_OBJECT (val)) == ADDR_EXPR)
- 		  ret |= visit_addr (stmt,
- 				     TREE_OPERAND (OBJ_TYPE_REF_OBJECT (val),
- 						   0), data);
- 	    }
-           lhs = gimple_assign_lhs (stmt);
- 	  if (TREE_CODE (lhs) == TARGET_MEM_REF
-               && TREE_CODE (TMR_BASE (lhs)) == ADDR_EXPR)
-             ret |= visit_addr (stmt, TREE_OPERAND (TMR_BASE (lhs), 0), data);
- 	}
-       if (visit_load)
- 	{
- 	  rhs = get_base_loadstore (rhs);
- 	  if (rhs)
- 	    ret |= visit_load (stmt, rhs, data);
- 	}
-     }
-   else if (visit_addr
- 	   && (is_gimple_assign (stmt)
- 	       || gimple_code (stmt) == GIMPLE_COND))
-     {
-       for (i = 0; i < gimple_num_ops (stmt); ++i)
- 	{
- 	  tree op = gimple_op (stmt, i);
- 	  if (op == NULL_TREE)
- 	    ;
- 	  else if (TREE_CODE (op) == ADDR_EXPR)
- 	    ret |= visit_addr (stmt, TREE_OPERAND (op, 0), data);
- 	  /* COND_EXPR and VCOND_EXPR rhs1 argument is a comparison
- 	     tree with two operands.  */
- 	  else if (i == 1 && COMPARISON_CLASS_P (op))
- 	    {
- 	      if (TREE_CODE (TREE_OPERAND (op, 0)) == ADDR_EXPR)
- 		ret |= visit_addr (stmt, TREE_OPERAND (TREE_OPERAND (op, 0),
- 						       0), data);
- 	      if (TREE_CODE (TREE_OPERAND (op, 1)) == ADDR_EXPR)
- 		ret |= visit_addr (stmt, TREE_OPERAND (TREE_OPERAND (op, 1),
- 						       0), data);
- 	    }
- 	}
-     }
-   else if (is_gimple_call (stmt))
-     {
-       if (visit_store)
- 	{
- 	  tree lhs = gimple_call_lhs (stmt);
- 	  if (lhs)
- 	    {
- 	      lhs = get_base_loadstore (lhs);
- 	      if (lhs)
- 		ret |= visit_store (stmt, lhs, data);
- 	    }
- 	}
-       if (visit_load || visit_addr)
- 	for (i = 0; i < gimple_call_num_args (stmt); ++i)
- 	  {
- 	    tree rhs = gimple_call_arg (stmt, i);
- 	    if (visit_addr
- 		&& TREE_CODE (rhs) == ADDR_EXPR)
- 	      ret |= visit_addr (stmt, TREE_OPERAND (rhs, 0), data);
- 	    else if (visit_load)
- 	      {
- 		rhs = get_base_loadstore (rhs);
- 		if (rhs)
- 		  ret |= visit_load (stmt, rhs, data);
- 	      }
- 	  }
-       if (visit_addr
- 	  && gimple_call_chain (stmt)
- 	  && TREE_CODE (gimple_call_chain (stmt)) == ADDR_EXPR)
- 	ret |= visit_addr (stmt, TREE_OPERAND (gimple_call_chain (stmt), 0),
- 			   data);
-       if (visit_addr
- 	  && gimple_call_return_slot_opt_p (stmt)
- 	  && gimple_call_lhs (stmt) != NULL_TREE
- 	  && TREE_ADDRESSABLE (TREE_TYPE (gimple_call_lhs (stmt))))
- 	ret |= visit_addr (stmt, gimple_call_lhs (stmt), data);
-     }
-   else if (gimple_code (stmt) == GIMPLE_ASM)
-     {
-       unsigned noutputs;
-       const char *constraint;
-       const char **oconstraints;
-       bool allows_mem, allows_reg, is_inout;
-       noutputs = gimple_asm_noutputs (stmt);
-       oconstraints = XALLOCAVEC (const char *, noutputs);
-       if (visit_store || visit_addr)
- 	for (i = 0; i < gimple_asm_noutputs (stmt); ++i)
- 	  {
- 	    tree link = gimple_asm_output_op (stmt, i);
- 	    tree op = get_base_loadstore (TREE_VALUE (link));
- 	    if (op && visit_store)
- 	      ret |= visit_store (stmt, op, data);
- 	    if (visit_addr)
- 	      {
- 		constraint = TREE_STRING_POINTER
- 		    (TREE_VALUE (TREE_PURPOSE (link)));
- 		oconstraints[i] = constraint;
- 		parse_output_constraint (&constraint, i, 0, 0, &allows_mem,
- 					 &allows_reg, &is_inout);
- 		if (op && !allows_reg && allows_mem)
- 		  ret |= visit_addr (stmt, op, data);
- 	      }
- 	  }
-       if (visit_load || visit_addr)
- 	for (i = 0; i < gimple_asm_ninputs (stmt); ++i)
- 	  {
- 	    tree link = gimple_asm_input_op (stmt, i);
- 	    tree op = TREE_VALUE (link);
- 	    if (visit_addr
- 		&& TREE_CODE (op) == ADDR_EXPR)
- 	      ret |= visit_addr (stmt, TREE_OPERAND (op, 0), data);
- 	    else if (visit_load || visit_addr)
- 	      {
- 		op = get_base_loadstore (op);
- 		if (op)
- 		  {
- 		    if (visit_load)
- 		      ret |= visit_load (stmt, op, data);
- 		    if (visit_addr)
- 		      {
- 			constraint = TREE_STRING_POINTER
- 			    (TREE_VALUE (TREE_PURPOSE (link)));
- 			parse_input_constraint (&constraint, 0, 0, noutputs,
- 						0, oconstraints,
- 						&allows_mem, &allows_reg);
- 			if (!allows_reg && allows_mem)
- 			  ret |= visit_addr (stmt, op, data);
- 		      }
- 		  }
- 	      }
- 	  }
-     }
-   else if (gimple_code (stmt) == GIMPLE_RETURN)
-     {
-       tree op = gimple_return_retval (stmt);
-       if (op)
- 	{
- 	  if (visit_addr
- 	      && TREE_CODE (op) == ADDR_EXPR)
- 	    ret |= visit_addr (stmt, TREE_OPERAND (op, 0), data);
- 	  else if (visit_load)
- 	    {
- 	      op = get_base_loadstore (op);
- 	      if (op)
- 		ret |= visit_load (stmt, op, data);
- 	    }
- 	}
-     }
-   else if (visit_addr
- 	   && gimple_code (stmt) == GIMPLE_PHI)
-     {
-       for (i = 0; i < gimple_phi_num_args (stmt); ++i)
- 	{
- 	  tree op = PHI_ARG_DEF (stmt, i);
- 	  if (TREE_CODE (op) == ADDR_EXPR)
- 	    ret |= visit_addr (stmt, TREE_OPERAND (op, 0), data);
- 	}
-     }
-   else if (visit_addr
- 	   && gimple_code (stmt) == GIMPLE_GOTO)
-     {
-       tree op = gimple_goto_dest (stmt);
-       if (TREE_CODE (op) == ADDR_EXPR)
- 	ret |= visit_addr (stmt, TREE_OPERAND (op, 0), data);
-     }
- 
-   return ret;
- }
- 
- /* Like walk_stmt_load_store_addr_ops but with NULL visit_addr.  IPA-CP
-    should make a faster clone for this case.  */
- 
- bool
- walk_stmt_load_store_ops (gimple stmt, void *data,
- 			  bool (*visit_load)(gimple, tree, void *),
- 			  bool (*visit_store)(gimple, tree, void *))
- {
-   return walk_stmt_load_store_addr_ops (stmt, data,
- 					visit_load, visit_store, NULL);
- }
- 
- /* Helper for gimple_ior_addresses_taken_1.  */
- 
- static bool
- gimple_ior_addresses_taken_1 (gimple stmt ATTRIBUTE_UNUSED,
- 			      tree addr, void *data)
- {
-   bitmap addresses_taken = (bitmap)data;
-   addr = get_base_address (addr);
-   if (addr
-       && DECL_P (addr))
-     {
-       bitmap_set_bit (addresses_taken, DECL_UID (addr));
-       return true;
-     }
-   return false;
- }
- 
- /* Set the bit for the uid of all decls that have their address taken
-    in STMT in the ADDRESSES_TAKEN bitmap.  Returns true if there
-    were any in this stmt.  */
- 
- bool
- gimple_ior_addresses_taken (bitmap addresses_taken, gimple stmt)
- {
-   return walk_stmt_load_store_addr_ops (stmt, addresses_taken, NULL, NULL,
- 					gimple_ior_addresses_taken_1);
- }
- 
- 
  /* Return a printable name for symbol DECL.  */
  
  const char *
--- 3706,3711 ----
*************** types_compatible_p (tree type1, tree typ
*** 4356,4360 ****
--- 4082,4109 ----
  	      && useless_type_conversion_p (type2, type1)));
  }
  
+ /* Dump bitmap SET (assumed to contain VAR_DECLs) to FILE.  */
+ 
+ void
+ dump_decl_set (FILE *file, bitmap set)
+ {
+   if (set)
+     {
+       bitmap_iterator bi;
+       unsigned i;
+ 
+       fprintf (file, "{ ");
+ 
+       EXECUTE_IF_SET_IN_BITMAP (set, 0, i, bi)
+ 	{
+ 	  fprintf (file, "D.%u", i);
+ 	  fprintf (file, " ");
+ 	}
+ 
+       fprintf (file, "}");
+     }
+   else
+     fprintf (file, "NIL");
+ }
  
  #include "gt-gimple.h"
Index: gimple-ssa.h
===================================================================
*** gimple-ssa.h	(revision 0)
--- gimple-ssa.h	(revision 0)
***************
*** 0 ****
--- 1,92 ----
+ /* Header file for routines that straddle the border between GIMPLE and
+    SSA in gimple.
+    Copyright (C) 2009-2013 Free Software Foundation, Inc.
+ 
+ This file is part of GCC.
+ 
+ GCC 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 3, or (at your option)
+ any later version.
+ 
+ GCC 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 GCC; see the file COPYING3.  If not see
+ <http://www.gnu.org/licenses/>.  */
+ 
+ #ifndef GCC_GIMPLE_SSA_H
+ #define GCC_GIMPLE_SSA_H
+ 
+ extern bool walk_stmt_load_store_addr_ops (gimple, void *,
+ 					   bool (*)(gimple, tree, void *),
+ 					   bool (*)(gimple, tree, void *),
+ 					   bool (*)(gimple, tree, void *));
+ extern bool gimple_ior_addresses_taken (bitmap, gimple);
+ 
+ /* Return the set of VUSE operand for statement G.  */
+ 
+ /* Like walk_stmt_load_store_addr_ops but with NULL visit_addr.  IPA-CP
+    should make a faster clone for this case.  */
+ 
+ static inline bool
+ walk_stmt_load_store_ops (gimple stmt, void *data,
+ 			  bool (*visit_load)(gimple, tree, void *),
+ 			  bool (*visit_store)(gimple, tree, void *))
+ {
+   return walk_stmt_load_store_addr_ops (stmt, data,
+ 					visit_load, visit_store, NULL);
+ }
+ 
+ 
+ static inline use_operand_p
+ gimple_vuse_op (const_gimple g)
+ {
+   struct use_optype_d *ops;
+   if (!gimple_has_mem_ops (g))
+     return NULL_USE_OPERAND_P;
+   ops = g->gsops.opbase.use_ops;
+   if (ops
+       && USE_OP_PTR (ops)->use == &g->gsmembase.vuse)
+     return USE_OP_PTR (ops);
+   return NULL_USE_OPERAND_P;
+ }
+ 
+ /* Return the set of VDEF operand for statement G.  */
+ 
+ static inline def_operand_p
+ gimple_vdef_op (gimple g)
+ {
+   if (!gimple_has_mem_ops (g))
+     return NULL_DEF_OPERAND_P;
+   if (g->gsmembase.vdef)
+     return &g->gsmembase.vdef;
+   return NULL_DEF_OPERAND_P;
+ }
+ 
+ /* Mark statement S as modified, and update it.  */
+ 
+ static inline void
+ update_stmt (gimple s)
+ {
+   if (gimple_has_ops (s))
+     {
+       gimple_set_modified (s, true);
+       update_stmt_operands (s);
+     }
+ }
+ 
+ /* Update statement S if it has been optimized.  */
+ 
+ static inline void
+ update_stmt_if_modified (gimple s)
+ {
+   if (gimple_modified_p (s))
+     update_stmt_operands (s);
+ }
+ 
+ 
+ #endif /* GCC_GIMPLE_SSA_H */
Index: gimple-ssa.c
===================================================================
*** gimple-ssa.c	(revision 0)
--- gimple-ssa.c	(revision 0)
***************
*** 0 ****
--- 1,289 ----
+ /* Routines that straddle the border between GIMPLE and SSA in gimple.
+    Copyright (C) 2004-2013 Free Software Foundation, Inc.
+    Contributed by Andrew Macleod <amacleod@redhat.com>
+ 
+ This file is part of GCC.
+ 
+ GCC 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 3, or (at your option)
+ any later version.
+ 
+ GCC 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 GCC; see the file COPYING3.  If not see
+ <http://www.gnu.org/licenses/>.  */
+ 
+ #include "config.h"
+ #include "system.h"
+ #include "coretypes.h"
+ #include "tree.h"
+ #include "gimple.h"
+ #include "tree-ssa.h"
+ #include "gimple-ssa.h"
+ 
+ /* From a tree operand OP return the base of a load or store operation
+    or NULL_TREE if OP is not a load or a store.  */
+ 
+ static tree
+ get_base_loadstore (tree op)
+ {
+   while (handled_component_p (op))
+     op = TREE_OPERAND (op, 0);
+   if (DECL_P (op)
+       || INDIRECT_REF_P (op)
+       || TREE_CODE (op) == MEM_REF
+       || TREE_CODE (op) == TARGET_MEM_REF)
+     return op;
+   return NULL_TREE;
+ }
+ 
+ 
+ /* For the statement STMT call the callbacks VISIT_LOAD, VISIT_STORE and
+    VISIT_ADDR if non-NULL on loads, store and address-taken operands
+    passing the STMT, the base of the operand and DATA to it.  The base
+    will be either a decl, an indirect reference (including TARGET_MEM_REF)
+    or the argument of an address expression.
+    Returns the results of these callbacks or'ed.  */
+ 
+ bool
+ walk_stmt_load_store_addr_ops (gimple stmt, void *data,
+ 			       bool (*visit_load)(gimple, tree, void *),
+ 			       bool (*visit_store)(gimple, tree, void *),
+ 			       bool (*visit_addr)(gimple, tree, void *))
+ {
+   bool ret = false;
+   unsigned i;
+   if (gimple_assign_single_p (stmt))
+     {
+       tree lhs, rhs;
+       if (visit_store)
+ 	{
+ 	  lhs = get_base_loadstore (gimple_assign_lhs (stmt));
+ 	  if (lhs)
+ 	    ret |= visit_store (stmt, lhs, data);
+ 	}
+       rhs = gimple_assign_rhs1 (stmt);
+       while (handled_component_p (rhs))
+ 	rhs = TREE_OPERAND (rhs, 0);
+       if (visit_addr)
+ 	{
+ 	  if (TREE_CODE (rhs) == ADDR_EXPR)
+ 	    ret |= visit_addr (stmt, TREE_OPERAND (rhs, 0), data);
+ 	  else if (TREE_CODE (rhs) == TARGET_MEM_REF
+ 		   && TREE_CODE (TMR_BASE (rhs)) == ADDR_EXPR)
+ 	    ret |= visit_addr (stmt, TREE_OPERAND (TMR_BASE (rhs), 0), data);
+ 	  else if (TREE_CODE (rhs) == OBJ_TYPE_REF
+ 		   && TREE_CODE (OBJ_TYPE_REF_OBJECT (rhs)) == ADDR_EXPR)
+ 	    ret |= visit_addr (stmt, TREE_OPERAND (OBJ_TYPE_REF_OBJECT (rhs),
+ 						   0), data);
+ 	  else if (TREE_CODE (rhs) == CONSTRUCTOR)
+ 	    {
+ 	      unsigned int ix;
+ 	      tree val;
+ 
+ 	      FOR_EACH_CONSTRUCTOR_VALUE (CONSTRUCTOR_ELTS (rhs), ix, val)
+ 		if (TREE_CODE (val) == ADDR_EXPR)
+ 		  ret |= visit_addr (stmt, TREE_OPERAND (val, 0), data);
+ 		else if (TREE_CODE (val) == OBJ_TYPE_REF
+ 			 && TREE_CODE (OBJ_TYPE_REF_OBJECT (val)) == ADDR_EXPR)
+ 		  ret |= visit_addr (stmt,
+ 				     TREE_OPERAND (OBJ_TYPE_REF_OBJECT (val),
+ 						   0), data);
+ 	    }
+           lhs = gimple_assign_lhs (stmt);
+ 	  if (TREE_CODE (lhs) == TARGET_MEM_REF
+               && TREE_CODE (TMR_BASE (lhs)) == ADDR_EXPR)
+             ret |= visit_addr (stmt, TREE_OPERAND (TMR_BASE (lhs), 0), data);
+ 	}
+       if (visit_load)
+ 	{
+ 	  rhs = get_base_loadstore (rhs);
+ 	  if (rhs)
+ 	    ret |= visit_load (stmt, rhs, data);
+ 	}
+     }
+   else if (visit_addr
+ 	   && (is_gimple_assign (stmt)
+ 	       || gimple_code (stmt) == GIMPLE_COND))
+     {
+       for (i = 0; i < gimple_num_ops (stmt); ++i)
+ 	{
+ 	  tree op = gimple_op (stmt, i);
+ 	  if (op == NULL_TREE)
+ 	    ;
+ 	  else if (TREE_CODE (op) == ADDR_EXPR)
+ 	    ret |= visit_addr (stmt, TREE_OPERAND (op, 0), data);
+ 	  /* COND_EXPR and VCOND_EXPR rhs1 argument is a comparison
+ 	     tree with two operands.  */
+ 	  else if (i == 1 && COMPARISON_CLASS_P (op))
+ 	    {
+ 	      if (TREE_CODE (TREE_OPERAND (op, 0)) == ADDR_EXPR)
+ 		ret |= visit_addr (stmt, TREE_OPERAND (TREE_OPERAND (op, 0),
+ 						       0), data);
+ 	      if (TREE_CODE (TREE_OPERAND (op, 1)) == ADDR_EXPR)
+ 		ret |= visit_addr (stmt, TREE_OPERAND (TREE_OPERAND (op, 1),
+ 						       0), data);
+ 	    }
+ 	}
+     }
+   else if (is_gimple_call (stmt))
+     {
+       if (visit_store)
+ 	{
+ 	  tree lhs = gimple_call_lhs (stmt);
+ 	  if (lhs)
+ 	    {
+ 	      lhs = get_base_loadstore (lhs);
+ 	      if (lhs)
+ 		ret |= visit_store (stmt, lhs, data);
+ 	    }
+ 	}
+       if (visit_load || visit_addr)
+ 	for (i = 0; i < gimple_call_num_args (stmt); ++i)
+ 	  {
+ 	    tree rhs = gimple_call_arg (stmt, i);
+ 	    if (visit_addr
+ 		&& TREE_CODE (rhs) == ADDR_EXPR)
+ 	      ret |= visit_addr (stmt, TREE_OPERAND (rhs, 0), data);
+ 	    else if (visit_load)
+ 	      {
+ 		rhs = get_base_loadstore (rhs);
+ 		if (rhs)
+ 		  ret |= visit_load (stmt, rhs, data);
+ 	      }
+ 	  }
+       if (visit_addr
+ 	  && gimple_call_chain (stmt)
+ 	  && TREE_CODE (gimple_call_chain (stmt)) == ADDR_EXPR)
+ 	ret |= visit_addr (stmt, TREE_OPERAND (gimple_call_chain (stmt), 0),
+ 			   data);
+       if (visit_addr
+ 	  && gimple_call_return_slot_opt_p (stmt)
+ 	  && gimple_call_lhs (stmt) != NULL_TREE
+ 	  && TREE_ADDRESSABLE (TREE_TYPE (gimple_call_lhs (stmt))))
+ 	ret |= visit_addr (stmt, gimple_call_lhs (stmt), data);
+     }
+   else if (gimple_code (stmt) == GIMPLE_ASM)
+     {
+       unsigned noutputs;
+       const char *constraint;
+       const char **oconstraints;
+       bool allows_mem, allows_reg, is_inout;
+       noutputs = gimple_asm_noutputs (stmt);
+       oconstraints = XALLOCAVEC (const char *, noutputs);
+       if (visit_store || visit_addr)
+ 	for (i = 0; i < gimple_asm_noutputs (stmt); ++i)
+ 	  {
+ 	    tree link = gimple_asm_output_op (stmt, i);
+ 	    tree op = get_base_loadstore (TREE_VALUE (link));
+ 	    if (op && visit_store)
+ 	      ret |= visit_store (stmt, op, data);
+ 	    if (visit_addr)
+ 	      {
+ 		constraint = TREE_STRING_POINTER
+ 		    (TREE_VALUE (TREE_PURPOSE (link)));
+ 		oconstraints[i] = constraint;
+ 		parse_output_constraint (&constraint, i, 0, 0, &allows_mem,
+ 					 &allows_reg, &is_inout);
+ 		if (op && !allows_reg && allows_mem)
+ 		  ret |= visit_addr (stmt, op, data);
+ 	      }
+ 	  }
+       if (visit_load || visit_addr)
+ 	for (i = 0; i < gimple_asm_ninputs (stmt); ++i)
+ 	  {
+ 	    tree link = gimple_asm_input_op (stmt, i);
+ 	    tree op = TREE_VALUE (link);
+ 	    if (visit_addr
+ 		&& TREE_CODE (op) == ADDR_EXPR)
+ 	      ret |= visit_addr (stmt, TREE_OPERAND (op, 0), data);
+ 	    else if (visit_load || visit_addr)
+ 	      {
+ 		op = get_base_loadstore (op);
+ 		if (op)
+ 		  {
+ 		    if (visit_load)
+ 		      ret |= visit_load (stmt, op, data);
+ 		    if (visit_addr)
+ 		      {
+ 			constraint = TREE_STRING_POINTER
+ 			    (TREE_VALUE (TREE_PURPOSE (link)));
+ 			parse_input_constraint (&constraint, 0, 0, noutputs,
+ 						0, oconstraints,
+ 						&allows_mem, &allows_reg);
+ 			if (!allows_reg && allows_mem)
+ 			  ret |= visit_addr (stmt, op, data);
+ 		      }
+ 		  }
+ 	      }
+ 	  }
+     }
+   else if (gimple_code (stmt) == GIMPLE_RETURN)
+     {
+       tree op = gimple_return_retval (stmt);
+       if (op)
+ 	{
+ 	  if (visit_addr
+ 	      && TREE_CODE (op) == ADDR_EXPR)
+ 	    ret |= visit_addr (stmt, TREE_OPERAND (op, 0), data);
+ 	  else if (visit_load)
+ 	    {
+ 	      op = get_base_loadstore (op);
+ 	      if (op)
+ 		ret |= visit_load (stmt, op, data);
+ 	    }
+ 	}
+     }
+   else if (visit_addr
+ 	   && gimple_code (stmt) == GIMPLE_PHI)
+     {
+       for (i = 0; i < gimple_phi_num_args (stmt); ++i)
+ 	{
+ 	  tree op = PHI_ARG_DEF (stmt, i);
+ 	  if (TREE_CODE (op) == ADDR_EXPR)
+ 	    ret |= visit_addr (stmt, TREE_OPERAND (op, 0), data);
+ 	}
+     }
+   else if (visit_addr
+ 	   && gimple_code (stmt) == GIMPLE_GOTO)
+     {
+       tree op = gimple_goto_dest (stmt);
+       if (TREE_CODE (op) == ADDR_EXPR)
+ 	ret |= visit_addr (stmt, TREE_OPERAND (op, 0), data);
+     }
+ 
+   return ret;
+ }
+ 
+ /* Helper for gimple_ior_addresses_taken_1.  */
+ 
+ static bool
+ gimple_ior_addresses_taken_1 (gimple stmt ATTRIBUTE_UNUSED,
+ 			      tree addr, void *data)
+ {
+   bitmap addresses_taken = (bitmap)data;
+   addr = get_base_address (addr);
+   if (addr
+       && DECL_P (addr))
+     {
+       bitmap_set_bit (addresses_taken, DECL_UID (addr));
+       return true;
+     }
+   return false;
+ }
+ 
+ /* Set the bit for the uid of all decls that have their address taken
+    in STMT in the ADDRESSES_TAKEN bitmap.  Returns true if there
+    were any in this stmt.  */
+ 
+ bool
+ gimple_ior_addresses_taken (bitmap addresses_taken, gimple stmt)
+ {
+   return walk_stmt_load_store_addr_ops (stmt, addresses_taken, NULL, NULL,
+ 					gimple_ior_addresses_taken_1);
+ }
Index: tree-cfg.c
===================================================================
*** tree-cfg.c	(revision 202947)
--- tree-cfg.c	(working copy)
*************** gimple_can_merge_blocks_p (basic_block a
*** 1513,1561 ****
    return true;
  }
  
- /* Return true if the var whose chain of uses starts at PTR has no
-    nondebug uses.  */
- bool
- has_zero_uses_1 (const ssa_use_operand_t *head)
- {
-   const ssa_use_operand_t *ptr;
- 
-   for (ptr = head->next; ptr != head; ptr = ptr->next)
-     if (!is_gimple_debug (USE_STMT (ptr)))
-       return false;
- 
-   return true;
- }
- 
- /* Return true if the var whose chain of uses starts at PTR has a
-    single nondebug use.  Set USE_P and STMT to that single nondebug
-    use, if so, or to NULL otherwise.  */
- bool
- single_imm_use_1 (const ssa_use_operand_t *head,
- 		  use_operand_p *use_p, gimple *stmt)
- {
-   ssa_use_operand_t *ptr, *single_use = 0;
- 
-   for (ptr = head->next; ptr != head; ptr = ptr->next)
-     if (!is_gimple_debug (USE_STMT (ptr)))
-       {
- 	if (single_use)
- 	  {
- 	    single_use = NULL;
- 	    break;
- 	  }
- 	single_use = ptr;
-       }
- 
-   if (use_p)
-     *use_p = single_use;
- 
-   if (stmt)
-     *stmt = single_use ? single_use->loc.stmt : NULL;
- 
-   return !!single_use;
- }
- 
  /* Replaces all uses of NAME by VAL.  */
  
  void
--- 1513,1518 ----
Index: tree-ssa-operands.c
===================================================================
*** tree-ssa-operands.c	(revision 202947)
--- tree-ssa-operands.c	(working copy)
*************** update_stmt_operands (gimple stmt)
*** 1092,1109 ****
     to test the validity of the swap operation.  */
  
  void
! swap_tree_operands (gimple stmt, tree *exp0, tree *exp1)
  {
    tree op0, op1;
    op0 = *exp0;
    op1 = *exp1;
  
!   /* If the operand cache is active, attempt to preserve the relative
!      positions of these two operands in their respective immediate use
!      lists by adjusting their use pointer to point to the new
!      operand position.  */
!   if (ssa_operands_active (cfun) && op0 != op1)
      {
        use_optype_p use0, use1, ptr;
        use0 = use1 = NULL;
  
--- 1092,1110 ----
     to test the validity of the swap operation.  */
  
  void
! swap_ssa_operands (gimple stmt, tree *exp0, tree *exp1)
  {
    tree op0, op1;
    op0 = *exp0;
    op1 = *exp1;
  
!   gcc_checking_assert (ssa_operands_active (cfun));
! 
!   if (op0 != op1)
      {
+       /* Attempt to preserve the relative positions of these two operands in
+ 	 their * respective immediate use lists by adjusting their use pointer
+ 	 to point to the new operand position.  */
        use_optype_p use0, use1, ptr;
        use0 = use1 = NULL;
  
*************** swap_tree_operands (gimple stmt, tree *e
*** 1128,1138 ****
  	USE_OP_PTR (use0)->use = exp1;
        if (use1)
  	USE_OP_PTR (use1)->use = exp0;
-     }
  
!   /* Now swap the data.  */
!   *exp0 = op1;
!   *exp1 = op0;
  }
  
  
--- 1129,1139 ----
  	USE_OP_PTR (use0)->use = exp1;
        if (use1)
  	USE_OP_PTR (use1)->use = exp0;
  
!       /* Now swap the data.  */
!       *exp0 = op1;
!       *exp1 = op0;
!     }
  }
  
  
*************** unlink_stmt_vdef (gimple stmt)
*** 1322,1324 ****
--- 1323,1369 ----
      SSA_NAME_OCCURS_IN_ABNORMAL_PHI (vuse) = 1;
  }
  
+ 
+ /* Return true if the var whose chain of uses starts at PTR has no
+    nondebug uses.  */
+ bool
+ has_zero_uses_1 (const ssa_use_operand_t *head)
+ {
+   const ssa_use_operand_t *ptr;
+ 
+   for (ptr = head->next; ptr != head; ptr = ptr->next)
+     if (!is_gimple_debug (USE_STMT (ptr)))
+       return false;
+ 
+   return true;
+ }
+ 
+ 
+ /* Return true if the var whose chain of uses starts at PTR has a
+    single nondebug use.  Set USE_P and STMT to that single nondebug
+    use, if so, or to NULL otherwise.  */
+ bool
+ single_imm_use_1 (const ssa_use_operand_t *head,
+ 		  use_operand_p *use_p, gimple *stmt)
+ {
+   ssa_use_operand_t *ptr, *single_use = 0;
+ 
+   for (ptr = head->next; ptr != head; ptr = ptr->next)
+     if (!is_gimple_debug (USE_STMT (ptr)))
+       {
+ 	if (single_use)
+ 	  {
+ 	    single_use = NULL;
+ 	    break;
+ 	  }
+ 	single_use = ptr;
+       }
+ 
+   if (use_p)
+     *use_p = single_use;
+ 
+   if (stmt)
+     *stmt = single_use ? single_use->loc.stmt : NULL;
+ 
+   return single_use;
+ }
Index: tree-ssa-reassoc.c
===================================================================
*** tree-ssa-reassoc.c	(revision 202947)
--- tree-ssa-reassoc.c	(working copy)
*************** linearize_expr_tree (vec<operand_entry_t
*** 3580,3588 ****
  	  print_gimple_stmt (dump_file, stmt, 0, 0);
  	}
  
!       swap_tree_operands (stmt,
! 			  gimple_assign_rhs1_ptr (stmt),
! 			  gimple_assign_rhs2_ptr (stmt));
        update_stmt (stmt);
  
        if (dump_file && (dump_flags & TDF_DETAILS))
--- 3580,3588 ----
  	  print_gimple_stmt (dump_file, stmt, 0, 0);
  	}
  
!       swap_ssa_operands (stmt,
! 			 gimple_assign_rhs1_ptr (stmt),
! 			 gimple_assign_rhs2_ptr (stmt));
        update_stmt (stmt);
  
        if (dump_file && (dump_flags & TDF_DETAILS))
*************** repropagate_negates (void)
*** 3649,3657 ****
  	     to force the negated operand to the RHS of the PLUS_EXPR.  */
  	  if (gimple_assign_rhs1 (user) == negate)
  	    {
! 	      swap_tree_operands (user,
! 				  gimple_assign_rhs1_ptr (user),
! 				  gimple_assign_rhs2_ptr (user));
  	    }
  
  	  /* Now transform the PLUS_EXPR into a MINUS_EXPR and replace
--- 3649,3657 ----
  	     to force the negated operand to the RHS of the PLUS_EXPR.  */
  	  if (gimple_assign_rhs1 (user) == negate)
  	    {
! 	      swap_ssa_operands (user,
! 				 gimple_assign_rhs1_ptr (user),
! 				 gimple_assign_rhs2_ptr (user));
  	    }
  
  	  /* Now transform the PLUS_EXPR into a MINUS_EXPR and replace
Index: tree-vect-loop.c
===================================================================
*** tree-vect-loop.c	(revision 202947)
--- tree-vect-loop.c	(working copy)
*************** destroy_loop_vec_info (loop_vec_info loo
*** 967,975 ****
  		   || code == POINTER_PLUS_EXPR
  		   || code == MULT_EXPR)
  		  && CONSTANT_CLASS_P (gimple_assign_rhs1 (stmt)))
! 		swap_tree_operands (stmt,
! 				    gimple_assign_rhs1_ptr (stmt),
! 				    gimple_assign_rhs2_ptr (stmt));
  	    }
  
  	  /* Free stmt_vec_info.  */
--- 967,975 ----
  		   || code == POINTER_PLUS_EXPR
  		   || code == MULT_EXPR)
  		  && CONSTANT_CLASS_P (gimple_assign_rhs1 (stmt)))
! 		swap_ssa_operands (stmt,
! 				   gimple_assign_rhs1_ptr (stmt),
! 				   gimple_assign_rhs2_ptr (stmt));
  	    }
  
  	  /* Free stmt_vec_info.  */
*************** vect_is_slp_reduction (loop_vec_info loo
*** 2056,2064 ****
                    dump_printf (MSG_NOTE, "\n");
  		}
  
! 	      swap_tree_operands (next_stmt,
! 	 		          gimple_assign_rhs1_ptr (next_stmt),
!                                   gimple_assign_rhs2_ptr (next_stmt));
  	      update_stmt (next_stmt);
  
  	      if (CONSTANT_CLASS_P (gimple_assign_rhs1 (next_stmt)))
--- 2056,2064 ----
                    dump_printf (MSG_NOTE, "\n");
  		}
  
! 	      swap_ssa_operands (next_stmt,
! 	 		         gimple_assign_rhs1_ptr (next_stmt),
!                                  gimple_assign_rhs2_ptr (next_stmt));
  	      update_stmt (next_stmt);
  
  	      if (CONSTANT_CLASS_P (gimple_assign_rhs1 (next_stmt)))
*************** vect_is_simple_reduction_1 (loop_vec_inf
*** 2488,2495 ****
  	    report_vect_op (MSG_NOTE, def_stmt,
  	  	            "detected reduction: need to swap operands: ");
  
!           swap_tree_operands (def_stmt, gimple_assign_rhs1_ptr (def_stmt),
!  			      gimple_assign_rhs2_ptr (def_stmt));
  
  	  if (CONSTANT_CLASS_P (gimple_assign_rhs1 (def_stmt)))
  	    LOOP_VINFO_OPERANDS_SWAPPED (loop_info) = true;
--- 2488,2495 ----
  	    report_vect_op (MSG_NOTE, def_stmt,
  	  	            "detected reduction: need to swap operands: ");
  
!           swap_ssa_operands (def_stmt, gimple_assign_rhs1_ptr (def_stmt),
!  			     gimple_assign_rhs2_ptr (def_stmt));
  
  	  if (CONSTANT_CLASS_P (gimple_assign_rhs1 (def_stmt)))
  	    LOOP_VINFO_OPERANDS_SWAPPED (loop_info) = true;
Index: tree-flow.h
===================================================================
*** tree-flow.h	(revision 202947)
--- tree-flow.h	(working copy)
*************** typedef struct
*** 107,238 ****
  	!end_htab_p (&(ITER)); \
  	RESULT = (TYPE) next_htab_element (&(ITER)))
  
- /* It is advantageous to avoid things like life analysis for variables which
-    do not need PHI nodes.  This enum describes whether or not a particular
-    variable may need a PHI node.  */
- 
- enum need_phi_state {
-   /* This is the default.  If we are still in this state after finding
-      all the definition and use sites, then we will assume the variable
-      needs PHI nodes.  This is probably an overly conservative assumption.  */
-   NEED_PHI_STATE_UNKNOWN,
- 
-   /* This state indicates that we have seen one or more sets of the
-      variable in a single basic block and that the sets dominate all
-      uses seen so far.  If after finding all definition and use sites
-      we are still in this state, then the variable does not need any
-      PHI nodes.  */
-   NEED_PHI_STATE_NO,
- 
-   /* This state indicates that we have either seen multiple definitions of
-      the variable in multiple blocks, or that we encountered a use in a
-      block that was not dominated by the block containing the set(s) of
-      this variable.  This variable is assumed to need PHI nodes.  */
-   NEED_PHI_STATE_MAYBE
- };
- 
- 
- /* Immediate use lists are used to directly access all uses for an SSA
-    name and get pointers to the statement for each use.
- 
-    The structure ssa_use_operand_d consists of PREV and NEXT pointers
-    to maintain the list.  A USE pointer, which points to address where
-    the use is located and a LOC pointer which can point to the
-    statement where the use is located, or, in the case of the root
-    node, it points to the SSA name itself.
- 
-    The list is anchored by an occurrence of ssa_operand_d *in* the
-    ssa_name node itself (named 'imm_uses').  This node is uniquely
-    identified by having a NULL USE pointer. and the LOC pointer
-    pointing back to the ssa_name node itself.  This node forms the
-    base for a circular list, and initially this is the only node in
-    the list.
- 
-    Fast iteration allows each use to be examined, but does not allow
-    any modifications to the uses or stmts.
- 
-    Normal iteration allows insertion, deletion, and modification. the
-    iterator manages this by inserting a marker node into the list
-    immediately before the node currently being examined in the list.
-    this marker node is uniquely identified by having null stmt *and* a
-    null use pointer.
- 
-    When iterating to the next use, the iteration routines check to see
-    if the node after the marker has changed. if it has, then the node
-    following the marker is now the next one to be visited. if not, the
-    marker node is moved past that node in the list (visualize it as
-    bumping the marker node through the list).  this continues until
-    the marker node is moved to the original anchor position. the
-    marker node is then removed from the list.
- 
-    If iteration is halted early, the marker node must be removed from
-    the list before continuing.  */
- typedef struct immediate_use_iterator_d
- {
-   /* This is the current use the iterator is processing.  */
-   ssa_use_operand_t *imm_use;
-   /* This marks the last use in the list (use node from SSA_NAME)  */
-   ssa_use_operand_t *end_p;
-   /* This node is inserted and used to mark the end of the uses for a stmt.  */
-   ssa_use_operand_t iter_node;
-   /* This is the next ssa_name to visit.  IMM_USE may get removed before
-      the next one is traversed to, so it must be cached early.  */
-   ssa_use_operand_t *next_imm_name;
- } imm_use_iterator;
- 
- 
- /* Use this iterator when simply looking at stmts.  Adding, deleting or
-    modifying stmts will cause this iterator to malfunction.  */
- 
- #define FOR_EACH_IMM_USE_FAST(DEST, ITER, SSAVAR)		\
-   for ((DEST) = first_readonly_imm_use (&(ITER), (SSAVAR));	\
-        !end_readonly_imm_use_p (&(ITER));			\
-        (void) ((DEST) = next_readonly_imm_use (&(ITER))))
- 
- /* Use this iterator to visit each stmt which has a use of SSAVAR.  */
- 
- #define FOR_EACH_IMM_USE_STMT(STMT, ITER, SSAVAR)		\
-   for ((STMT) = first_imm_use_stmt (&(ITER), (SSAVAR));		\
-        !end_imm_use_stmt_p (&(ITER));				\
-        (void) ((STMT) = next_imm_use_stmt (&(ITER))))
- 
- /* Use this to terminate the FOR_EACH_IMM_USE_STMT loop early.  Failure to
-    do so will result in leaving a iterator marker node in the immediate
-    use list, and nothing good will come from that.   */
- #define BREAK_FROM_IMM_USE_STMT(ITER)				\
-    {								\
-      end_imm_use_stmt_traverse (&(ITER));			\
-      break;							\
-    }
- 
- 
- /* Use this iterator in combination with FOR_EACH_IMM_USE_STMT to
-    get access to each occurrence of ssavar on the stmt returned by
-    that iterator..  for instance:
- 
-      FOR_EACH_IMM_USE_STMT (stmt, iter, var)
-        {
-          FOR_EACH_IMM_USE_ON_STMT (use_p, iter)
- 	   {
- 	     SET_USE (use_p, blah);
- 	   }
- 	 update_stmt (stmt);
-        }							 */
- 
- #define FOR_EACH_IMM_USE_ON_STMT(DEST, ITER)			\
-   for ((DEST) = first_imm_use_on_stmt (&(ITER));		\
-        !end_imm_use_on_stmt_p (&(ITER));			\
-        (void) ((DEST) = next_imm_use_on_stmt (&(ITER))))
- 
- 
- 
- static inline void update_stmt (gimple);
  static inline int get_lineno (const_gimple);
  
- /* Accessors for basic block annotations.  */
- static inline gimple_seq phi_nodes (const_basic_block);
- static inline void set_phi_nodes (basic_block, gimple_seq);
- 
  /*---------------------------------------------------------------------------
  			      Global declarations
  ---------------------------------------------------------------------------*/
--- 107,114 ----
*************** extern bool stmt_references_abnormal_ssa
*** 403,419 ****
  extern tree get_addr_base_and_unit_offset (tree, HOST_WIDE_INT *);
  extern void dump_enumerated_decls (FILE *, int);
  
- /* In tree-phinodes.c  */
- extern void reserve_phi_args_for_new_edge (basic_block);
- extern void add_phi_node_to_bb (gimple phi, basic_block bb);
- extern gimple create_phi_node (tree, basic_block);
- extern void add_phi_arg (gimple, tree, edge, source_location);
- extern void remove_phi_args (edge);
- extern void remove_phi_node (gimple_stmt_iterator *, bool);
- extern void remove_phi_nodes (basic_block);
- extern void release_phi_node (gimple);
- extern void phinodes_print_statistics (void);
- 
  /* In gimple-low.c  */
  extern void record_vars_into (tree, tree);
  extern void record_vars (tree);
--- 279,284 ----
*************** bool parallelized_function_p (tree);
*** 684,689 ****
  
  #include "tree-flow-inline.h"
  
- void swap_tree_operands (gimple, tree *, tree *);
- 
  #endif /* _TREE_FLOW_H  */
--- 549,552 ----
Index: tree-flow-inline.h
===================================================================
*** tree-flow-inline.h	(revision 202947)
--- tree-flow-inline.h	(working copy)
*************** get_lineno (const_gimple stmt)
*** 126,505 ****
    return LOCATION_LINE (loc);
  }
  
- /* Delink an immediate_uses node from its chain.  */
- static inline void
- delink_imm_use (ssa_use_operand_t *linknode)
- {
-   /* Return if this node is not in a list.  */
-   if (linknode->prev == NULL)
-     return;
- 
-   linknode->prev->next = linknode->next;
-   linknode->next->prev = linknode->prev;
-   linknode->prev = NULL;
-   linknode->next = NULL;
- }
- 
- /* Link ssa_imm_use node LINKNODE into the chain for LIST.  */
- static inline void
- link_imm_use_to_list (ssa_use_operand_t *linknode, ssa_use_operand_t *list)
- {
-   /* Link the new node at the head of the list.  If we are in the process of
-      traversing the list, we won't visit any new nodes added to it.  */
-   linknode->prev = list;
-   linknode->next = list->next;
-   list->next->prev = linknode;
-   list->next = linknode;
- }
- 
- /* Link ssa_imm_use node LINKNODE into the chain for DEF.  */
- static inline void
- link_imm_use (ssa_use_operand_t *linknode, tree def)
- {
-   ssa_use_operand_t *root;
- 
-   if (!def || TREE_CODE (def) != SSA_NAME)
-     linknode->prev = NULL;
-   else
-     {
-       root = &(SSA_NAME_IMM_USE_NODE (def));
-       if (linknode->use)
-         gcc_checking_assert (*(linknode->use) == def);
-       link_imm_use_to_list (linknode, root);
-     }
- }
- 
- /* Set the value of a use pointed to by USE to VAL.  */
- static inline void
- set_ssa_use_from_ptr (use_operand_p use, tree val)
- {
-   delink_imm_use (use);
-   *(use->use) = val;
-   link_imm_use (use, val);
- }
- 
- /* Link ssa_imm_use node LINKNODE into the chain for DEF, with use occurring
-    in STMT.  */
- static inline void
- link_imm_use_stmt (ssa_use_operand_t *linknode, tree def, gimple stmt)
- {
-   if (stmt)
-     link_imm_use (linknode, def);
-   else
-     link_imm_use (linknode, NULL);
-   linknode->loc.stmt = stmt;
- }
- 
- /* Relink a new node in place of an old node in the list.  */
- static inline void
- relink_imm_use (ssa_use_operand_t *node, ssa_use_operand_t *old)
- {
-   /* The node one had better be in the same list.  */
-   gcc_checking_assert (*(old->use) == *(node->use));
-   node->prev = old->prev;
-   node->next = old->next;
-   if (old->prev)
-     {
-       old->prev->next = node;
-       old->next->prev = node;
-       /* Remove the old node from the list.  */
-       old->prev = NULL;
-     }
- }
- 
- /* Relink ssa_imm_use node LINKNODE into the chain for OLD, with use occurring
-    in STMT.  */
- static inline void
- relink_imm_use_stmt (ssa_use_operand_t *linknode, ssa_use_operand_t *old,
- 		     gimple stmt)
- {
-   if (stmt)
-     relink_imm_use (linknode, old);
-   else
-     link_imm_use (linknode, NULL);
-   linknode->loc.stmt = stmt;
- }
- 
- 
- /* Return true is IMM has reached the end of the immediate use list.  */
- static inline bool
- end_readonly_imm_use_p (const imm_use_iterator *imm)
- {
-   return (imm->imm_use == imm->end_p);
- }
- 
- /* Initialize iterator IMM to process the list for VAR.  */
- static inline use_operand_p
- first_readonly_imm_use (imm_use_iterator *imm, tree var)
- {
-   imm->end_p = &(SSA_NAME_IMM_USE_NODE (var));
-   imm->imm_use = imm->end_p->next;
- #ifdef ENABLE_CHECKING
-   imm->iter_node.next = imm->imm_use->next;
- #endif
-   if (end_readonly_imm_use_p (imm))
-     return NULL_USE_OPERAND_P;
-   return imm->imm_use;
- }
- 
- /* Bump IMM to the next use in the list.  */
- static inline use_operand_p
- next_readonly_imm_use (imm_use_iterator *imm)
- {
-   use_operand_p old = imm->imm_use;
- 
- #ifdef ENABLE_CHECKING
-   /* If this assertion fails, it indicates the 'next' pointer has changed
-      since the last bump.  This indicates that the list is being modified
-      via stmt changes, or SET_USE, or somesuch thing, and you need to be
-      using the SAFE version of the iterator.  */
-   gcc_assert (imm->iter_node.next == old->next);
-   imm->iter_node.next = old->next->next;
- #endif
- 
-   imm->imm_use = old->next;
-   if (end_readonly_imm_use_p (imm))
-     return NULL_USE_OPERAND_P;
-   return imm->imm_use;
- }
- 
- /* tree-cfg.c */
- extern bool has_zero_uses_1 (const ssa_use_operand_t *head);
- extern bool single_imm_use_1 (const ssa_use_operand_t *head,
- 			      use_operand_p *use_p, gimple *stmt);
- 
- /* Return true if VAR has no nondebug uses.  */
- static inline bool
- has_zero_uses (const_tree var)
- {
-   const ssa_use_operand_t *const ptr = &(SSA_NAME_IMM_USE_NODE (var));
- 
-   /* A single use_operand means there is no items in the list.  */
-   if (ptr == ptr->next)
-     return true;
- 
-   /* If there are debug stmts, we have to look at each use and see
-      whether there are any nondebug uses.  */
-   if (!MAY_HAVE_DEBUG_STMTS)
-     return false;
- 
-   return has_zero_uses_1 (ptr);
- }
- 
- /* Return true if VAR has a single nondebug use.  */
- static inline bool
- has_single_use (const_tree var)
- {
-   const ssa_use_operand_t *const ptr = &(SSA_NAME_IMM_USE_NODE (var));
- 
-   /* If there aren't any uses whatsoever, we're done.  */
-   if (ptr == ptr->next)
-     return false;
- 
-   /* If there's a single use, check that it's not a debug stmt.  */
-   if (ptr == ptr->next->next)
-     return !is_gimple_debug (USE_STMT (ptr->next));
- 
-   /* If there are debug stmts, we have to look at each of them.  */
-   if (!MAY_HAVE_DEBUG_STMTS)
-     return false;
- 
-   return single_imm_use_1 (ptr, NULL, NULL);
- }
- 
- 
- /* If VAR has only a single immediate nondebug use, return true, and
-    set USE_P and STMT to the use pointer and stmt of occurrence.  */
- static inline bool
- single_imm_use (const_tree var, use_operand_p *use_p, gimple *stmt)
- {
-   const ssa_use_operand_t *const ptr = &(SSA_NAME_IMM_USE_NODE (var));
- 
-   /* If there aren't any uses whatsoever, we're done.  */
-   if (ptr == ptr->next)
-     {
-     return_false:
-       *use_p = NULL_USE_OPERAND_P;
-       *stmt = NULL;
-       return false;
-     }
- 
-   /* If there's a single use, check that it's not a debug stmt.  */
-   if (ptr == ptr->next->next)
-     {
-       if (!is_gimple_debug (USE_STMT (ptr->next)))
- 	{
- 	  *use_p = ptr->next;
- 	  *stmt = ptr->next->loc.stmt;
- 	  return true;
- 	}
-       else
- 	goto return_false;
-     }
- 
-   /* If there are debug stmts, we have to look at each of them.  */
-   if (!MAY_HAVE_DEBUG_STMTS)
-     goto return_false;
- 
-   return single_imm_use_1 (ptr, use_p, stmt);
- }
- 
- /* Return the number of nondebug immediate uses of VAR.  */
- static inline unsigned int
- num_imm_uses (const_tree var)
- {
-   const ssa_use_operand_t *const start = &(SSA_NAME_IMM_USE_NODE (var));
-   const ssa_use_operand_t *ptr;
-   unsigned int num = 0;
- 
-   if (!MAY_HAVE_DEBUG_STMTS)
-     for (ptr = start->next; ptr != start; ptr = ptr->next)
-       num++;
-   else
-     for (ptr = start->next; ptr != start; ptr = ptr->next)
-       if (!is_gimple_debug (USE_STMT (ptr)))
- 	num++;
- 
-   return num;
- }
- 
- /* Return the tree pointed-to by USE.  */
- static inline tree
- get_use_from_ptr (use_operand_p use)
- {
-   return *(use->use);
- }
- 
- /* Return the tree pointed-to by DEF.  */
- static inline tree
- get_def_from_ptr (def_operand_p def)
- {
-   return *def;
- }
- 
- /* Return a use_operand_p pointer for argument I of PHI node GS.  */
- 
- static inline use_operand_p
- gimple_phi_arg_imm_use_ptr (gimple gs, int i)
- {
-   return &gimple_phi_arg (gs, i)->imm_use;
- }
- 
- /* Return the tree operand for argument I of PHI node GS.  */
- 
- static inline tree
- gimple_phi_arg_def (gimple gs, size_t index)
- {
-   struct phi_arg_d *pd = gimple_phi_arg (gs, index);
-   return get_use_from_ptr (&pd->imm_use);
- }
- 
- /* Return a pointer to the tree operand for argument I of PHI node GS.  */
- 
- static inline tree *
- gimple_phi_arg_def_ptr (gimple gs, size_t index)
- {
-   return &gimple_phi_arg (gs, index)->def;
- }
- 
- /* Return the edge associated with argument I of phi node GS.  */
- 
- static inline edge
- gimple_phi_arg_edge (gimple gs, size_t i)
- {
-   return EDGE_PRED (gimple_bb (gs), i);
- }
- 
- /* Return the source location of gimple argument I of phi node GS.  */
- 
- static inline source_location
- gimple_phi_arg_location (gimple gs, size_t i)
- {
-   return gimple_phi_arg (gs, i)->locus;
- }
- 
- /* Return the source location of the argument on edge E of phi node GS.  */
- 
- static inline source_location
- gimple_phi_arg_location_from_edge (gimple gs, edge e)
- {
-   return gimple_phi_arg (gs, e->dest_idx)->locus;
- }
- 
- /* Set the source location of gimple argument I of phi node GS to LOC.  */
- 
- static inline void
- gimple_phi_arg_set_location (gimple gs, size_t i, source_location loc)
- {
-   gimple_phi_arg (gs, i)->locus = loc;
- }
- 
- /* Return TRUE if argument I of phi node GS has a location record.  */
- 
- static inline bool
- gimple_phi_arg_has_location (gimple gs, size_t i)
- {
-   return gimple_phi_arg_location (gs, i) != UNKNOWN_LOCATION;
- }
- 
- 
- /* Return the PHI nodes for basic block BB, or NULL if there are no
-    PHI nodes.  */
- static inline gimple_seq
- phi_nodes (const_basic_block bb)
- {
-   gcc_checking_assert (!(bb->flags & BB_RTL));
-   return bb->il.gimple.phi_nodes;
- }
- 
- static inline gimple_seq *
- phi_nodes_ptr (basic_block bb)
- {
-   gcc_checking_assert (!(bb->flags & BB_RTL));
-   return &bb->il.gimple.phi_nodes;
- }
- 
- /* Set PHI nodes of a basic block BB to SEQ.  */
- 
- static inline void
- set_phi_nodes (basic_block bb, gimple_seq seq)
- {
-   gimple_stmt_iterator i;
- 
-   gcc_checking_assert (!(bb->flags & BB_RTL));
-   bb->il.gimple.phi_nodes = seq;
-   if (seq)
-     for (i = gsi_start (seq); !gsi_end_p (i); gsi_next (&i))
-       gimple_set_bb (gsi_stmt (i), bb);
- }
- 
- /* Return the phi argument which contains the specified use.  */
- 
- static inline int
- phi_arg_index_from_use (use_operand_p use)
- {
-   struct phi_arg_d *element, *root;
-   size_t index;
-   gimple phi;
- 
-   /* Since the use is the first thing in a PHI argument element, we can
-      calculate its index based on casting it to an argument, and performing
-      pointer arithmetic.  */
- 
-   phi = USE_STMT (use);
- 
-   element = (struct phi_arg_d *)use;
-   root = gimple_phi_arg (phi, 0);
-   index = element - root;
- 
-   /* Make sure the calculation doesn't have any leftover bytes.  If it does,
-      then imm_use is likely not the first element in phi_arg_d.  */
-   gcc_checking_assert ((((char *)element - (char *)root)
- 			% sizeof (struct phi_arg_d)) == 0
- 		       && index < gimple_phi_capacity (phi));
- 
-  return index;
- }
  
  /* Return true if T (assumed to be a DECL) is a global variable.
     A variable is considered global if its storage is not automatic.  */
--- 126,131 ----
*************** may_be_aliased (const_tree var)
*** 528,547 ****
  }
  
  
- /* PHI nodes should contain only ssa_names and invariants.  A test
-    for ssa_name is definitely simpler; don't let invalid contents
-    slip in in the meantime.  */
- 
- static inline bool
- phi_ssa_name_p (const_tree t)
- {
-   if (TREE_CODE (t) == SSA_NAME)
-     return true;
-   gcc_checking_assert (is_gimple_min_invariant (t));
-   return false;
- }
- 
- 
  /* Returns the loop of the statement STMT.  */
  
  static inline struct loop *
--- 154,159 ----
*************** loop_containing_stmt (gimple stmt)
*** 555,1090 ****
  }
  
  
- /*  -----------------------------------------------------------------------  */
- 
- /* The following set of routines are used to iterator over various type of
-    SSA operands.  */
- 
- /* Return true if PTR is finished iterating.  */
- static inline bool
- op_iter_done (const ssa_op_iter *ptr)
- {
-   return ptr->done;
- }
- 
- /* Get the next iterator use value for PTR.  */
- static inline use_operand_p
- op_iter_next_use (ssa_op_iter *ptr)
- {
-   use_operand_p use_p;
-   gcc_checking_assert (ptr->iter_type == ssa_op_iter_use);
-   if (ptr->uses)
-     {
-       use_p = USE_OP_PTR (ptr->uses);
-       ptr->uses = ptr->uses->next;
-       return use_p;
-     }
-   if (ptr->i < ptr->numops)
-     {
-       return PHI_ARG_DEF_PTR (ptr->stmt, (ptr->i)++);
-     }
-   ptr->done = true;
-   return NULL_USE_OPERAND_P;
- }
- 
- /* Get the next iterator def value for PTR.  */
- static inline def_operand_p
- op_iter_next_def (ssa_op_iter *ptr)
- {
-   gcc_checking_assert (ptr->iter_type == ssa_op_iter_def);
-   if (ptr->flags & SSA_OP_VDEF)
-     {
-       tree *p;
-       ptr->flags &= ~SSA_OP_VDEF;
-       p = gimple_vdef_ptr (ptr->stmt);
-       if (p && *p)
- 	return p;
-     }
-   if (ptr->flags & SSA_OP_DEF)
-     {
-       while (ptr->i < ptr->numops)
- 	{
- 	  tree *val = gimple_op_ptr (ptr->stmt, ptr->i);
- 	  ptr->i++;
- 	  if (*val)
- 	    {
- 	      if (TREE_CODE (*val) == TREE_LIST)
- 		val = &TREE_VALUE (*val);
- 	      if (TREE_CODE (*val) == SSA_NAME
- 		  || is_gimple_reg (*val))
- 		return val;
- 	    }
- 	}
-       ptr->flags &= ~SSA_OP_DEF;
-     }
- 
-   ptr->done = true;
-   return NULL_DEF_OPERAND_P;
- }
- 
- /* Get the next iterator tree value for PTR.  */
- static inline tree
- op_iter_next_tree (ssa_op_iter *ptr)
- {
-   tree val;
-   gcc_checking_assert (ptr->iter_type == ssa_op_iter_tree);
-   if (ptr->uses)
-     {
-       val = USE_OP (ptr->uses);
-       ptr->uses = ptr->uses->next;
-       return val;
-     }
-   if (ptr->flags & SSA_OP_VDEF)
-     {
-       ptr->flags &= ~SSA_OP_VDEF;
-       if ((val = gimple_vdef (ptr->stmt)))
- 	return val;
-     }
-   if (ptr->flags & SSA_OP_DEF)
-     {
-       while (ptr->i < ptr->numops)
- 	{
- 	  val = gimple_op (ptr->stmt, ptr->i);
- 	  ptr->i++;
- 	  if (val)
- 	    {
- 	      if (TREE_CODE (val) == TREE_LIST)
- 		val = TREE_VALUE (val);
- 	      if (TREE_CODE (val) == SSA_NAME
- 		  || is_gimple_reg (val))
- 		return val;
- 	    }
- 	}
-       ptr->flags &= ~SSA_OP_DEF;
-     }
- 
-   ptr->done = true;
-   return NULL_TREE;
- }
- 
- 
- /* This functions clears the iterator PTR, and marks it done.  This is normally
-    used to prevent warnings in the compile about might be uninitialized
-    components.  */
- 
- static inline void
- clear_and_done_ssa_iter (ssa_op_iter *ptr)
- {
-   ptr->i = 0;
-   ptr->numops = 0;
-   ptr->uses = NULL;
-   ptr->iter_type = ssa_op_iter_none;
-   ptr->stmt = NULL;
-   ptr->done = true;
-   ptr->flags = 0;
- }
- 
- /* Initialize the iterator PTR to the virtual defs in STMT.  */
- static inline void
- op_iter_init (ssa_op_iter *ptr, gimple stmt, int flags)
- {
-   /* PHI nodes require a different iterator initialization path.  We
-      do not support iterating over virtual defs or uses without
-      iterating over defs or uses at the same time.  */
-   gcc_checking_assert (gimple_code (stmt) != GIMPLE_PHI
- 		       && (!(flags & SSA_OP_VDEF) || (flags & SSA_OP_DEF))
- 		       && (!(flags & SSA_OP_VUSE) || (flags & SSA_OP_USE)));
-   ptr->numops = 0;
-   if (flags & (SSA_OP_DEF | SSA_OP_VDEF))
-     {
-       switch (gimple_code (stmt))
- 	{
- 	  case GIMPLE_ASSIGN:
- 	  case GIMPLE_CALL:
- 	    ptr->numops = 1;
- 	    break;
- 	  case GIMPLE_ASM:
- 	    ptr->numops = gimple_asm_noutputs (stmt);
- 	    break;
- 	  default:
- 	    ptr->numops = 0;
- 	    flags &= ~(SSA_OP_DEF | SSA_OP_VDEF);
- 	    break;
- 	}
-     }
-   ptr->uses = (flags & (SSA_OP_USE|SSA_OP_VUSE)) ? gimple_use_ops (stmt) : NULL;
-   if (!(flags & SSA_OP_VUSE)
-       && ptr->uses
-       && gimple_vuse (stmt) != NULL_TREE)
-     ptr->uses = ptr->uses->next;
-   ptr->done = false;
-   ptr->i = 0;
- 
-   ptr->stmt = stmt;
-   ptr->flags = flags;
- }
- 
- /* Initialize iterator PTR to the use operands in STMT based on FLAGS. Return
-    the first use.  */
- static inline use_operand_p
- op_iter_init_use (ssa_op_iter *ptr, gimple stmt, int flags)
- {
-   gcc_checking_assert ((flags & SSA_OP_ALL_DEFS) == 0
- 		       && (flags & SSA_OP_USE));
-   op_iter_init (ptr, stmt, flags);
-   ptr->iter_type = ssa_op_iter_use;
-   return op_iter_next_use (ptr);
- }
- 
- /* Initialize iterator PTR to the def operands in STMT based on FLAGS. Return
-    the first def.  */
- static inline def_operand_p
- op_iter_init_def (ssa_op_iter *ptr, gimple stmt, int flags)
- {
-   gcc_checking_assert ((flags & SSA_OP_ALL_USES) == 0
- 		       && (flags & SSA_OP_DEF));
-   op_iter_init (ptr, stmt, flags);
-   ptr->iter_type = ssa_op_iter_def;
-   return op_iter_next_def (ptr);
- }
- 
- /* Initialize iterator PTR to the operands in STMT based on FLAGS. Return
-    the first operand as a tree.  */
- static inline tree
- op_iter_init_tree (ssa_op_iter *ptr, gimple stmt, int flags)
- {
-   op_iter_init (ptr, stmt, flags);
-   ptr->iter_type = ssa_op_iter_tree;
-   return op_iter_next_tree (ptr);
- }
- 
- 
- /* If there is a single operand in STMT matching FLAGS, return it.  Otherwise
-    return NULL.  */
- static inline tree
- single_ssa_tree_operand (gimple stmt, int flags)
- {
-   tree var;
-   ssa_op_iter iter;
- 
-   var = op_iter_init_tree (&iter, stmt, flags);
-   if (op_iter_done (&iter))
-     return NULL_TREE;
-   op_iter_next_tree (&iter);
-   if (op_iter_done (&iter))
-     return var;
-   return NULL_TREE;
- }
- 
- 
- /* If there is a single operand in STMT matching FLAGS, return it.  Otherwise
-    return NULL.  */
- static inline use_operand_p
- single_ssa_use_operand (gimple stmt, int flags)
- {
-   use_operand_p var;
-   ssa_op_iter iter;
- 
-   var = op_iter_init_use (&iter, stmt, flags);
-   if (op_iter_done (&iter))
-     return NULL_USE_OPERAND_P;
-   op_iter_next_use (&iter);
-   if (op_iter_done (&iter))
-     return var;
-   return NULL_USE_OPERAND_P;
- }
- 
- 
- 
- /* If there is a single operand in STMT matching FLAGS, return it.  Otherwise
-    return NULL.  */
- static inline def_operand_p
- single_ssa_def_operand (gimple stmt, int flags)
- {
-   def_operand_p var;
-   ssa_op_iter iter;
- 
-   var = op_iter_init_def (&iter, stmt, flags);
-   if (op_iter_done (&iter))
-     return NULL_DEF_OPERAND_P;
-   op_iter_next_def (&iter);
-   if (op_iter_done (&iter))
-     return var;
-   return NULL_DEF_OPERAND_P;
- }
- 
- 
- /* Return true if there are zero operands in STMT matching the type
-    given in FLAGS.  */
- static inline bool
- zero_ssa_operands (gimple stmt, int flags)
- {
-   ssa_op_iter iter;
- 
-   op_iter_init_tree (&iter, stmt, flags);
-   return op_iter_done (&iter);
- }
- 
- 
- /* Return the number of operands matching FLAGS in STMT.  */
- static inline int
- num_ssa_operands (gimple stmt, int flags)
- {
-   ssa_op_iter iter;
-   tree t;
-   int num = 0;
- 
-   gcc_checking_assert (gimple_code (stmt) != GIMPLE_PHI);
-   FOR_EACH_SSA_TREE_OPERAND (t, stmt, iter, flags)
-     num++;
-   return num;
- }
- 
- static inline use_operand_p
- op_iter_init_phiuse (ssa_op_iter *ptr, gimple phi, int flags);
- 
- /* Delink all immediate_use information for STMT.  */
- static inline void
- delink_stmt_imm_use (gimple stmt)
- {
-    ssa_op_iter iter;
-    use_operand_p use_p;
- 
-    if (ssa_operands_active (cfun))
-      FOR_EACH_PHI_OR_STMT_USE (use_p, stmt, iter, SSA_OP_ALL_USES)
-        delink_imm_use (use_p);
- }
- 
- 
- /* If there is a single DEF in the PHI node which matches FLAG, return it.
-    Otherwise return NULL_DEF_OPERAND_P.  */
- static inline tree
- single_phi_def (gimple stmt, int flags)
- {
-   tree def = PHI_RESULT (stmt);
-   if ((flags & SSA_OP_DEF) && is_gimple_reg (def))
-     return def;
-   if ((flags & SSA_OP_VIRTUAL_DEFS) && !is_gimple_reg (def))
-     return def;
-   return NULL_TREE;
- }
- 
- /* Initialize the iterator PTR for uses matching FLAGS in PHI.  FLAGS should
-    be either SSA_OP_USES or SSA_OP_VIRTUAL_USES.  */
- static inline use_operand_p
- op_iter_init_phiuse (ssa_op_iter *ptr, gimple phi, int flags)
- {
-   tree phi_def = gimple_phi_result (phi);
-   int comp;
- 
-   clear_and_done_ssa_iter (ptr);
-   ptr->done = false;
- 
-   gcc_checking_assert ((flags & (SSA_OP_USE | SSA_OP_VIRTUAL_USES)) != 0);
- 
-   comp = (is_gimple_reg (phi_def) ? SSA_OP_USE : SSA_OP_VIRTUAL_USES);
- 
-   /* If the PHI node doesn't the operand type we care about, we're done.  */
-   if ((flags & comp) == 0)
-     {
-       ptr->done = true;
-       return NULL_USE_OPERAND_P;
-     }
- 
-   ptr->stmt = phi;
-   ptr->numops = gimple_phi_num_args (phi);
-   ptr->iter_type = ssa_op_iter_use;
-   ptr->flags = flags;
-   return op_iter_next_use (ptr);
- }
- 
- 
- /* Start an iterator for a PHI definition.  */
- 
- static inline def_operand_p
- op_iter_init_phidef (ssa_op_iter *ptr, gimple phi, int flags)
- {
-   tree phi_def = PHI_RESULT (phi);
-   int comp;
- 
-   clear_and_done_ssa_iter (ptr);
-   ptr->done = false;
- 
-   gcc_checking_assert ((flags & (SSA_OP_DEF | SSA_OP_VIRTUAL_DEFS)) != 0);
- 
-   comp = (is_gimple_reg (phi_def) ? SSA_OP_DEF : SSA_OP_VIRTUAL_DEFS);
- 
-   /* If the PHI node doesn't have the operand type we care about,
-      we're done.  */
-   if ((flags & comp) == 0)
-     {
-       ptr->done = true;
-       return NULL_DEF_OPERAND_P;
-     }
- 
-   ptr->iter_type = ssa_op_iter_def;
-   /* The first call to op_iter_next_def will terminate the iterator since
-      all the fields are NULL.  Simply return the result here as the first and
-      therefore only result.  */
-   return PHI_RESULT_PTR (phi);
- }
- 
- /* Return true is IMM has reached the end of the immediate use stmt list.  */
- 
- static inline bool
- end_imm_use_stmt_p (const imm_use_iterator *imm)
- {
-   return (imm->imm_use == imm->end_p);
- }
- 
- /* Finished the traverse of an immediate use stmt list IMM by removing the
-    placeholder node from the list.  */
- 
- static inline void
- end_imm_use_stmt_traverse (imm_use_iterator *imm)
- {
-   delink_imm_use (&(imm->iter_node));
- }
- 
- /* Immediate use traversal of uses within a stmt require that all the
-    uses on a stmt be sequentially listed.  This routine is used to build up
-    this sequential list by adding USE_P to the end of the current list
-    currently delimited by HEAD and LAST_P.  The new LAST_P value is
-    returned.  */
- 
- static inline use_operand_p
- move_use_after_head (use_operand_p use_p, use_operand_p head,
- 		      use_operand_p last_p)
- {
-   gcc_checking_assert (USE_FROM_PTR (use_p) == USE_FROM_PTR (head));
-   /* Skip head when we find it.  */
-   if (use_p != head)
-     {
-       /* If use_p is already linked in after last_p, continue.  */
-       if (last_p->next == use_p)
- 	last_p = use_p;
-       else
- 	{
- 	  /* Delink from current location, and link in at last_p.  */
- 	  delink_imm_use (use_p);
- 	  link_imm_use_to_list (use_p, last_p);
- 	  last_p = use_p;
- 	}
-     }
-   return last_p;
- }
- 
- 
- /* This routine will relink all uses with the same stmt as HEAD into the list
-    immediately following HEAD for iterator IMM.  */
- 
- static inline void
- link_use_stmts_after (use_operand_p head, imm_use_iterator *imm)
- {
-   use_operand_p use_p;
-   use_operand_p last_p = head;
-   gimple head_stmt = USE_STMT (head);
-   tree use = USE_FROM_PTR (head);
-   ssa_op_iter op_iter;
-   int flag;
- 
-   /* Only look at virtual or real uses, depending on the type of HEAD.  */
-   flag = (is_gimple_reg (use) ? SSA_OP_USE : SSA_OP_VIRTUAL_USES);
- 
-   if (gimple_code (head_stmt) == GIMPLE_PHI)
-     {
-       FOR_EACH_PHI_ARG (use_p, head_stmt, op_iter, flag)
- 	if (USE_FROM_PTR (use_p) == use)
- 	  last_p = move_use_after_head (use_p, head, last_p);
-     }
-   else
-     {
-       if (flag == SSA_OP_USE)
- 	{
- 	  FOR_EACH_SSA_USE_OPERAND (use_p, head_stmt, op_iter, flag)
- 	    if (USE_FROM_PTR (use_p) == use)
- 	      last_p = move_use_after_head (use_p, head, last_p);
- 	}
-       else if ((use_p = gimple_vuse_op (head_stmt)) != NULL_USE_OPERAND_P)
- 	{
- 	  if (USE_FROM_PTR (use_p) == use)
- 	    last_p = move_use_after_head (use_p, head, last_p);
- 	}
-     }
-   /* Link iter node in after last_p.  */
-   if (imm->iter_node.prev != NULL)
-     delink_imm_use (&imm->iter_node);
-   link_imm_use_to_list (&(imm->iter_node), last_p);
- }
- 
- /* Initialize IMM to traverse over uses of VAR.  Return the first statement.  */
- static inline gimple
- first_imm_use_stmt (imm_use_iterator *imm, tree var)
- {
-   imm->end_p = &(SSA_NAME_IMM_USE_NODE (var));
-   imm->imm_use = imm->end_p->next;
-   imm->next_imm_name = NULL_USE_OPERAND_P;
- 
-   /* iter_node is used as a marker within the immediate use list to indicate
-      where the end of the current stmt's uses are.  Initialize it to NULL
-      stmt and use, which indicates a marker node.  */
-   imm->iter_node.prev = NULL_USE_OPERAND_P;
-   imm->iter_node.next = NULL_USE_OPERAND_P;
-   imm->iter_node.loc.stmt = NULL;
-   imm->iter_node.use = NULL;
- 
-   if (end_imm_use_stmt_p (imm))
-     return NULL;
- 
-   link_use_stmts_after (imm->imm_use, imm);
- 
-   return USE_STMT (imm->imm_use);
- }
- 
- /* Bump IMM to the next stmt which has a use of var.  */
- 
- static inline gimple
- next_imm_use_stmt (imm_use_iterator *imm)
- {
-   imm->imm_use = imm->iter_node.next;
-   if (end_imm_use_stmt_p (imm))
-     {
-       if (imm->iter_node.prev != NULL)
- 	delink_imm_use (&imm->iter_node);
-       return NULL;
-     }
- 
-   link_use_stmts_after (imm->imm_use, imm);
-   return USE_STMT (imm->imm_use);
- }
- 
- /* This routine will return the first use on the stmt IMM currently refers
-    to.  */
- 
- static inline use_operand_p
- first_imm_use_on_stmt (imm_use_iterator *imm)
- {
-   imm->next_imm_name = imm->imm_use->next;
-   return imm->imm_use;
- }
- 
- /*  Return TRUE if the last use on the stmt IMM refers to has been visited.  */
- 
- static inline bool
- end_imm_use_on_stmt_p (const imm_use_iterator *imm)
- {
-   return (imm->imm_use == &(imm->iter_node));
- }
- 
- /* Bump to the next use on the stmt IMM refers to, return NULL if done.  */
- 
- static inline use_operand_p
- next_imm_use_on_stmt (imm_use_iterator *imm)
- {
-   imm->imm_use = imm->next_imm_name;
-   if (end_imm_use_on_stmt_p (imm))
-     return NULL_USE_OPERAND_P;
-   else
-     {
-       imm->next_imm_name = imm->imm_use->next;
-       return imm->imm_use;
-     }
- }
  
  /* Return true if VAR cannot be modified by the program.  */
  
--- 167,172 ----
Index: tree-ssa-operands.h
===================================================================
*** tree-ssa-operands.h	(revision 202947)
--- tree-ssa-operands.h	(working copy)
*************** struct GTY(()) ssa_operands {
*** 87,222 ****
  #define PHI_ARG_INDEX_FROM_USE(USE)   phi_arg_index_from_use (USE)
  
  
  extern void init_ssa_operands (struct function *fn);
  extern void fini_ssa_operands (void);
! extern void update_stmt_operands (gimple);
  extern void free_stmt_operands (gimple);
  extern bool verify_imm_links (FILE *f, tree var);
- extern bool verify_ssa_operands (gimple stmt);
  
- extern void dump_immediate_uses (FILE *file);
  extern void dump_immediate_uses_for (FILE *file, tree var);
  extern void debug_immediate_uses (void);
  extern void debug_immediate_uses_for (tree var);
- extern void dump_decl_set (FILE *, bitmap);
- extern void debug_decl_set (bitmap);
- 
- extern bool ssa_operands_active (struct function *);
  
  extern bool virtual_operand_p (tree);
  extern void unlink_stmt_vdef (gimple);
  
! enum ssa_op_iter_type {
!   ssa_op_iter_none = 0,
!   ssa_op_iter_tree,
!   ssa_op_iter_use,
!   ssa_op_iter_def
! };
! 
! /* This structure is used in the operand iterator loops.  It contains the
!    items required to determine which operand is retrieved next.  During
!    optimization, this structure is scalarized, and any unused fields are
!    optimized away, resulting in little overhead.  */
! 
! typedef struct ssa_operand_iterator_d
  {
!   enum ssa_op_iter_type iter_type;
!   bool done;
!   int flags;
!   unsigned i;
!   unsigned numops;
!   use_optype_p uses;
!   gimple stmt;
! } ssa_op_iter;
! 
! /* These flags are used to determine which operands are returned during
!    execution of the loop.  */
! #define SSA_OP_USE		0x01	/* Real USE operands.  */
! #define SSA_OP_DEF		0x02	/* Real DEF operands.  */
! #define SSA_OP_VUSE		0x04	/* VUSE operands.  */
! #define SSA_OP_VDEF		0x08	/* VDEF operands.  */
! 
! /* These are commonly grouped operand flags.  */
! #define SSA_OP_VIRTUAL_USES	(SSA_OP_VUSE)
! #define SSA_OP_VIRTUAL_DEFS	(SSA_OP_VDEF)
! #define SSA_OP_ALL_VIRTUALS     (SSA_OP_VIRTUAL_USES | SSA_OP_VIRTUAL_DEFS)
! #define SSA_OP_ALL_USES		(SSA_OP_VIRTUAL_USES | SSA_OP_USE)
! #define SSA_OP_ALL_DEFS		(SSA_OP_VIRTUAL_DEFS | SSA_OP_DEF)
! #define SSA_OP_ALL_OPERANDS	(SSA_OP_ALL_USES | SSA_OP_ALL_DEFS)
! 
! /* This macro executes a loop over the operands of STMT specified in FLAG,
!    returning each operand as a 'tree' in the variable TREEVAR.  ITER is an
!    ssa_op_iter structure used to control the loop.  */
! #define FOR_EACH_SSA_TREE_OPERAND(TREEVAR, STMT, ITER, FLAGS)	\
!   for (TREEVAR = op_iter_init_tree (&(ITER), STMT, FLAGS);	\
!        !op_iter_done (&(ITER));					\
!        (void) (TREEVAR = op_iter_next_tree (&(ITER))))
! 
! /* This macro executes a loop over the operands of STMT specified in FLAG,
!    returning each operand as a 'use_operand_p' in the variable USEVAR.
!    ITER is an ssa_op_iter structure used to control the loop.  */
! #define FOR_EACH_SSA_USE_OPERAND(USEVAR, STMT, ITER, FLAGS)	\
!   for (USEVAR = op_iter_init_use (&(ITER), STMT, FLAGS);	\
!        !op_iter_done (&(ITER));					\
!        USEVAR = op_iter_next_use (&(ITER)))
! 
! /* This macro executes a loop over the operands of STMT specified in FLAG,
!    returning each operand as a 'def_operand_p' in the variable DEFVAR.
!    ITER is an ssa_op_iter structure used to control the loop.  */
! #define FOR_EACH_SSA_DEF_OPERAND(DEFVAR, STMT, ITER, FLAGS)	\
!   for (DEFVAR = op_iter_init_def (&(ITER), STMT, FLAGS);	\
!        !op_iter_done (&(ITER));					\
!        DEFVAR = op_iter_next_def (&(ITER)))
! 
! /* This macro will execute a loop over all the arguments of a PHI which
!    match FLAGS.   A use_operand_p is always returned via USEVAR.  FLAGS
!    can be either SSA_OP_USE or SSA_OP_VIRTUAL_USES or SSA_OP_ALL_USES.  */
! #define FOR_EACH_PHI_ARG(USEVAR, STMT, ITER, FLAGS)		\
!   for ((USEVAR) = op_iter_init_phiuse (&(ITER), STMT, FLAGS);	\
!        !op_iter_done (&(ITER));					\
!        (USEVAR) = op_iter_next_use (&(ITER)))
! 
! 
! /* This macro will execute a loop over a stmt, regardless of whether it is
!    a real stmt or a PHI node, looking at the USE nodes matching FLAGS.  */
! #define FOR_EACH_PHI_OR_STMT_USE(USEVAR, STMT, ITER, FLAGS)	\
!   for ((USEVAR) = (gimple_code (STMT) == GIMPLE_PHI 		\
! 		   ? op_iter_init_phiuse (&(ITER), STMT, FLAGS)	\
! 		   : op_iter_init_use (&(ITER), STMT, FLAGS));	\
!        !op_iter_done (&(ITER));					\
!        (USEVAR) = op_iter_next_use (&(ITER)))
! 
! /* This macro will execute a loop over a stmt, regardless of whether it is
!    a real stmt or a PHI node, looking at the DEF nodes matching FLAGS.  */
! #define FOR_EACH_PHI_OR_STMT_DEF(DEFVAR, STMT, ITER, FLAGS)	\
!   for ((DEFVAR) = (gimple_code (STMT) == GIMPLE_PHI 		\
! 		   ? op_iter_init_phidef (&(ITER), STMT, FLAGS)	\
! 		   : op_iter_init_def (&(ITER), STMT, FLAGS));	\
!        !op_iter_done (&(ITER));					\
!        (DEFVAR) = op_iter_next_def (&(ITER)))
! 
! /* This macro returns an operand in STMT as a tree if it is the ONLY
!    operand matching FLAGS.  If there are 0 or more than 1 operand matching
!    FLAGS, then NULL_TREE is returned.  */
! #define SINGLE_SSA_TREE_OPERAND(STMT, FLAGS)			\
!   single_ssa_tree_operand (STMT, FLAGS)
! 
! /* This macro returns an operand in STMT as a use_operand_p if it is the ONLY
!    operand matching FLAGS.  If there are 0 or more than 1 operand matching
!    FLAGS, then NULL_USE_OPERAND_P is returned.  */
! #define SINGLE_SSA_USE_OPERAND(STMT, FLAGS)			\
!   single_ssa_use_operand (STMT, FLAGS)
! 
! /* This macro returns an operand in STMT as a def_operand_p if it is the ONLY
!    operand matching FLAGS.  If there are 0 or more than 1 operand matching
!    FLAGS, then NULL_DEF_OPERAND_P is returned.  */
! #define SINGLE_SSA_DEF_OPERAND(STMT, FLAGS)			\
!   single_ssa_def_operand (STMT, FLAGS)
! 
! /* This macro returns TRUE if there are no operands matching FLAGS in STMT.  */
! #define ZERO_SSA_OPERANDS(STMT, FLAGS) 	zero_ssa_operands (STMT, FLAGS)
  
! /* This macro counts the number of operands in STMT matching FLAGS.  */
! #define NUM_SSA_OPERANDS(STMT, FLAGS)	num_ssa_operands (STMT, FLAGS)
  
  #endif  /* GCC_TREE_SSA_OPERANDS_H  */
--- 87,121 ----
  #define PHI_ARG_INDEX_FROM_USE(USE)   phi_arg_index_from_use (USE)
  
  
+ extern bool ssa_operands_active (struct function *);
  extern void init_ssa_operands (struct function *fn);
  extern void fini_ssa_operands (void);
! extern bool verify_ssa_operands (gimple stmt);
  extern void free_stmt_operands (gimple);
+ extern void update_stmt_operands (gimple);
+ extern void swap_ssa_operands (gimple, tree *, tree *);
  extern bool verify_imm_links (FILE *f, tree var);
  
  extern void dump_immediate_uses_for (FILE *file, tree var);
+ extern void dump_immediate_uses (FILE *file);
  extern void debug_immediate_uses (void);
  extern void debug_immediate_uses_for (tree var);
  
  extern bool virtual_operand_p (tree);
  extern void unlink_stmt_vdef (gimple);
  
! /* Return the tree pointed-to by USE.  */
! static inline tree
! get_use_from_ptr (use_operand_p use)
  {
!   return *(use->use);
! }
  
! /* Return the tree pointed-to by DEF.  */
! static inline tree
! get_def_from_ptr (def_operand_p def)
! {
!   return *def;
! }
  
  #endif  /* GCC_TREE_SSA_OPERANDS_H  */
Index: tree-phinodes.h
===================================================================
*** tree-phinodes.h	(revision 0)
--- tree-phinodes.h	(revision 0)
***************
*** 0 ****
--- 1,175 ----
+ /* Header file for PHI node routines
+    Copyright (C) 2013 Free Software Foundation, Inc.
+ 
+ This file is part of GCC.
+ 
+ GCC 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 3, or (at your option) any later
+ version.
+ 
+ GCC 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 GCC; see the file COPYING3.  If not see
+ <http://www.gnu.org/licenses/>.  */
+ 
+ #ifndef GCC_TREE_PHINODES_H
+ #define GCC_TREE_PHINODES_H
+ 
+ extern void phinodes_print_statistics (void);
+ extern void release_phi_node (gimple);
+ extern void reserve_phi_args_for_new_edge (basic_block);
+ extern void add_phi_node_to_bb (gimple phi, basic_block bb);
+ extern gimple create_phi_node (tree, basic_block);
+ extern void add_phi_arg (gimple, tree, edge, source_location);
+ extern void remove_phi_args (edge);
+ extern void remove_phi_node (gimple_stmt_iterator *, bool);
+ extern void remove_phi_nodes (basic_block);
+ 
+ 
+ /* PHI nodes should contain only ssa_names and invariants.  A test
+    for ssa_name is definitely simpler; don't let invalid contents
+    slip in in the meantime.  */
+ 
+ static inline bool
+ phi_ssa_name_p (const_tree t)
+ {
+   if (TREE_CODE (t) == SSA_NAME)
+     return true;
+   gcc_checking_assert (is_gimple_min_invariant (t));
+   return false;
+ }
+ 
+ /* Return the PHI nodes for basic block BB, or NULL if there are no
+    PHI nodes.  */
+ 
+ static inline gimple_seq
+ phi_nodes (const_basic_block bb)
+ {
+   gcc_checking_assert (!(bb->flags & BB_RTL));
+   return bb->il.gimple.phi_nodes;
+ }
+ 
+ /* Return a pointer to the PHI nodes for basic block BB.  */
+ 
+ static inline gimple_seq *
+ phi_nodes_ptr (basic_block bb)
+ {
+   gcc_checking_assert (!(bb->flags & BB_RTL));
+   return &bb->il.gimple.phi_nodes;
+ }
+ 
+ /* Set PHI nodes of a basic block BB to SEQ.  */
+ 
+ static inline void
+ set_phi_nodes (basic_block bb, gimple_seq seq)
+ {
+   gimple_stmt_iterator i;
+ 
+   gcc_checking_assert (!(bb->flags & BB_RTL));
+   bb->il.gimple.phi_nodes = seq;
+   if (seq)
+     for (i = gsi_start (seq); !gsi_end_p (i); gsi_next (&i))
+       gimple_set_bb (gsi_stmt (i), bb);
+ }
+ 
+ 
+ /* Return the tree operand for argument I of PHI node GS.  */
+ 
+ static inline tree
+ gimple_phi_arg_def (gimple gs, size_t index)
+ {
+   return gimple_phi_arg (gs, index)->def;
+ }
+ 
+ 
+ /* Return a pointer to the tree operand for argument I of PHI node GS.  */
+ 
+ static inline tree *
+ gimple_phi_arg_def_ptr (gimple gs, size_t index)
+ {
+   return &gimple_phi_arg (gs, index)->def;
+ }
+ 
+ /* Return the edge associated with argument I of phi node GS.  */
+ 
+ static inline edge
+ gimple_phi_arg_edge (gimple gs, size_t i)
+ {
+   return EDGE_PRED (gimple_bb (gs), i);
+ }
+ 
+ /* Return the source location of gimple argument I of phi node GS.  */
+ 
+ static inline source_location
+ gimple_phi_arg_location (gimple gs, size_t i)
+ {
+   return gimple_phi_arg (gs, i)->locus;
+ }
+ 
+ /* Return the source location of the argument on edge E of phi node GS.  */
+ 
+ static inline source_location
+ gimple_phi_arg_location_from_edge (gimple gs, edge e)
+ {
+   return gimple_phi_arg (gs, e->dest_idx)->locus;
+ }
+ 
+ /* Set the source location of gimple argument I of phi node GS to LOC.  */
+ 
+ static inline void
+ gimple_phi_arg_set_location (gimple gs, size_t i, source_location loc)
+ {
+   gimple_phi_arg (gs, i)->locus = loc;
+ }
+ 
+ /* Return TRUE if argument I of phi node GS has a location record.  */
+ 
+ static inline bool
+ gimple_phi_arg_has_location (gimple gs, size_t i)
+ {
+   return gimple_phi_arg_location (gs, i) != UNKNOWN_LOCATION;
+ }
+ 
+ /* Return a use_operand_p pointer for argument I of PHI node GS.  */
+ 
+ static inline use_operand_p
+ gimple_phi_arg_imm_use_ptr (gimple gs, int i)
+ {
+   return &gimple_phi_arg (gs, i)->imm_use;
+ }
+ 
+ /* Return the phi argument which contains the specified use.  */
+ 
+ static inline int
+ phi_arg_index_from_use (use_operand_p use)
+ {
+   struct phi_arg_d *element, *root;
+   size_t index;
+   gimple phi;
+ 
+   /* Since the use is the first thing in a PHI argument element, we can
+      calculate its index based on casting it to an argument, and performing
+      pointer arithmetic.  */
+ 
+   phi = USE_STMT (use);
+ 
+   element = (struct phi_arg_d *)use;
+   root = gimple_phi_arg (phi, 0);
+   index = element - root;
+ 
+   /* Make sure the calculation doesn't have any leftover bytes.  If it does,
+      then imm_use is likely not the first element in phi_arg_d.  */
+   gcc_checking_assert ((((char *)element - (char *)root)
+ 			% sizeof (struct phi_arg_d)) == 0
+ 		       && index < gimple_phi_capacity (phi));
+ 
+  return index;
+ }
+ 
+ 
+ #endif /* GCC_TREE_PHINODES_H */
Index: tree-ssa.h
===================================================================
*** tree-ssa.h	(revision 202947)
--- tree-ssa.h	(working copy)
*************** along with GCC; see the file COPYING3.  
*** 20,27 ****
  #ifndef GCC_TREE_SSA_H
  #define GCC_TREE_SSA_H
  
! #include "tree-flow.h"
  #include "tree-ssanames.h"
  
  /* Mapping for redirected edges.  */
  struct _edge_var_map {
--- 20,32 ----
  #ifndef GCC_TREE_SSA_H
  #define GCC_TREE_SSA_H
  
! #include "gimple.h"
! #include "tree-ssa-operands.h"
! #include "tree-phinodes.h"
! #include "gimple-ssa.h"
! #include "ssa-iterators.h"
  #include "tree-ssanames.h"
+ #include "tree-flow.h"
  
  /* Mapping for redirected edges.  */
  struct _edge_var_map {
Index: ssa-iterators.h
===================================================================
*** ssa-iterators.h	(revision 0)
--- ssa-iterators.h	(revision 0)
***************
*** 0 ****
--- 1,996 ----
+ /* Header file for SSA iterators.
+    Copyright (C) 2013 Free Software Foundation, Inc.
+ 
+ This file is part of GCC.
+ 
+ GCC 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 3, or (at your option) any later
+ version.
+ 
+ GCC 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 GCC; see the file COPYING3.  If not see
+ <http://www.gnu.org/licenses/>.  */
+ 
+ #ifndef GCC_SSA_ITERATORS_H
+ #define GCC_SSA_ITERATORS_H
+ 
+ /* Immediate use lists are used to directly access all uses for an SSA
+    name and get pointers to the statement for each use.
+ 
+    The structure ssa_use_operand_d consists of PREV and NEXT pointers
+    to maintain the list.  A USE pointer, which points to address where
+    the use is located and a LOC pointer which can point to the
+    statement where the use is located, or, in the case of the root
+    node, it points to the SSA name itself.
+ 
+    The list is anchored by an occurrence of ssa_operand_d *in* the
+    ssa_name node itself (named 'imm_uses').  This node is uniquely
+    identified by having a NULL USE pointer. and the LOC pointer
+    pointing back to the ssa_name node itself.  This node forms the
+    base for a circular list, and initially this is the only node in
+    the list.
+ 
+    Fast iteration allows each use to be examined, but does not allow
+    any modifications to the uses or stmts.
+ 
+    Normal iteration allows insertion, deletion, and modification. the
+    iterator manages this by inserting a marker node into the list
+    immediately before the node currently being examined in the list.
+    this marker node is uniquely identified by having null stmt *and* a
+    null use pointer.
+ 
+    When iterating to the next use, the iteration routines check to see
+    if the node after the marker has changed. if it has, then the node
+    following the marker is now the next one to be visited. if not, the
+    marker node is moved past that node in the list (visualize it as
+    bumping the marker node through the list).  this continues until
+    the marker node is moved to the original anchor position. the
+    marker node is then removed from the list.
+ 
+    If iteration is halted early, the marker node must be removed from
+    the list before continuing.  */
+ typedef struct immediate_use_iterator_d
+ {
+   /* This is the current use the iterator is processing.  */
+   ssa_use_operand_t *imm_use;
+   /* This marks the last use in the list (use node from SSA_NAME)  */
+   ssa_use_operand_t *end_p;
+   /* This node is inserted and used to mark the end of the uses for a stmt.  */
+   ssa_use_operand_t iter_node;
+   /* This is the next ssa_name to visit.  IMM_USE may get removed before
+      the next one is traversed to, so it must be cached early.  */
+   ssa_use_operand_t *next_imm_name;
+ } imm_use_iterator;
+ 
+ 
+ /* Use this iterator when simply looking at stmts.  Adding, deleting or
+    modifying stmts will cause this iterator to malfunction.  */
+ 
+ #define FOR_EACH_IMM_USE_FAST(DEST, ITER, SSAVAR)		\
+   for ((DEST) = first_readonly_imm_use (&(ITER), (SSAVAR));	\
+        !end_readonly_imm_use_p (&(ITER));			\
+        (void) ((DEST) = next_readonly_imm_use (&(ITER))))
+ 
+ /* Use this iterator to visit each stmt which has a use of SSAVAR.  */
+ 
+ #define FOR_EACH_IMM_USE_STMT(STMT, ITER, SSAVAR)		\
+   for ((STMT) = first_imm_use_stmt (&(ITER), (SSAVAR));		\
+        !end_imm_use_stmt_p (&(ITER));				\
+        (void) ((STMT) = next_imm_use_stmt (&(ITER))))
+ 
+ /* Use this to terminate the FOR_EACH_IMM_USE_STMT loop early.  Failure to
+    do so will result in leaving a iterator marker node in the immediate
+    use list, and nothing good will come from that.   */
+ #define BREAK_FROM_IMM_USE_STMT(ITER)				\
+    {								\
+      end_imm_use_stmt_traverse (&(ITER));			\
+      break;							\
+    }
+ 
+ 
+ /* Use this iterator in combination with FOR_EACH_IMM_USE_STMT to
+    get access to each occurrence of ssavar on the stmt returned by
+    that iterator..  for instance:
+ 
+      FOR_EACH_IMM_USE_STMT (stmt, iter, var)
+        {
+          FOR_EACH_IMM_USE_ON_STMT (use_p, iter)
+ 	   {
+ 	     SET_USE (use_p, blah);
+ 	   }
+ 	 update_stmt (stmt);
+        }							 */
+ 
+ #define FOR_EACH_IMM_USE_ON_STMT(DEST, ITER)			\
+   for ((DEST) = first_imm_use_on_stmt (&(ITER));		\
+        !end_imm_use_on_stmt_p (&(ITER));			\
+        (void) ((DEST) = next_imm_use_on_stmt (&(ITER))))
+ 
+ 
+ 
+ extern bool has_zero_uses_1 (const ssa_use_operand_t *head);
+ extern bool single_imm_use_1 (const ssa_use_operand_t *head,
+ 			      use_operand_p *use_p, gimple *stmt);
+ 
+ 
+ enum ssa_op_iter_type {
+   ssa_op_iter_none = 0,
+   ssa_op_iter_tree,
+   ssa_op_iter_use,
+   ssa_op_iter_def
+ };
+ 
+ /* This structure is used in the operand iterator loops.  It contains the
+    items required to determine which operand is retrieved next.  During
+    optimization, this structure is scalarized, and any unused fields are
+    optimized away, resulting in little overhead.  */
+ 
+ typedef struct ssa_operand_iterator_d
+ {
+   enum ssa_op_iter_type iter_type;
+   bool done;
+   int flags;
+   unsigned i;
+   unsigned numops;
+   use_optype_p uses;
+   gimple stmt;
+ } ssa_op_iter;
+ 
+ /* These flags are used to determine which operands are returned during
+    execution of the loop.  */
+ #define SSA_OP_USE		0x01	/* Real USE operands.  */
+ #define SSA_OP_DEF		0x02	/* Real DEF operands.  */
+ #define SSA_OP_VUSE		0x04	/* VUSE operands.  */
+ #define SSA_OP_VDEF		0x08	/* VDEF operands.  */
+ 
+ /* These are commonly grouped operand flags.  */
+ #define SSA_OP_VIRTUAL_USES	(SSA_OP_VUSE)
+ #define SSA_OP_VIRTUAL_DEFS	(SSA_OP_VDEF)
+ #define SSA_OP_ALL_VIRTUALS     (SSA_OP_VIRTUAL_USES | SSA_OP_VIRTUAL_DEFS)
+ #define SSA_OP_ALL_USES		(SSA_OP_VIRTUAL_USES | SSA_OP_USE)
+ #define SSA_OP_ALL_DEFS		(SSA_OP_VIRTUAL_DEFS | SSA_OP_DEF)
+ #define SSA_OP_ALL_OPERANDS	(SSA_OP_ALL_USES | SSA_OP_ALL_DEFS)
+ 
+ /* This macro executes a loop over the operands of STMT specified in FLAG,
+    returning each operand as a 'tree' in the variable TREEVAR.  ITER is an
+    ssa_op_iter structure used to control the loop.  */
+ #define FOR_EACH_SSA_TREE_OPERAND(TREEVAR, STMT, ITER, FLAGS)	\
+   for (TREEVAR = op_iter_init_tree (&(ITER), STMT, FLAGS);	\
+        !op_iter_done (&(ITER));					\
+        (void) (TREEVAR = op_iter_next_tree (&(ITER))))
+ 
+ /* This macro executes a loop over the operands of STMT specified in FLAG,
+    returning each operand as a 'use_operand_p' in the variable USEVAR.
+    ITER is an ssa_op_iter structure used to control the loop.  */
+ #define FOR_EACH_SSA_USE_OPERAND(USEVAR, STMT, ITER, FLAGS)	\
+   for (USEVAR = op_iter_init_use (&(ITER), STMT, FLAGS);	\
+        !op_iter_done (&(ITER));					\
+        USEVAR = op_iter_next_use (&(ITER)))
+ 
+ /* This macro executes a loop over the operands of STMT specified in FLAG,
+    returning each operand as a 'def_operand_p' in the variable DEFVAR.
+    ITER is an ssa_op_iter structure used to control the loop.  */
+ #define FOR_EACH_SSA_DEF_OPERAND(DEFVAR, STMT, ITER, FLAGS)	\
+   for (DEFVAR = op_iter_init_def (&(ITER), STMT, FLAGS);	\
+        !op_iter_done (&(ITER));					\
+        DEFVAR = op_iter_next_def (&(ITER)))
+ 
+ /* This macro will execute a loop over all the arguments of a PHI which
+    match FLAGS.   A use_operand_p is always returned via USEVAR.  FLAGS
+    can be either SSA_OP_USE or SSA_OP_VIRTUAL_USES or SSA_OP_ALL_USES.  */
+ #define FOR_EACH_PHI_ARG(USEVAR, STMT, ITER, FLAGS)		\
+   for ((USEVAR) = op_iter_init_phiuse (&(ITER), STMT, FLAGS);	\
+        !op_iter_done (&(ITER));					\
+        (USEVAR) = op_iter_next_use (&(ITER)))
+ 
+ 
+ /* This macro will execute a loop over a stmt, regardless of whether it is
+    a real stmt or a PHI node, looking at the USE nodes matching FLAGS.  */
+ #define FOR_EACH_PHI_OR_STMT_USE(USEVAR, STMT, ITER, FLAGS)	\
+   for ((USEVAR) = (gimple_code (STMT) == GIMPLE_PHI 		\
+ 		   ? op_iter_init_phiuse (&(ITER), STMT, FLAGS)	\
+ 		   : op_iter_init_use (&(ITER), STMT, FLAGS));	\
+        !op_iter_done (&(ITER));					\
+        (USEVAR) = op_iter_next_use (&(ITER)))
+ 
+ /* This macro will execute a loop over a stmt, regardless of whether it is
+    a real stmt or a PHI node, looking at the DEF nodes matching FLAGS.  */
+ #define FOR_EACH_PHI_OR_STMT_DEF(DEFVAR, STMT, ITER, FLAGS)	\
+   for ((DEFVAR) = (gimple_code (STMT) == GIMPLE_PHI 		\
+ 		   ? op_iter_init_phidef (&(ITER), STMT, FLAGS)	\
+ 		   : op_iter_init_def (&(ITER), STMT, FLAGS));	\
+        !op_iter_done (&(ITER));					\
+        (DEFVAR) = op_iter_next_def (&(ITER)))
+ 
+ /* This macro returns an operand in STMT as a tree if it is the ONLY
+    operand matching FLAGS.  If there are 0 or more than 1 operand matching
+    FLAGS, then NULL_TREE is returned.  */
+ #define SINGLE_SSA_TREE_OPERAND(STMT, FLAGS)			\
+   single_ssa_tree_operand (STMT, FLAGS)
+ 
+ /* This macro returns an operand in STMT as a use_operand_p if it is the ONLY
+    operand matching FLAGS.  If there are 0 or more than 1 operand matching
+    FLAGS, then NULL_USE_OPERAND_P is returned.  */
+ #define SINGLE_SSA_USE_OPERAND(STMT, FLAGS)			\
+   single_ssa_use_operand (STMT, FLAGS)
+ 
+ /* This macro returns an operand in STMT as a def_operand_p if it is the ONLY
+    operand matching FLAGS.  If there are 0 or more than 1 operand matching
+    FLAGS, then NULL_DEF_OPERAND_P is returned.  */
+ #define SINGLE_SSA_DEF_OPERAND(STMT, FLAGS)			\
+   single_ssa_def_operand (STMT, FLAGS)
+ 
+ /* This macro returns TRUE if there are no operands matching FLAGS in STMT.  */
+ #define ZERO_SSA_OPERANDS(STMT, FLAGS) 	zero_ssa_operands (STMT, FLAGS)
+ 
+ /* This macro counts the number of operands in STMT matching FLAGS.  */
+ #define NUM_SSA_OPERANDS(STMT, FLAGS)	num_ssa_operands (STMT, FLAGS)
+ 
+ 
+ /* Delink an immediate_uses node from its chain.  */
+ static inline void
+ delink_imm_use (ssa_use_operand_t *linknode)
+ {
+   /* Return if this node is not in a list.  */
+   if (linknode->prev == NULL)
+     return;
+ 
+   linknode->prev->next = linknode->next;
+   linknode->next->prev = linknode->prev;
+   linknode->prev = NULL;
+   linknode->next = NULL;
+ }
+ 
+ /* Link ssa_imm_use node LINKNODE into the chain for LIST.  */
+ static inline void
+ link_imm_use_to_list (ssa_use_operand_t *linknode, ssa_use_operand_t *list)
+ {
+   /* Link the new node at the head of the list.  If we are in the process of
+      traversing the list, we won't visit any new nodes added to it.  */
+   linknode->prev = list;
+   linknode->next = list->next;
+   list->next->prev = linknode;
+   list->next = linknode;
+ }
+ 
+ /* Link ssa_imm_use node LINKNODE into the chain for DEF.  */
+ static inline void
+ link_imm_use (ssa_use_operand_t *linknode, tree def)
+ {
+   ssa_use_operand_t *root;
+ 
+   if (!def || TREE_CODE (def) != SSA_NAME)
+     linknode->prev = NULL;
+   else
+     {
+       root = &(SSA_NAME_IMM_USE_NODE (def));
+       if (linknode->use)
+         gcc_checking_assert (*(linknode->use) == def);
+       link_imm_use_to_list (linknode, root);
+     }
+ }
+ 
+ /* Set the value of a use pointed to by USE to VAL.  */
+ static inline void
+ set_ssa_use_from_ptr (use_operand_p use, tree val)
+ {
+   delink_imm_use (use);
+   *(use->use) = val;
+   link_imm_use (use, val);
+ }
+ 
+ /* Link ssa_imm_use node LINKNODE into the chain for DEF, with use occurring
+    in STMT.  */
+ static inline void
+ link_imm_use_stmt (ssa_use_operand_t *linknode, tree def, gimple stmt)
+ {
+   if (stmt)
+     link_imm_use (linknode, def);
+   else
+     link_imm_use (linknode, NULL);
+   linknode->loc.stmt = stmt;
+ }
+ 
+ /* Relink a new node in place of an old node in the list.  */
+ static inline void
+ relink_imm_use (ssa_use_operand_t *node, ssa_use_operand_t *old)
+ {
+   /* The node one had better be in the same list.  */
+   gcc_checking_assert (*(old->use) == *(node->use));
+   node->prev = old->prev;
+   node->next = old->next;
+   if (old->prev)
+     {
+       old->prev->next = node;
+       old->next->prev = node;
+       /* Remove the old node from the list.  */
+       old->prev = NULL;
+     }
+ }
+ 
+ /* Relink ssa_imm_use node LINKNODE into the chain for OLD, with use occurring
+    in STMT.  */
+ static inline void
+ relink_imm_use_stmt (ssa_use_operand_t *linknode, ssa_use_operand_t *old,
+ 		     gimple stmt)
+ {
+   if (stmt)
+     relink_imm_use (linknode, old);
+   else
+     link_imm_use (linknode, NULL);
+   linknode->loc.stmt = stmt;
+ }
+ 
+ 
+ /* Return true is IMM has reached the end of the immediate use list.  */
+ static inline bool
+ end_readonly_imm_use_p (const imm_use_iterator *imm)
+ {
+   return (imm->imm_use == imm->end_p);
+ }
+ 
+ /* Initialize iterator IMM to process the list for VAR.  */
+ static inline use_operand_p
+ first_readonly_imm_use (imm_use_iterator *imm, tree var)
+ {
+   imm->end_p = &(SSA_NAME_IMM_USE_NODE (var));
+   imm->imm_use = imm->end_p->next;
+ #ifdef ENABLE_CHECKING
+   imm->iter_node.next = imm->imm_use->next;
+ #endif
+   if (end_readonly_imm_use_p (imm))
+     return NULL_USE_OPERAND_P;
+   return imm->imm_use;
+ }
+ 
+ /* Bump IMM to the next use in the list.  */
+ static inline use_operand_p
+ next_readonly_imm_use (imm_use_iterator *imm)
+ {
+   use_operand_p old = imm->imm_use;
+ 
+ #ifdef ENABLE_CHECKING
+   /* If this assertion fails, it indicates the 'next' pointer has changed
+      since the last bump.  This indicates that the list is being modified
+      via stmt changes, or SET_USE, or somesuch thing, and you need to be
+      using the SAFE version of the iterator.  */
+   gcc_assert (imm->iter_node.next == old->next);
+   imm->iter_node.next = old->next->next;
+ #endif
+ 
+   imm->imm_use = old->next;
+   if (end_readonly_imm_use_p (imm))
+     return NULL_USE_OPERAND_P;
+   return imm->imm_use;
+ }
+ 
+ 
+ /* Return true if VAR has no nondebug uses.  */
+ static inline bool
+ has_zero_uses (const_tree var)
+ {
+   const ssa_use_operand_t *const ptr = &(SSA_NAME_IMM_USE_NODE (var));
+ 
+   /* A single use_operand means there is no items in the list.  */
+   if (ptr == ptr->next)
+     return true;
+ 
+   /* If there are debug stmts, we have to look at each use and see
+      whether there are any nondebug uses.  */
+   if (!MAY_HAVE_DEBUG_STMTS)
+     return false;
+ 
+   return has_zero_uses_1 (ptr);
+ }
+ 
+ /* Return true if VAR has a single nondebug use.  */
+ static inline bool
+ has_single_use (const_tree var)
+ {
+   const ssa_use_operand_t *const ptr = &(SSA_NAME_IMM_USE_NODE (var));
+ 
+   /* If there aren't any uses whatsoever, we're done.  */
+   if (ptr == ptr->next)
+     return false;
+ 
+   /* If there's a single use, check that it's not a debug stmt.  */
+   if (ptr == ptr->next->next)
+     return !is_gimple_debug (USE_STMT (ptr->next));
+ 
+   /* If there are debug stmts, we have to look at each of them.  */
+   if (!MAY_HAVE_DEBUG_STMTS)
+     return false;
+ 
+   return single_imm_use_1 (ptr, NULL, NULL);
+ }
+ 
+ 
+ /* If VAR has only a single immediate nondebug use, return true, and
+    set USE_P and STMT to the use pointer and stmt of occurrence.  */
+ static inline bool
+ single_imm_use (const_tree var, use_operand_p *use_p, gimple *stmt)
+ {
+   const ssa_use_operand_t *const ptr = &(SSA_NAME_IMM_USE_NODE (var));
+ 
+   /* If there aren't any uses whatsoever, we're done.  */
+   if (ptr == ptr->next)
+     {
+     return_false:
+       *use_p = NULL_USE_OPERAND_P;
+       *stmt = NULL;
+       return false;
+     }
+ 
+   /* If there's a single use, check that it's not a debug stmt.  */
+   if (ptr == ptr->next->next)
+     {
+       if (!is_gimple_debug (USE_STMT (ptr->next)))
+ 	{
+ 	  *use_p = ptr->next;
+ 	  *stmt = ptr->next->loc.stmt;
+ 	  return true;
+ 	}
+       else
+ 	goto return_false;
+     }
+ 
+   /* If there are debug stmts, we have to look at each of them.  */
+   if (!MAY_HAVE_DEBUG_STMTS)
+     goto return_false;
+ 
+   return single_imm_use_1 (ptr, use_p, stmt);
+ }
+ 
+ /* Return the number of nondebug immediate uses of VAR.  */
+ static inline unsigned int
+ num_imm_uses (const_tree var)
+ {
+   const ssa_use_operand_t *const start = &(SSA_NAME_IMM_USE_NODE (var));
+   const ssa_use_operand_t *ptr;
+   unsigned int num = 0;
+ 
+   if (!MAY_HAVE_DEBUG_STMTS)
+     for (ptr = start->next; ptr != start; ptr = ptr->next)
+       num++;
+   else
+     for (ptr = start->next; ptr != start; ptr = ptr->next)
+       if (!is_gimple_debug (USE_STMT (ptr)))
+ 	num++;
+ 
+   return num;
+ }
+ 
+ /*  -----------------------------------------------------------------------  */
+ 
+ /* The following set of routines are used to iterator over various type of
+    SSA operands.  */
+ 
+ /* Return true if PTR is finished iterating.  */
+ static inline bool
+ op_iter_done (const ssa_op_iter *ptr)
+ {
+   return ptr->done;
+ }
+ 
+ /* Get the next iterator use value for PTR.  */
+ static inline use_operand_p
+ op_iter_next_use (ssa_op_iter *ptr)
+ {
+   use_operand_p use_p;
+   gcc_checking_assert (ptr->iter_type == ssa_op_iter_use);
+   if (ptr->uses)
+     {
+       use_p = USE_OP_PTR (ptr->uses);
+       ptr->uses = ptr->uses->next;
+       return use_p;
+     }
+   if (ptr->i < ptr->numops)
+     {
+       return PHI_ARG_DEF_PTR (ptr->stmt, (ptr->i)++);
+     }
+   ptr->done = true;
+   return NULL_USE_OPERAND_P;
+ }
+ 
+ /* Get the next iterator def value for PTR.  */
+ static inline def_operand_p
+ op_iter_next_def (ssa_op_iter *ptr)
+ {
+   gcc_checking_assert (ptr->iter_type == ssa_op_iter_def);
+   if (ptr->flags & SSA_OP_VDEF)
+     {
+       tree *p;
+       ptr->flags &= ~SSA_OP_VDEF;
+       p = gimple_vdef_ptr (ptr->stmt);
+       if (p && *p)
+ 	return p;
+     }
+   if (ptr->flags & SSA_OP_DEF)
+     {
+       while (ptr->i < ptr->numops)
+ 	{
+ 	  tree *val = gimple_op_ptr (ptr->stmt, ptr->i);
+ 	  ptr->i++;
+ 	  if (*val)
+ 	    {
+ 	      if (TREE_CODE (*val) == TREE_LIST)
+ 		val = &TREE_VALUE (*val);
+ 	      if (TREE_CODE (*val) == SSA_NAME
+ 		  || is_gimple_reg (*val))
+ 		return val;
+ 	    }
+ 	}
+       ptr->flags &= ~SSA_OP_DEF;
+     }
+ 
+   ptr->done = true;
+   return NULL_DEF_OPERAND_P;
+ }
+ 
+ /* Get the next iterator tree value for PTR.  */
+ static inline tree
+ op_iter_next_tree (ssa_op_iter *ptr)
+ {
+   tree val;
+   gcc_checking_assert (ptr->iter_type == ssa_op_iter_tree);
+   if (ptr->uses)
+     {
+       val = USE_OP (ptr->uses);
+       ptr->uses = ptr->uses->next;
+       return val;
+     }
+   if (ptr->flags & SSA_OP_VDEF)
+     {
+       ptr->flags &= ~SSA_OP_VDEF;
+       if ((val = gimple_vdef (ptr->stmt)))
+ 	return val;
+     }
+   if (ptr->flags & SSA_OP_DEF)
+     {
+       while (ptr->i < ptr->numops)
+ 	{
+ 	  val = gimple_op (ptr->stmt, ptr->i);
+ 	  ptr->i++;
+ 	  if (val)
+ 	    {
+ 	      if (TREE_CODE (val) == TREE_LIST)
+ 		val = TREE_VALUE (val);
+ 	      if (TREE_CODE (val) == SSA_NAME
+ 		  || is_gimple_reg (val))
+ 		return val;
+ 	    }
+ 	}
+       ptr->flags &= ~SSA_OP_DEF;
+     }
+ 
+   ptr->done = true;
+   return NULL_TREE;
+ }
+ 
+ 
+ /* This functions clears the iterator PTR, and marks it done.  This is normally
+    used to prevent warnings in the compile about might be uninitialized
+    components.  */
+ 
+ static inline void
+ clear_and_done_ssa_iter (ssa_op_iter *ptr)
+ {
+   ptr->i = 0;
+   ptr->numops = 0;
+   ptr->uses = NULL;
+   ptr->iter_type = ssa_op_iter_none;
+   ptr->stmt = NULL;
+   ptr->done = true;
+   ptr->flags = 0;
+ }
+ 
+ /* Initialize the iterator PTR to the virtual defs in STMT.  */
+ static inline void
+ op_iter_init (ssa_op_iter *ptr, gimple stmt, int flags)
+ {
+   /* PHI nodes require a different iterator initialization path.  We
+      do not support iterating over virtual defs or uses without
+      iterating over defs or uses at the same time.  */
+   gcc_checking_assert (gimple_code (stmt) != GIMPLE_PHI
+ 		       && (!(flags & SSA_OP_VDEF) || (flags & SSA_OP_DEF))
+ 		       && (!(flags & SSA_OP_VUSE) || (flags & SSA_OP_USE)));
+   ptr->numops = 0;
+   if (flags & (SSA_OP_DEF | SSA_OP_VDEF))
+     {
+       switch (gimple_code (stmt))
+ 	{
+ 	  case GIMPLE_ASSIGN:
+ 	  case GIMPLE_CALL:
+ 	    ptr->numops = 1;
+ 	    break;
+ 	  case GIMPLE_ASM:
+ 	    ptr->numops = gimple_asm_noutputs (stmt);
+ 	    break;
+ 	  default:
+ 	    ptr->numops = 0;
+ 	    flags &= ~(SSA_OP_DEF | SSA_OP_VDEF);
+ 	    break;
+ 	}
+     }
+   ptr->uses = (flags & (SSA_OP_USE|SSA_OP_VUSE)) ? gimple_use_ops (stmt) : NULL;
+   if (!(flags & SSA_OP_VUSE)
+       && ptr->uses
+       && gimple_vuse (stmt) != NULL_TREE)
+     ptr->uses = ptr->uses->next;
+   ptr->done = false;
+   ptr->i = 0;
+ 
+   ptr->stmt = stmt;
+   ptr->flags = flags;
+ }
+ 
+ /* Initialize iterator PTR to the use operands in STMT based on FLAGS. Return
+    the first use.  */
+ static inline use_operand_p
+ op_iter_init_use (ssa_op_iter *ptr, gimple stmt, int flags)
+ {
+   gcc_checking_assert ((flags & SSA_OP_ALL_DEFS) == 0
+ 		       && (flags & SSA_OP_USE));
+   op_iter_init (ptr, stmt, flags);
+   ptr->iter_type = ssa_op_iter_use;
+   return op_iter_next_use (ptr);
+ }
+ 
+ /* Initialize iterator PTR to the def operands in STMT based on FLAGS. Return
+    the first def.  */
+ static inline def_operand_p
+ op_iter_init_def (ssa_op_iter *ptr, gimple stmt, int flags)
+ {
+   gcc_checking_assert ((flags & SSA_OP_ALL_USES) == 0
+ 		       && (flags & SSA_OP_DEF));
+   op_iter_init (ptr, stmt, flags);
+   ptr->iter_type = ssa_op_iter_def;
+   return op_iter_next_def (ptr);
+ }
+ 
+ /* Initialize iterator PTR to the operands in STMT based on FLAGS. Return
+    the first operand as a tree.  */
+ static inline tree
+ op_iter_init_tree (ssa_op_iter *ptr, gimple stmt, int flags)
+ {
+   op_iter_init (ptr, stmt, flags);
+   ptr->iter_type = ssa_op_iter_tree;
+   return op_iter_next_tree (ptr);
+ }
+ 
+ 
+ /* If there is a single operand in STMT matching FLAGS, return it.  Otherwise
+    return NULL.  */
+ static inline tree
+ single_ssa_tree_operand (gimple stmt, int flags)
+ {
+   tree var;
+   ssa_op_iter iter;
+ 
+   var = op_iter_init_tree (&iter, stmt, flags);
+   if (op_iter_done (&iter))
+     return NULL_TREE;
+   op_iter_next_tree (&iter);
+   if (op_iter_done (&iter))
+     return var;
+   return NULL_TREE;
+ }
+ 
+ 
+ /* If there is a single operand in STMT matching FLAGS, return it.  Otherwise
+    return NULL.  */
+ static inline use_operand_p
+ single_ssa_use_operand (gimple stmt, int flags)
+ {
+   use_operand_p var;
+   ssa_op_iter iter;
+ 
+   var = op_iter_init_use (&iter, stmt, flags);
+   if (op_iter_done (&iter))
+     return NULL_USE_OPERAND_P;
+   op_iter_next_use (&iter);
+   if (op_iter_done (&iter))
+     return var;
+   return NULL_USE_OPERAND_P;
+ }
+ 
+ 
+ 
+ /* If there is a single operand in STMT matching FLAGS, return it.  Otherwise
+    return NULL.  */
+ static inline def_operand_p
+ single_ssa_def_operand (gimple stmt, int flags)
+ {
+   def_operand_p var;
+   ssa_op_iter iter;
+ 
+   var = op_iter_init_def (&iter, stmt, flags);
+   if (op_iter_done (&iter))
+     return NULL_DEF_OPERAND_P;
+   op_iter_next_def (&iter);
+   if (op_iter_done (&iter))
+     return var;
+   return NULL_DEF_OPERAND_P;
+ }
+ 
+ 
+ /* Return true if there are zero operands in STMT matching the type
+    given in FLAGS.  */
+ static inline bool
+ zero_ssa_operands (gimple stmt, int flags)
+ {
+   ssa_op_iter iter;
+ 
+   op_iter_init_tree (&iter, stmt, flags);
+   return op_iter_done (&iter);
+ }
+ 
+ 
+ /* Return the number of operands matching FLAGS in STMT.  */
+ static inline int
+ num_ssa_operands (gimple stmt, int flags)
+ {
+   ssa_op_iter iter;
+   tree t;
+   int num = 0;
+ 
+   gcc_checking_assert (gimple_code (stmt) != GIMPLE_PHI);
+   FOR_EACH_SSA_TREE_OPERAND (t, stmt, iter, flags)
+     num++;
+   return num;
+ }
+ 
+ /* If there is a single DEF in the PHI node which matches FLAG, return it.
+    Otherwise return NULL_DEF_OPERAND_P.  */
+ static inline tree
+ single_phi_def (gimple stmt, int flags)
+ {
+   tree def = PHI_RESULT (stmt);
+   if ((flags & SSA_OP_DEF) && is_gimple_reg (def))
+     return def;
+   if ((flags & SSA_OP_VIRTUAL_DEFS) && !is_gimple_reg (def))
+     return def;
+   return NULL_TREE;
+ }
+ 
+ /* Initialize the iterator PTR for uses matching FLAGS in PHI.  FLAGS should
+    be either SSA_OP_USES or SSA_OP_VIRTUAL_USES.  */
+ static inline use_operand_p
+ op_iter_init_phiuse (ssa_op_iter *ptr, gimple phi, int flags)
+ {
+   tree phi_def = gimple_phi_result (phi);
+   int comp;
+ 
+   clear_and_done_ssa_iter (ptr);
+   ptr->done = false;
+ 
+   gcc_checking_assert ((flags & (SSA_OP_USE | SSA_OP_VIRTUAL_USES)) != 0);
+ 
+   comp = (is_gimple_reg (phi_def) ? SSA_OP_USE : SSA_OP_VIRTUAL_USES);
+ 
+   /* If the PHI node doesn't the operand type we care about, we're done.  */
+   if ((flags & comp) == 0)
+     {
+       ptr->done = true;
+       return NULL_USE_OPERAND_P;
+     }
+ 
+   ptr->stmt = phi;
+   ptr->numops = gimple_phi_num_args (phi);
+   ptr->iter_type = ssa_op_iter_use;
+   ptr->flags = flags;
+   return op_iter_next_use (ptr);
+ }
+ 
+ 
+ /* Start an iterator for a PHI definition.  */
+ 
+ static inline def_operand_p
+ op_iter_init_phidef (ssa_op_iter *ptr, gimple phi, int flags)
+ {
+   tree phi_def = PHI_RESULT (phi);
+   int comp;
+ 
+   clear_and_done_ssa_iter (ptr);
+   ptr->done = false;
+ 
+   gcc_checking_assert ((flags & (SSA_OP_DEF | SSA_OP_VIRTUAL_DEFS)) != 0);
+ 
+   comp = (is_gimple_reg (phi_def) ? SSA_OP_DEF : SSA_OP_VIRTUAL_DEFS);
+ 
+   /* If the PHI node doesn't have the operand type we care about,
+      we're done.  */
+   if ((flags & comp) == 0)
+     {
+       ptr->done = true;
+       return NULL_DEF_OPERAND_P;
+     }
+ 
+   ptr->iter_type = ssa_op_iter_def;
+   /* The first call to op_iter_next_def will terminate the iterator since
+      all the fields are NULL.  Simply return the result here as the first and
+      therefore only result.  */
+   return PHI_RESULT_PTR (phi);
+ }
+ 
+ /* Return true is IMM has reached the end of the immediate use stmt list.  */
+ 
+ static inline bool
+ end_imm_use_stmt_p (const imm_use_iterator *imm)
+ {
+   return (imm->imm_use == imm->end_p);
+ }
+ 
+ /* Finished the traverse of an immediate use stmt list IMM by removing the
+    placeholder node from the list.  */
+ 
+ static inline void
+ end_imm_use_stmt_traverse (imm_use_iterator *imm)
+ {
+   delink_imm_use (&(imm->iter_node));
+ }
+ 
+ /* Immediate use traversal of uses within a stmt require that all the
+    uses on a stmt be sequentially listed.  This routine is used to build up
+    this sequential list by adding USE_P to the end of the current list
+    currently delimited by HEAD and LAST_P.  The new LAST_P value is
+    returned.  */
+ 
+ static inline use_operand_p
+ move_use_after_head (use_operand_p use_p, use_operand_p head,
+ 		      use_operand_p last_p)
+ {
+   gcc_checking_assert (USE_FROM_PTR (use_p) == USE_FROM_PTR (head));
+   /* Skip head when we find it.  */
+   if (use_p != head)
+     {
+       /* If use_p is already linked in after last_p, continue.  */
+       if (last_p->next == use_p)
+ 	last_p = use_p;
+       else
+ 	{
+ 	  /* Delink from current location, and link in at last_p.  */
+ 	  delink_imm_use (use_p);
+ 	  link_imm_use_to_list (use_p, last_p);
+ 	  last_p = use_p;
+ 	}
+     }
+   return last_p;
+ }
+ 
+ 
+ /* This routine will relink all uses with the same stmt as HEAD into the list
+    immediately following HEAD for iterator IMM.  */
+ 
+ static inline void
+ link_use_stmts_after (use_operand_p head, imm_use_iterator *imm)
+ {
+   use_operand_p use_p;
+   use_operand_p last_p = head;
+   gimple head_stmt = USE_STMT (head);
+   tree use = USE_FROM_PTR (head);
+   ssa_op_iter op_iter;
+   int flag;
+ 
+   /* Only look at virtual or real uses, depending on the type of HEAD.  */
+   flag = (is_gimple_reg (use) ? SSA_OP_USE : SSA_OP_VIRTUAL_USES);
+ 
+   if (gimple_code (head_stmt) == GIMPLE_PHI)
+     {
+       FOR_EACH_PHI_ARG (use_p, head_stmt, op_iter, flag)
+ 	if (USE_FROM_PTR (use_p) == use)
+ 	  last_p = move_use_after_head (use_p, head, last_p);
+     }
+   else
+     {
+       if (flag == SSA_OP_USE)
+ 	{
+ 	  FOR_EACH_SSA_USE_OPERAND (use_p, head_stmt, op_iter, flag)
+ 	    if (USE_FROM_PTR (use_p) == use)
+ 	      last_p = move_use_after_head (use_p, head, last_p);
+ 	}
+       else if ((use_p = gimple_vuse_op (head_stmt)) != NULL_USE_OPERAND_P)
+ 	{
+ 	  if (USE_FROM_PTR (use_p) == use)
+ 	    last_p = move_use_after_head (use_p, head, last_p);
+ 	}
+     }
+   /* Link iter node in after last_p.  */
+   if (imm->iter_node.prev != NULL)
+     delink_imm_use (&imm->iter_node);
+   link_imm_use_to_list (&(imm->iter_node), last_p);
+ }
+ 
+ /* Initialize IMM to traverse over uses of VAR.  Return the first statement.  */
+ static inline gimple
+ first_imm_use_stmt (imm_use_iterator *imm, tree var)
+ {
+   imm->end_p = &(SSA_NAME_IMM_USE_NODE (var));
+   imm->imm_use = imm->end_p->next;
+   imm->next_imm_name = NULL_USE_OPERAND_P;
+ 
+   /* iter_node is used as a marker within the immediate use list to indicate
+      where the end of the current stmt's uses are.  Initialize it to NULL
+      stmt and use, which indicates a marker node.  */
+   imm->iter_node.prev = NULL_USE_OPERAND_P;
+   imm->iter_node.next = NULL_USE_OPERAND_P;
+   imm->iter_node.loc.stmt = NULL;
+   imm->iter_node.use = NULL;
+ 
+   if (end_imm_use_stmt_p (imm))
+     return NULL;
+ 
+   link_use_stmts_after (imm->imm_use, imm);
+ 
+   return USE_STMT (imm->imm_use);
+ }
+ 
+ /* Bump IMM to the next stmt which has a use of var.  */
+ 
+ static inline gimple
+ next_imm_use_stmt (imm_use_iterator *imm)
+ {
+   imm->imm_use = imm->iter_node.next;
+   if (end_imm_use_stmt_p (imm))
+     {
+       if (imm->iter_node.prev != NULL)
+ 	delink_imm_use (&imm->iter_node);
+       return NULL;
+     }
+ 
+   link_use_stmts_after (imm->imm_use, imm);
+   return USE_STMT (imm->imm_use);
+ }
+ 
+ /* This routine will return the first use on the stmt IMM currently refers
+    to.  */
+ 
+ static inline use_operand_p
+ first_imm_use_on_stmt (imm_use_iterator *imm)
+ {
+   imm->next_imm_name = imm->imm_use->next;
+   return imm->imm_use;
+ }
+ 
+ /*  Return TRUE if the last use on the stmt IMM refers to has been visited.  */
+ 
+ static inline bool
+ end_imm_use_on_stmt_p (const imm_use_iterator *imm)
+ {
+   return (imm->imm_use == &(imm->iter_node));
+ }
+ 
+ /* Bump to the next use on the stmt IMM refers to, return NULL if done.  */
+ 
+ static inline use_operand_p
+ next_imm_use_on_stmt (imm_use_iterator *imm)
+ {
+   imm->imm_use = imm->next_imm_name;
+   if (end_imm_use_on_stmt_p (imm))
+     return NULL_USE_OPERAND_P;
+   else
+     {
+       imm->next_imm_name = imm->imm_use->next;
+       return imm->imm_use;
+     }
+ }
+ 
+ /* Delink all immediate_use information for STMT.  */
+ static inline void
+ delink_stmt_imm_use (gimple stmt)
+ {
+    ssa_op_iter iter;
+    use_operand_p use_p;
+ 
+    if (ssa_operands_active (cfun))
+      FOR_EACH_PHI_OR_STMT_USE (use_p, stmt, iter, SSA_OP_ALL_USES)
+        delink_imm_use (use_p);
+ }
+ 
+ #endif /* GCC_TREE_SSA_ITERATORS_H */
Index: tree-outof-ssa.h
===================================================================
*** tree-outof-ssa.h	(revision 202947)
--- tree-outof-ssa.h	(working copy)
*************** along with GCC; see the file COPYING3.  
*** 18,25 ****
  <http://www.gnu.org/licenses/>.  */
  
  
! #ifndef _SSAEXPAND_H
! #define _SSAEXPAND_H 1
  
  #include "tree-ssa-live.h"
  #include "tree-ssa-ter.h"
--- 18,25 ----
  <http://www.gnu.org/licenses/>.  */
  
  
! #ifndef GCC_TREE_OUTOF_SSA_H
! #define GCC_TREE_OUTOF_SSA_H
  
  #include "tree-ssa-live.h"
  #include "tree-ssa-ter.h"
*************** extern void finish_out_of_ssa (struct ss
*** 77,80 ****
  extern unsigned int rewrite_out_of_ssa (struct ssaexpand *sa);
  extern void expand_phi_nodes (struct ssaexpand *sa);
  
! #endif
--- 77,80 ----
  extern unsigned int rewrite_out_of_ssa (struct ssaexpand *sa);
  extern void expand_phi_nodes (struct ssaexpand *sa);
  
! #endif /* GCC_TREE_OUTOF_SSA_H */
Index: Makefile.in
===================================================================
*** Makefile.in	(revision 202947)
--- Makefile.in	(working copy)
*************** OBJS = \
*** 1225,1230 ****
--- 1225,1231 ----
  	gimple-fold.o \
  	gimple-low.o \
  	gimple-pretty-print.o \
+ 	gimple-ssa.o \
  	gimple-ssa-strength-reduction.o \
  	gimple-streamer-in.o \
  	gimple-streamer-out.o \

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