tree-ssa-threadupdate.c: Replace 8 space sequences with tabs.

        * tree-ssa-threadupdate.c: Replace 8 space sequences with tabs.
        No functional changes.

From-SVN: r223734

2 files changed, 151 insertions, 146 deletions

diff --git a/gcc/ChangeLog b/gcc/ChangeLog
index 5618d20..f02ba5c 100644
--- a/gcc/ChangeLog
+++ b/gcc/ChangeLog
@@ -1,3 +1,8 @@
+2015-05-26  Jeff Law  <law@redhat.com>
+
+	* tree-ssa-threadupdate.c: Replace 8 space sequences with tabs.
+	No functional changes.
+
 2015-05-26  Jan Hubicka  <hubicka@ucw.cz>
 
 	* ipa-polymorphic-call.c
diff --git a/gcc/tree-ssa-threadupdate.c b/gcc/tree-ssa-threadupdate.c
index 4bccad0..ce1dcdb 100644
--- a/gcc/tree-ssa-threadupdate.c
+++ b/gcc/tree-ssa-threadupdate.c
@@ -605,25 +605,25 @@ any_remaining_duplicated_blocks (vec<jump_thread_edge *> *path,
    For example, assume we have the following control flow and identified
    jump threading paths:
 
-                A     B     C
-                 \    |    /
-               Ea \   |Eb / Ec
-                   \  |  /
-                    v v v
-                      J       <-- Joiner
-                     / \
-                Eoff/   \Eon
-                   /     \
-                  v       v
-                Soff     Son  <--- Normal
-                         /\
-                      Ed/  \ Ee
-                       /    \
-                      v     v
-                      D      E
-
-            Jump threading paths: A -> J -> Son -> D (path 1)
-                                  C -> J -> Son -> E (path 2)
+		A     B     C
+		 \    |    /
+	       Ea \   |Eb / Ec
+		   \  |  /
+		    v v v
+		      J       <-- Joiner
+		     / \
+		Eoff/   \Eon
+		   /     \
+		  v       v
+		Soff     Son  <--- Normal
+			 /\
+		      Ed/  \ Ee
+		       /    \
+		      v     v
+		      D      E
+
+	    Jump threading paths: A -> J -> Son -> D (path 1)
+				  C -> J -> Son -> E (path 2)
 
    Note that the control flow could be more complicated:
    - Each jump threading path may have more than one incoming edge.  I.e. A and
@@ -639,22 +639,22 @@ any_remaining_duplicated_blocks (vec<jump_thread_edge *> *path,
    In the aboe example, after all jump threading is complete, we will
    end up with the following control flow:
 
-                A          B            C
-                |          |            |
-              Ea|          |Eb          |Ec
-                |          |            |
-                v          v            v
-               Ja          J           Jc
-               / \        / \Eon'     / \
-          Eona/   \   ---/---\--------   \Eonc
-             /     \ /  /     \           \
-            v       v  v       v          v
-           Sona     Soff      Son        Sonc
-             \                 /\         /
-              \___________    /  \  _____/
-                          \  /    \/
-                           vv      v
-                            D      E
+		A	  B	    C
+		|	  |	    |
+	      Ea|	  |Eb	  |Ec
+		|	  |	    |
+		v	  v	    v
+	       Ja	  J	   Jc
+	       / \	/ \Eon'     / \
+	  Eona/   \   ---/---\--------   \Eonc
+	     /     \ /  /     \	   \
+	    v       v  v       v	  v
+	   Sona     Soff      Son	Sonc
+	     \		 /\	 /
+	      \___________    /  \  _____/
+			  \  /    \/
+			   vv      v
+			    D      E
 
    The main issue to notice here is that when we are processing path 1
    (A->J->Son->D) we need to figure out the outgoing edge weights to
@@ -684,10 +684,10 @@ any_remaining_duplicated_blocks (vec<jump_thread_edge *> *path,
 
 static bool
 compute_path_counts (struct redirection_data *rd,
-                     ssa_local_info_t *local_info,
-                     gcov_type *path_in_count_ptr,
-                     gcov_type *path_out_count_ptr,
-                     int *path_in_freq_ptr)
+		     ssa_local_info_t *local_info,
+		     gcov_type *path_in_count_ptr,
+		     gcov_type *path_out_count_ptr,
+		     int *path_in_freq_ptr)
 {
   edge e = rd->incoming_edges->e;
   vec<jump_thread_edge *> *path = THREAD_PATH (e);
@@ -699,13 +699,13 @@ compute_path_counts (struct redirection_data *rd,
 
   /* Start by accumulating incoming edge counts to the path's first bb
      into a couple buckets:
-        path_in_count: total count of incoming edges that flow into the
-                  current path.
-        nonpath_count: total count of incoming edges that are not
-                  flowing along *any* path.  These are the counts
-                  that will still flow along the original path after
-                  all path duplication is done by potentially multiple
-                  calls to this routine.
+	path_in_count: total count of incoming edges that flow into the
+		  current path.
+	nonpath_count: total count of incoming edges that are not
+		  flowing along *any* path.  These are the counts
+		  that will still flow along the original path after
+		  all path duplication is done by potentially multiple
+		  calls to this routine.
      (any other incoming edge counts are for a different jump threading
      path that will be handled by a later call to this routine.)
      To make this easier, start by recording all incoming edges that flow into
@@ -727,23 +727,23 @@ compute_path_counts (struct redirection_data *rd,
       vec<jump_thread_edge *> *ein_path = THREAD_PATH (ein);
       /* Simply check the incoming edge src against the set captured above.  */
       if (ein_path
-          && bitmap_bit_p (in_edge_srcs, (*ein_path)[0]->e->src->index))
-        {
-          /* It is necessary but not sufficient that the last path edges
-             are identical.  There may be different paths that share the
-             same last path edge in the case where the last edge has a nocopy
-             source block.  */
-          gcc_assert (ein_path->last ()->e == elast);
-          path_in_count += ein->count;
-          path_in_freq += EDGE_FREQUENCY (ein);
-        }
+	  && bitmap_bit_p (in_edge_srcs, (*ein_path)[0]->e->src->index))
+	{
+	  /* It is necessary but not sufficient that the last path edges
+	     are identical.  There may be different paths that share the
+	     same last path edge in the case where the last edge has a nocopy
+	     source block.  */
+	  gcc_assert (ein_path->last ()->e == elast);
+	  path_in_count += ein->count;
+	  path_in_freq += EDGE_FREQUENCY (ein);
+	}
       else if (!ein_path)
-        {
-          /* Keep track of the incoming edges that are not on any jump-threading
-             path.  These counts will still flow out of original path after all
-             jump threading is complete.  */
-            nonpath_count += ein->count;
-        }
+	{
+	  /* Keep track of the incoming edges that are not on any jump-threading
+	     path.  These counts will still flow out of original path after all
+	     jump threading is complete.  */
+	    nonpath_count += ein->count;
+	}
     }
 
   /* This is needed due to insane incoming frequencies.  */
@@ -786,31 +786,31 @@ compute_path_counts (struct redirection_data *rd,
       edge epath = (*path)[i]->e;
       gcov_type cur_count = epath->count;
       if ((*path)[i]->type == EDGE_COPY_SRC_JOINER_BLOCK)
-        {
-          has_joiner = true;
-          cur_count = apply_probability (cur_count, onpath_scale);
-        }
+	{
+	  has_joiner = true;
+	  cur_count = apply_probability (cur_count, onpath_scale);
+	}
       /* In the joiner case we need to update nonpath_count for any edges
-         coming into the path that will contribute to the count flowing
-         into the path successor.  */
+	 coming into the path that will contribute to the count flowing
+	 into the path successor.  */
       if (has_joiner && epath != elast)
       {
-        /* Look for other incoming edges after joiner.  */
-        FOR_EACH_EDGE (ein, ei, epath->dest->preds)
-          {
-            if (ein != epath
-                /* Ignore in edges from blocks we have duplicated for a
-                   threading path, which have duplicated edge counts until
-                   they are redirected by an invocation of this routine.  */
-                && !bitmap_bit_p (local_info->duplicate_blocks,
-                                  ein->src->index))
-              nonpath_count += ein->count;
-          }
+	/* Look for other incoming edges after joiner.  */
+	FOR_EACH_EDGE (ein, ei, epath->dest->preds)
+	  {
+	    if (ein != epath
+		/* Ignore in edges from blocks we have duplicated for a
+		   threading path, which have duplicated edge counts until
+		   they are redirected by an invocation of this routine.  */
+		&& !bitmap_bit_p (local_info->duplicate_blocks,
+				  ein->src->index))
+	      nonpath_count += ein->count;
+	  }
       }
       if (cur_count < path_out_count)
-        path_out_count = cur_count;
+	path_out_count = cur_count;
       if (epath->count < min_path_count)
-        min_path_count = epath->count;
+	min_path_count = epath->count;
     }
 
   /* We computed path_out_count above assuming that this path targeted
@@ -850,7 +850,7 @@ compute_path_counts (struct redirection_data *rd,
    and the duplicate edge EDUP will have a count of PATH_OUT_COUNT.  */
 static void
 update_profile (edge epath, edge edup, gcov_type path_in_count,
-                gcov_type path_out_count, int path_in_freq)
+		gcov_type path_out_count, int path_in_freq)
 {
 
   /* First update the duplicated block's count / frequency.  */
@@ -899,22 +899,22 @@ recompute_probabilities (basic_block bb)
   FOR_EACH_EDGE (esucc, ei, bb->succs)
     {
       if (!bb->count)
-        continue;
+	continue;
 
       /* Prevent overflow computation due to insane profiles.  */
       if (esucc->count < bb->count)
-        esucc->probability = GCOV_COMPUTE_SCALE (esucc->count,
-                                                 bb->count);
+	esucc->probability = GCOV_COMPUTE_SCALE (esucc->count,
+						 bb->count);
       else
-        /* Can happen with missing/guessed probabilities, since we
-           may determine that more is flowing along duplicated
-           path than joiner succ probabilities allowed.
-           Counts and freqs will be insane after jump threading,
-           at least make sure probability is sane or we will
-           get a flow verification error.
-           Not much we can do to make counts/freqs sane without
-           redoing the profile estimation.  */
-        esucc->probability = REG_BR_PROB_BASE;
+	/* Can happen with missing/guessed probabilities, since we
+	   may determine that more is flowing along duplicated
+	   path than joiner succ probabilities allowed.
+	   Counts and freqs will be insane after jump threading,
+	   at least make sure probability is sane or we will
+	   get a flow verification error.
+	   Not much we can do to make counts/freqs sane without
+	   redoing the profile estimation.  */
+	esucc->probability = REG_BR_PROB_BASE;
     }
 }
 
@@ -927,8 +927,8 @@ recompute_probabilities (basic_block bb)
 
 static void
 update_joiner_offpath_counts (edge epath, basic_block dup_bb,
-                              gcov_type path_in_count,
-                              gcov_type path_out_count)
+			      gcov_type path_in_count,
+			      gcov_type path_out_count)
 {
   /* Compute the count that currently flows off path from the joiner.
      In other words, the total count of joiner's out edges other than
@@ -943,7 +943,7 @@ update_joiner_offpath_counts (edge epath, basic_block dup_bb,
   FOR_EACH_EDGE (enonpath, ei, epath->src->succs)
     {
       if (enonpath == epath)
-        continue;
+	continue;
       total_orig_off_path_count += enonpath->count;
     }
 
@@ -959,31 +959,31 @@ update_joiner_offpath_counts (edge epath, basic_block dup_bb,
     {
       /* Look for edges going off of the threading path.  */
       if (enonpath == epath)
-        continue;
+	continue;
 
       /* Find the corresponding edge out of the duplicated joiner.  */
       edge enonpathdup = find_edge (dup_bb, enonpath->dest);
       gcc_assert (enonpathdup);
 
       /* We can't use the original probability of the joiner's out
-         edges, since the probabilities of the original branch
-         and the duplicated branches may vary after all threading is
-         complete.  But apportion the duplicated joiner's off-path
-         total edge count computed earlier (total_dup_off_path_count)
-         among the duplicated off-path edges based on their original
-         ratio to the full off-path count (total_orig_off_path_count).
-         */
+	 edges, since the probabilities of the original branch
+	 and the duplicated branches may vary after all threading is
+	 complete.  But apportion the duplicated joiner's off-path
+	 total edge count computed earlier (total_dup_off_path_count)
+	 among the duplicated off-path edges based on their original
+	 ratio to the full off-path count (total_orig_off_path_count).
+	 */
       int scale = GCOV_COMPUTE_SCALE (enonpath->count,
-                                      total_orig_off_path_count);
+				      total_orig_off_path_count);
       /* Give the duplicated offpath edge a portion of the duplicated
-         total.  */
+	 total.  */
       enonpathdup->count = apply_scale (scale,
-                                        total_dup_off_path_count);
+					total_dup_off_path_count);
       /* Now update the original offpath edge count, handling underflow
-         due to rounding errors.  */
+	 due to rounding errors.  */
       enonpath->count -= enonpathdup->count;
       if (enonpath->count < 0)
-        enonpath->count = 0;
+	enonpath->count = 0;
     }
 }
 
@@ -1003,7 +1003,7 @@ estimated_freqs_path (struct redirection_data *rd)
   FOR_EACH_EDGE (ein, ei, e->dest->preds)
     {
       if (ein->count)
-        return false;
+	return false;
       non_zero_freq |= ein->src->frequency != 0;
     }
 
@@ -1011,15 +1011,15 @@ estimated_freqs_path (struct redirection_data *rd)
     {
       edge epath = (*path)[i]->e;
       if (epath->src->count)
-        return false;
+	return false;
       non_zero_freq |= epath->src->frequency != 0;
       edge esucc;
       FOR_EACH_EDGE (esucc, ei, epath->src->succs)
-        {
-          if (esucc->count)
-            return false;
-          non_zero_freq |= esucc->src->frequency != 0;
-        }
+	{
+	  if (esucc->count)
+	    return false;
+	  non_zero_freq |= esucc->src->frequency != 0;
+	}
     }
   return non_zero_freq;
 }
@@ -1045,10 +1045,10 @@ freqs_to_counts_path (struct redirection_data *rd)
   FOR_EACH_EDGE (ein, ei, e->dest->preds)
     {
       /* Scale up the frequency by REG_BR_PROB_BASE, to avoid rounding
-         errors applying the probability when the frequencies are very
-         small.  */
+	 errors applying the probability when the frequencies are very
+	 small.  */
       ein->count = apply_probability (ein->src->frequency * REG_BR_PROB_BASE,
-                                      ein->probability);
+				      ein->probability);
     }
 
   for (unsigned int i = 1; i < path->length (); i++)
@@ -1056,12 +1056,12 @@ freqs_to_counts_path (struct redirection_data *rd)
       edge epath = (*path)[i]->e;
       edge esucc;
       /* Scale up the frequency by REG_BR_PROB_BASE, to avoid rounding
-         errors applying the edge probability when the frequencies are very
-         small.  */
+	 errors applying the edge probability when the frequencies are very
+	 small.  */
       epath->src->count = epath->src->frequency * REG_BR_PROB_BASE;
       FOR_EACH_EDGE (esucc, ei, epath->src->succs)
-        esucc->count = apply_probability (esucc->src->count,
-                                          esucc->probability);
+	esucc->count = apply_probability (esucc->src->count,
+					  esucc->probability);
     }
 }
 
@@ -1088,7 +1088,7 @@ clear_counts_path (struct redirection_data *rd)
     {
       edge epath = (*path)[i]->e;
       FOR_EACH_EDGE (esucc, ei, epath->src->succs)
-        esucc->count = 0;
+	esucc->count = 0;
       epath->src->count = 0;
     }
   /* Also need to clear the counts along duplicated path.  */
@@ -1096,9 +1096,9 @@ clear_counts_path (struct redirection_data *rd)
     {
       basic_block dup = rd->dup_blocks[i];
       if (!dup)
-        continue;
+	continue;
       FOR_EACH_EDGE (esucc, ei, dup->succs)
-        esucc->count = 0;
+	esucc->count = 0;
       dup->count = 0;
     }
 }
@@ -1128,7 +1128,7 @@ ssa_fix_duplicate_block_edges (struct redirection_data *rd,
      to see if the paths through RD are using estimated frequencies because
      the routine had zero profile counts.  */
   bool do_freqs_to_counts = (profile_status_for_fn (cfun) != PROFILE_READ
-                             || estimated_freqs_path (rd));
+			     || estimated_freqs_path (rd));
   if (do_freqs_to_counts)
     freqs_to_counts_path (rd);
 
@@ -1139,8 +1139,8 @@ ssa_fix_duplicate_block_edges (struct redirection_data *rd,
      non-joiner case the path_in_count and path_out_count should be the
      same.  */
   bool has_joiner = compute_path_counts (rd, local_info,
-                                         &path_in_count, &path_out_count,
-                                         &path_in_freq);
+					 &path_in_count, &path_out_count,
+					 &path_in_freq);
 
   int cur_path_freq = path_in_freq;
   for (unsigned int count = 0, i = 1; i < path->length (); i++)
@@ -1156,7 +1156,7 @@ ssa_fix_duplicate_block_edges (struct redirection_data *rd,
 	  edge victim;
 	  edge e2;
 
-          gcc_assert (has_joiner);
+	  gcc_assert (has_joiner);
 
 	  /* This updates the PHIs at the destination of the duplicate
 	     block.  Pass 0 instead of i if we are threading a path which
@@ -1221,7 +1221,7 @@ ssa_fix_duplicate_block_edges (struct redirection_data *rd,
 	  /* Next we need to update the counts of the original and duplicated
 	     edges from the joiner that go off path.  */
 	  update_joiner_offpath_counts (epath, e2->src, path_in_count,
-                                        path_out_count);
+					path_out_count);
 
 	  /* Finally, we need to set the probabilities on the duplicated
 	     edges out of the duplicated joiner (e2->src).  The probabilities
@@ -1255,7 +1255,7 @@ ssa_fix_duplicate_block_edges (struct redirection_data *rd,
 			  cur_path_freq);
 	}
       else
-        {
+	{
 	  /* No copy case.  In this case we don't have an equivalent block
 	     on the duplicated thread path to update, but we do need
 	     to remove the portion of the counts/freqs that were moved
@@ -1274,9 +1274,9 @@ ssa_fix_duplicate_block_edges (struct redirection_data *rd,
 	}
 
       /* Increment the index into the duplicated path when we processed
-         a duplicated block.  */
+	 a duplicated block.  */
       if ((*path)[i]->type == EDGE_COPY_SRC_JOINER_BLOCK
-          || (*path)[i]->type == EDGE_COPY_SRC_BLOCK)
+	  || (*path)[i]->type == EDGE_COPY_SRC_BLOCK)
       {
 	  count++;
       }
@@ -1320,7 +1320,7 @@ ssa_create_duplicates (struct redirection_data **slot,
 	  || (*path)[i]->type == EDGE_COPY_SRC_JOINER_BLOCK)
 	{
 	  create_block_for_threading ((*path)[i]->e->src, rd, 1,
-                                      &local_info->duplicate_blocks);
+				      &local_info->duplicate_blocks);
 	  break;
 	}
     }
@@ -1330,7 +1330,7 @@ ssa_create_duplicates (struct redirection_data **slot,
   if (local_info->template_block == NULL)
     {
       create_block_for_threading ((*path)[1]->e->src, rd, 0,
-                                  &local_info->duplicate_blocks);
+				  &local_info->duplicate_blocks);
       local_info->template_block = rd->dup_blocks[0];
 
       /* We do not create any outgoing edges for the template.  We will
@@ -1340,7 +1340,7 @@ ssa_create_duplicates (struct redirection_data **slot,
   else
     {
       create_block_for_threading (local_info->template_block, rd, 0,
-                                  &local_info->duplicate_blocks);
+				  &local_info->duplicate_blocks);
 
       /* Go ahead and wire up outgoing edges and update PHIs for the duplicate
 	 block.   */
@@ -2156,20 +2156,20 @@ mark_threaded_blocks (bitmap threaded_blocks)
       vec<jump_thread_edge *> *path = paths[i];
 
       if ((*path)[1]->type == EDGE_COPY_SRC_JOINER_BLOCK)
-        {
+	{
 	  /* Attach the path to the starting edge if none is yet recorded.  */
-          if ((*path)[0]->e->aux == NULL)
+	  if ((*path)[0]->e->aux == NULL)
 	    {
-              (*path)[0]->e->aux = path;
+	      (*path)[0]->e->aux = path;
 	    }
 	  else
 	    {
 	      paths.unordered_remove (i);
 	      if (dump_file && (dump_flags & TDF_DETAILS))
-	        dump_jump_thread_path (dump_file, *path, false);
+		dump_jump_thread_path (dump_file, *path, false);
 	      delete_jump_thread_path (path);
 	    }
-        }
+	}
     }
   /* Second, look for paths that have any other jump thread attached to
      them, and either finish converting them or cancel them.  */
@@ -2194,7 +2194,7 @@ mark_threaded_blocks (bitmap threaded_blocks)
 	      e->aux = NULL;
 	      paths.unordered_remove (i);
 	      if (dump_file && (dump_flags & TDF_DETAILS))
-	        dump_jump_thread_path (dump_file, *path, false);
+		dump_jump_thread_path (dump_file, *path, false);
 	      delete_jump_thread_path (path);
 	    }
 	}
@@ -2714,13 +2714,13 @@ thread_through_all_blocks (bool may_peel_loop_headers)
 		    }
 
 		/* Our path is still valid, thread it.  */
-	        if (e->aux)
+		if (e->aux)
 		  {
 		    if (thread_block ((*path)[0]->e->dest, false))
 		      e->aux = NULL;
 		    else
 		      {
-		        delete_jump_thread_path (path);
+			delete_jump_thread_path (path);
 			e->aux = NULL;
 			ei_next (&ei);
 		      }