thodg/libgit2/src/pqueue.c

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• Hash : 932d1baf
  Author :
  Date : 2011-06-30T19:52:34
  

  cleanup: remove trailing spaces Signed-off-by: Kirill A. Shutemov <kirill@shutemov.name>

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• src/pqueue.c

• /*
   *	BORING COPYRIGHT NOTICE:
   *
   *	This file is a heavily modified version of the priority queue found
   *	in the Apache project and the libpqueue library.
   *
   *		https://github.com/vy/libpqueue
   *
   *	These are the original authors:
   *
   *		Copyright 2010 Volkan Yazıcı <volkan.yazici@gmail.com>
   *		Copyright 2006-2010 The Apache Software Foundation
   *
   *  This file is licensed under the Apache 2.0 license, which
   *  supposedly makes it compatible with the GPLv2 that libgit2 uses.
   *
   *  Check the Apache license at:
   *
   *     http://www.apache.org/licenses/LICENSE-2.0
   *
   *  So much licensing trouble for a binary heap. Oh well.
   */
  
  #include "common.h"
  #include "pqueue.h"
  
  #define left(i)   ((i) << 1)
  #define right(i)  (((i) << 1) + 1)
  #define parent(i) ((i) >> 1)
  
  int git_pqueue_init(git_pqueue *q, size_t n, git_pqueue_cmp cmppri)
  {
  	assert(q);
  
      /* Need to allocate n+1 elements since element 0 isn't used. */
      if ((q->d = malloc((n + 1) * sizeof(void *))) == NULL)
  		return GIT_ENOMEM;
  
      q->size = 1;
      q->avail = q->step = (n + 1);  /* see comment above about n+1 */
      q->cmppri = cmppri;
  
      return GIT_SUCCESS;
  }
  
  
  void git_pqueue_free(git_pqueue *q)
  {
      free(q->d);
  	q->d = NULL;
  }
  
  void git_pqueue_clear(git_pqueue *q)
  {
  	q->size = 1;
  }
  
  size_t git_pqueue_size(git_pqueue *q)
  {
      /* queue element 0 exists but doesn't count since it isn't used. */
      return (q->size - 1);
  }
  
  
  static void bubble_up(git_pqueue *q, size_t i)
  {
      size_t parent_node;
      void *moving_node = q->d[i];
  
      for (parent_node = parent(i);
           ((i > 1) && q->cmppri(q->d[parent_node], moving_node));
           i = parent_node, parent_node = parent(i)) {
          q->d[i] = q->d[parent_node];
      }
  
      q->d[i] = moving_node;
  }
  
  
  static size_t maxchild(git_pqueue *q, size_t i)
  {
      size_t child_node = left(i);
  
      if (child_node >= q->size)
          return 0;
  
      if ((child_node + 1) < q->size &&
          q->cmppri(q->d[child_node], q->d[child_node + 1]))
          child_node++; /* use right child instead of left */
  
      return child_node;
  }
  
  
  static void percolate_down(git_pqueue *q, size_t i)
  {
      size_t child_node;
      void *moving_node = q->d[i];
  
      while ((child_node = maxchild(q, i)) != 0 &&
             q->cmppri(moving_node, q->d[child_node])) {
          q->d[i] = q->d[child_node];
          i = child_node;
      }
  
      q->d[i] = moving_node;
  }
  
  
  int git_pqueue_insert(git_pqueue *q, void *d)
  {
      void *tmp;
      size_t i;
      size_t newsize;
  
      if (!q) return 1;
  
      /* allocate more memory if necessary */
      if (q->size >= q->avail) {
          newsize = q->size + q->step;
          if ((tmp = realloc(q->d, sizeof(void *) * newsize)) == NULL)
              return GIT_ENOMEM;
  
          q->d = tmp;
          q->avail = newsize;
      }
  
      /* insert item */
      i = q->size++;
      q->d[i] = d;
      bubble_up(q, i);
  
      return GIT_SUCCESS;
  }
  
  
  void *git_pqueue_pop(git_pqueue *q)
  {
      void *head;
  
      if (!q || q->size == 1)
          return NULL;
  
      head = q->d[1];
      q->d[1] = q->d[--q->size];
      percolate_down(q, 1);
  
      return head;
  }
  
  
  void *git_pqueue_peek(git_pqueue *q)
  {
      if (!q || q->size == 1)
          return NULL;
      return q->d[1];
  }
  

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