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[/] [openrisc/] [trunk/] [gnu-stable/] [gcc-4.5.1/] [gcc/] [sparseset.c] - Blame information for rev 862

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Line No. Rev Author Line
1 280 jeremybenn
/* SparseSet implementation.
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   Copyright (C) 2007, 2008 Free Software Foundation, Inc.
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   Contributed by Peter Bergner <bergner@vnet.ibm.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 it under
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the terms of the GNU General Public License as published by the Free
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Software Foundation; either version 3, or (at your option) any later
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version.
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GCC is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or
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FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
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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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#include "config.h"
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#include "system.h"
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#include "sparseset.h"
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/* Allocate and clear a n_elms SparseSet.  */
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sparseset
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sparseset_alloc (SPARSESET_ELT_TYPE n_elms)
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{
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  unsigned int n_bytes = sizeof (struct sparseset_def)
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                         + ((n_elms - 1) * 2 * sizeof (SPARSESET_ELT_TYPE));
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  /* We use xcalloc rather than xmalloc to silence some valgrind uninitialized
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     read errors when accessing set->sparse[n] when "n" is not, and never has
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     been, in the set.  These uninitialized reads are expected, by design and
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     harmless.  If this turns into a performance problem due to some future
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     additional users of sparseset, we can revisit this decision.  */
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  sparseset set = (sparseset) xcalloc (1, n_bytes);
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  set->dense = &(set->elms[0]);
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  set->sparse = &(set->elms[n_elms]);
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  set->size = n_elms;
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  sparseset_clear (set);
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  return set;
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}
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/* Low level routine not meant for use outside of sparseset.[ch].
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   Assumes idx1 < s->members and idx2 < s->members.  */
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static inline void
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sparseset_swap (sparseset s, SPARSESET_ELT_TYPE idx1, SPARSESET_ELT_TYPE idx2)
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{
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  SPARSESET_ELT_TYPE tmp = s->dense[idx2];
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  sparseset_insert_bit (s, s->dense[idx1], idx2);
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  sparseset_insert_bit (s, tmp, idx1);
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}
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/* Operation: S = S - {e}
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   Delete e from the set S if it is a member of S.  */
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void
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sparseset_clear_bit (sparseset s, SPARSESET_ELT_TYPE e)
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{
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  if (sparseset_bit_p (s, e))
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    {
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      SPARSESET_ELT_TYPE idx = s->sparse[e];
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      SPARSESET_ELT_TYPE iter = s->iter;
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      SPARSESET_ELT_TYPE mem = s->members - 1;
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      /* If we are iterating over this set and we want to delete a
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         member we've already visited, then we swap the element we
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         want to delete with the element at the current iteration
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         index so that it plays well together with the code below
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         that actually removes the element.  */
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      if (s->iterating && idx <= iter)
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        {
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          if (idx < iter)
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            {
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              sparseset_swap (s, idx, iter);
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              idx = iter;
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            }
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          s->iter_inc = 0;
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        }
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      /* Replace the element we want to delete with the last element
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         in the dense array and then decrement s->members, effectively
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         removing the element we want to delete.  */
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      sparseset_insert_bit (s, s->dense[mem], idx);
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      s->members = mem;
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    }
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}
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/* Operation: D = S
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   Restrictions: none.  */
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void
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sparseset_copy (sparseset d, sparseset s)
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{
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  SPARSESET_ELT_TYPE i;
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  if (d == s)
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    return;
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  sparseset_clear (d);
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  for (i = 0; i < s->members; i++)
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    sparseset_insert_bit (d, s->dense[i], i);
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  d->members = s->members;
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}
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/* Operation: D = A & B.
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   Restrictions: none.  */
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void
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sparseset_and (sparseset d, sparseset a, sparseset b)
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{
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  SPARSESET_ELT_TYPE e;
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  if (a == b)
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    {
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      if (d != a)
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        sparseset_copy (d, a);
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      return;
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    }
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  if (d == a || d == b)
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    {
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      sparseset s = (d == a) ? b : a;
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      EXECUTE_IF_SET_IN_SPARSESET (d, e)
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        if (!sparseset_bit_p (s, e))
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          sparseset_clear_bit (d, e);
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    }
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  else
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    {
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      sparseset sml, lrg;
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      if (sparseset_cardinality (a) < sparseset_cardinality (b))
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        {
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          sml = a;
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          lrg = b;
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        }
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      else
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        {
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          sml = b;
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          lrg = a;
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        }
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      sparseset_clear (d);
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      EXECUTE_IF_SET_IN_SPARSESET (sml, e)
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        if (sparseset_bit_p (lrg, e))
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          sparseset_set_bit (d, e);
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    }
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}
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/* Operation: D = A & ~B.
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   Restrictions: D != B, unless D == A == B.  */
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void
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sparseset_and_compl (sparseset d, sparseset a, sparseset b)
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{
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  SPARSESET_ELT_TYPE e;
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  if (a == b)
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    {
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      sparseset_clear (d);
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      return;
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    }
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  gcc_assert (d != b);
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  if (d == a)
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    {
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      if (sparseset_cardinality (d) < sparseset_cardinality (b))
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        {
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          EXECUTE_IF_SET_IN_SPARSESET (d, e)
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            if (sparseset_bit_p (b, e))
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              sparseset_clear_bit (d, e);
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        }
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      else
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        {
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          EXECUTE_IF_SET_IN_SPARSESET (b, e)
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            sparseset_clear_bit (d, e);
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        }
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    }
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  else
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    {
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      sparseset_clear (d);
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      EXECUTE_IF_SET_IN_SPARSESET (a, e)
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        if (!sparseset_bit_p (b, e))
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          sparseset_set_bit (d, e);
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    }
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}
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/* Operation: D = A | B.
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   Restrictions: none.  */
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void
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sparseset_ior (sparseset d, sparseset a, sparseset b)
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{
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  SPARSESET_ELT_TYPE e;
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  if (a == b)
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    sparseset_copy (d, a);
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  else if (d == b)
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    {
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      EXECUTE_IF_SET_IN_SPARSESET (a, e)
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        sparseset_set_bit (d, e);
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    }
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  else
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    {
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      if (d != a)
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        sparseset_copy (d, a);
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      EXECUTE_IF_SET_IN_SPARSESET (b, e)
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        sparseset_set_bit (d, e);
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    }
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}
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/* Operation: A == B
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   Restrictions: none.  */
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bool
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sparseset_equal_p (sparseset a, sparseset b)
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{
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  SPARSESET_ELT_TYPE e;
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  if (a == b)
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    return true;
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  if (sparseset_cardinality (a) != sparseset_cardinality (b))
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    return false;
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  EXECUTE_IF_SET_IN_SPARSESET (a, e)
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    if (!sparseset_bit_p (b, e))
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      return false;
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  return true;
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}
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