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1 712 jeremybenn
/* Balanced binary trees using treaps.
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   Copyright (C) 2000, 2002, 2003, 2007, 2008, 2010
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   Free Software Foundation, Inc.
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   Contributed by Andy Vaught
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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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/* The idea is to balance the tree using pseudorandom numbers.  The
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   main constraint on this implementation is that we have several
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   distinct structures that have to be arranged in a binary tree.
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   These structures all contain a BBT_HEADER() in front that gives the
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   treap-related information.  The key and value are assumed to reside
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   in the rest of the structure.
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   When calling, we are also passed a comparison function that
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   compares two nodes.  We don't implement a separate 'find' function
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   here, but rather use separate functions for each variety of tree.
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   We are also restricted to not copy treap structures, which most
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   implementations find convenient, because we otherwise would need to
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   know how long the structure is.
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   This implementation is based on Stefan Nilsson's article in the
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   July 1997 Doctor Dobb's Journal, "Treaps in Java".  */
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#include "config.h"
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#include "system.h"
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#include "gfortran.h"
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typedef struct gfc_treap
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{
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  BBT_HEADER (gfc_treap);
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}
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gfc_bbt;
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/* Simple linear congruential pseudorandom number generator.  The
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   period of this generator is 44071, which is plenty for our
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   purposes.  */
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static int
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pseudo_random (void)
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{
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  static int x0 = 5341;
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  x0 = (22611 * x0 + 10) % 44071;
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  return x0;
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}
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/* Rotate the treap left.  */
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static gfc_bbt *
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rotate_left (gfc_bbt *t)
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{
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  gfc_bbt *temp;
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  temp = t->right;
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  t->right = t->right->left;
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  temp->left = t;
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  return temp;
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}
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/* Rotate the treap right.  */
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static gfc_bbt *
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rotate_right (gfc_bbt *t)
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{
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  gfc_bbt *temp;
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  temp = t->left;
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  t->left = t->left->right;
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  temp->right = t;
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  return temp;
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}
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/* Recursive insertion function.  Returns the updated treap, or
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   aborts if we find a duplicate key.  */
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static gfc_bbt *
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insert (gfc_bbt *new_bbt, gfc_bbt *t, compare_fn compare)
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{
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  int c;
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  if (t == NULL)
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    return new_bbt;
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  c = (*compare) (new_bbt, t);
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  if (c < 0)
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    {
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      t->left = insert (new_bbt, t->left, compare);
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      if (t->priority < t->left->priority)
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        t = rotate_right (t);
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    }
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  else if (c > 0)
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    {
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      t->right = insert (new_bbt, t->right, compare);
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      if (t->priority < t->right->priority)
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        t = rotate_left (t);
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    }
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  else /* if (c == 0)  */
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    gfc_internal_error("insert_bbt(): Duplicate key found!");
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  return t;
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}
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/* Given root pointer, a new node and a comparison function, insert
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   the new node into the treap.  It is an error to insert a key that
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   already exists.  */
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void
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gfc_insert_bbt (void *root, void *new_node, compare_fn compare)
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{
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  gfc_bbt **r, *n;
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  r = (gfc_bbt **) root;
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  n = (gfc_bbt *) new_node;
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  n->priority = pseudo_random ();
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  *r = insert (n, *r, compare);
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}
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static gfc_bbt *
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delete_root (gfc_bbt *t)
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{
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  gfc_bbt *temp;
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  if (t->left == NULL)
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    return t->right;
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  if (t->right == NULL)
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    return t->left;
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  if (t->left->priority > t->right->priority)
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    {
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      temp = rotate_right (t);
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      temp->right = delete_root (t);
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    }
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  else
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    {
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      temp = rotate_left (t);
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      temp->left = delete_root (t);
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    }
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  return temp;
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}
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/* Delete an element from a tree.  The 'old' value does not
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   necessarily have to point to the element to be deleted, it must
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   just point to a treap structure with the key to be deleted.
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   Returns the new root node of the tree.  */
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static gfc_bbt *
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delete_treap (gfc_bbt *old, gfc_bbt *t, compare_fn compare)
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{
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  int c;
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  if (t == NULL)
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    return NULL;
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  c = (*compare) (old, t);
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  if (c < 0)
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    t->left = delete_treap (old, t->left, compare);
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  if (c > 0)
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    t->right = delete_treap (old, t->right, compare);
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  if (c == 0)
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    t = delete_root (t);
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  return t;
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}
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void
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gfc_delete_bbt (void *root, void *old, compare_fn compare)
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{
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  gfc_bbt **t;
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  t = (gfc_bbt **) root;
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  *t = delete_treap ((gfc_bbt *) old, *t, compare);
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}

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