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/* Routines for liveness in SSA trees.
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   Copyright (C) 2003, 2004, 2005, 2007, 2008, 2010
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   Free Software Foundation, Inc.
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   Contributed by Andrew MacLeod  <amacleod@redhat.com>
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3, or (at your option)
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any later version.
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GCC is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with GCC; see the file COPYING3.  If not see
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<http://www.gnu.org/licenses/>.  */
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#ifndef _TREE_SSA_LIVE_H
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#define _TREE_SSA_LIVE_H 1
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#include "partition.h"
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#include "vecprim.h"
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/* Used to create the variable mapping when we go out of SSA form.
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   Mapping from an ssa_name to a partition number is maintained, as well as
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   partition number to back to ssa_name. A partition can also be represented
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   by a non-ssa_name variable.  This allows ssa_names and their partition to
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   be coalesced with live on entry compiler variables, as well as eventually
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   having real compiler variables assigned to each partition as part of the
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   final stage of going of of ssa.
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   Non-ssa_names maintain their partition index in the variable annotation.
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   This data structure also supports "views", which work on a subset of all
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   partitions.  This allows the coalescer to decide what partitions are
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   interesting to it, and only work with those partitions.  Whenever the view
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   is changed, the partition numbers change, but none of the partition groupings
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   change. (ie, it is truly a view since it doesn't change anything)
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   The final component of the data structure is the basevar map.  This provides
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   a list of all the different base variables which occur in a partition view,
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   and a unique index for each one. Routines are provided to quickly produce
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   the base variable of a partition.
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   Note that members of a partition MUST all have the same base variable.  */
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typedef struct _var_map
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{
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  /* The partition manager of all variables.  */
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  partition var_partition;
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  /* Vector for managing partitions views.  */
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  int *partition_to_view;
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  int *view_to_partition;
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  /* Current number of partitions in var_map based on the current view.  */
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  unsigned int num_partitions;
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  /* Original full partition size.  */
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  unsigned int partition_size;
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  /* Number of base variables in the base var list.  */
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  int num_basevars;
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  /* Map of partitions numbers to base variable table indexes.  */
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  int *partition_to_base_index;
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  /* Table of base variable's.  */
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  VEC (tree, heap) *basevars;
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} *var_map;
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/* Index to the basevar table of a non ssa-name variable.  */
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#define VAR_ANN_BASE_INDEX(ann) (ann->base_index)
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/* Value used to represent no partition number.  */
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#define NO_PARTITION            -1
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extern var_map init_var_map (int);
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extern void delete_var_map (var_map);
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extern void dump_var_map (FILE *, var_map);
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extern int var_union (var_map, tree, tree);
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extern void partition_view_normal (var_map, bool);
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extern void partition_view_bitmap (var_map, bitmap, bool);
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#ifdef ENABLE_CHECKING
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extern void register_ssa_partition_check (tree ssa_var);
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#endif
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/* Return number of partitions in MAP.  */
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static inline unsigned
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num_var_partitions (var_map map)
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{
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  return map->num_partitions;
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}
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/* Given partition index I from MAP, return the variable which represents that
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   partition.  */
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static inline tree
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partition_to_var (var_map map, int i)
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{
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  tree name;
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  if (map->view_to_partition)
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    i = map->view_to_partition[i];
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  i = partition_find (map->var_partition, i);
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  name = ssa_name (i);
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  return name;
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}
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/* Given ssa_name VERSION, if it has a partition in MAP,  return the var it
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   is associated with.  Otherwise return NULL.  */
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static inline tree
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version_to_var (var_map map, int version)
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{
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  int part;
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  part = partition_find (map->var_partition, version);
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  if (map->partition_to_view)
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    part = map->partition_to_view[part];
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  if (part == NO_PARTITION)
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    return NULL_TREE;
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  return partition_to_var (map, part);
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}
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/* Given VAR, return the partition number in MAP which contains it.
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   NO_PARTITION is returned if it's not in any partition.  */
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static inline int
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var_to_partition (var_map map, tree var)
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{
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  int part;
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  part = partition_find (map->var_partition, SSA_NAME_VERSION (var));
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  if (map->partition_to_view)
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    part = map->partition_to_view[part];
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  return part;
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}
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/* Given VAR, return the variable which represents the entire partition
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   it is a member of in MAP.  NULL is returned if it is not in a partition.  */
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static inline tree
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var_to_partition_to_var (var_map map, tree var)
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{
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  int part;
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  part = var_to_partition (map, var);
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  if (part == NO_PARTITION)
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    return NULL_TREE;
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  return partition_to_var (map, part);
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}
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/* Return the index into the basevar table for PARTITION's base in MAP.  */
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static inline int
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basevar_index (var_map map, int partition)
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{
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  gcc_checking_assert (partition >= 0
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                       && partition <= (int) num_var_partitions (map));
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  return map->partition_to_base_index[partition];
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}
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/* Return the number of different base variables in MAP.  */
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static inline int
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num_basevars (var_map map)
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{
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  return map->num_basevars;
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}
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/* This routine registers a partition for SSA_VAR with MAP.  Any unregistered
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   partitions may be filtered out by a view later.  */
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static inline void
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register_ssa_partition (var_map map ATTRIBUTE_UNUSED,
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                        tree ssa_var ATTRIBUTE_UNUSED)
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{
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#if defined ENABLE_CHECKING
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  register_ssa_partition_check (ssa_var);
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#endif
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}
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/*  ---------------- live on entry/exit info ------------------------------
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    This structure is used to represent live range information on SSA based
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    trees. A partition map must be provided, and based on the active partitions,
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    live-on-entry information and live-on-exit information can be calculated.
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    As well, partitions are marked as to whether they are global (live
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    outside the basic block they are defined in).
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    The live-on-entry information is per block.  It provide a bitmap for
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    each block which has a bit set for each partition that is live on entry to
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    that block.
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    The live-on-exit information is per block.  It provides a bitmap for each
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    block indicating which partitions are live on exit from the block.
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    For the purposes of this implementation, we treat the elements of a PHI
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    as follows:
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       Uses in a PHI are considered LIVE-ON-EXIT to the block from which they
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       originate. They are *NOT* considered live on entry to the block
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       containing the PHI node.
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       The Def of a PHI node is *not* considered live on entry to the block.
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       It is considered to be "define early" in the block. Picture it as each
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       block having a stmt (or block-preheader) before the first real stmt in
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       the block which defines all the variables that are defined by PHIs.
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    -----------------------------------------------------------------------  */
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typedef struct tree_live_info_d
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{
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  /* Var map this relates to.  */
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  var_map map;
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  /* Bitmap indicating which partitions are global.  */
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  bitmap global;
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  /* Bitmap of live on entry blocks for partition elements.  */
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  bitmap *livein;
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  /* Number of basic blocks when live on exit calculated.  */
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  int num_blocks;
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  /* Vector used when creating live ranges as a visited stack.  */
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  int *work_stack;
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  /* Top of workstack.  */
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  int *stack_top;
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  /* Bitmap of what variables are live on exit for a basic blocks.  */
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  bitmap *liveout;
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} *tree_live_info_p;
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extern tree_live_info_p calculate_live_ranges (var_map);
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extern void calculate_live_on_exit (tree_live_info_p);
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extern void delete_tree_live_info (tree_live_info_p);
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#define LIVEDUMP_ENTRY  0x01
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#define LIVEDUMP_EXIT   0x02
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#define LIVEDUMP_ALL    (LIVEDUMP_ENTRY | LIVEDUMP_EXIT)
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extern void dump_live_info (FILE *, tree_live_info_p, int);
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/*  Return TRUE if P is marked as a global in LIVE.  */
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static inline int
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partition_is_global (tree_live_info_p live, int p)
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{
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  gcc_checking_assert (live->global);
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  return bitmap_bit_p (live->global, p);
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}
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/* Return the bitmap from LIVE representing the live on entry blocks for
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   partition P.  */
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static inline bitmap
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live_on_entry (tree_live_info_p live, basic_block bb)
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{
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  gcc_checking_assert (live->livein
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                       && bb != ENTRY_BLOCK_PTR
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                       && bb != EXIT_BLOCK_PTR);
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  return live->livein[bb->index];
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}
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/* Return the bitmap from LIVE representing the live on exit partitions from
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   block BB.  */
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static inline bitmap
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live_on_exit (tree_live_info_p live, basic_block bb)
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{
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  gcc_checking_assert (live->liveout
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                       && bb != ENTRY_BLOCK_PTR
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                       && bb != EXIT_BLOCK_PTR);
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  return live->liveout[bb->index];
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}
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/* Return the partition map which the information in LIVE utilizes.  */
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static inline var_map
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live_var_map (tree_live_info_p live)
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{
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  return live->map;
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}
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/* Merge the live on entry information in LIVE for partitions P1 and P2. Place
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   the result into P1.  Clear P2.  */
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static inline void
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live_merge_and_clear (tree_live_info_p live, int p1, int p2)
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{
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  gcc_checking_assert (live->livein[p1] && live->livein[p2]);
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  bitmap_ior_into (live->livein[p1], live->livein[p2]);
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  bitmap_zero (live->livein[p2]);
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}
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/* Mark partition P as live on entry to basic block BB in LIVE.  */
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static inline void
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make_live_on_entry (tree_live_info_p live, basic_block bb , int p)
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{
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  bitmap_set_bit (live->livein[bb->index], p);
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  bitmap_set_bit (live->global, p);
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}
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/* From tree-ssa-coalesce.c  */
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extern var_map coalesce_ssa_name (void);
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/* From tree-ssa-ter.c  */
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extern bitmap find_replaceable_exprs (var_map);
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extern void dump_replaceable_exprs (FILE *, bitmap);
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#endif /* _TREE_SSA_LIVE_H  */

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