/* * AUTHOR: John Dilley, Hewlett Packard * * SQUID Web Proxy Cache http://www.squid-cache.org/ * ---------------------------------------------------------- * * Squid is the result of efforts by numerous individuals from * the Internet community; see the CONTRIBUTORS file for full * details. Many organizations have provided support for Squid's * development; see the SPONSORS file for full details. Squid is * Copyrighted (C) 2001 by the Regents of the University of * California; see the COPYRIGHT file for full details. Squid * incorporates software developed and/or copyrighted by other * sources; see the CREDITS file for full details. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111, USA. * */ /**************************************************************************** * Copyright (C) 1999 by Hewlett Packard * * Heap data structure. Used to store objects for cache replacement. The * heap is implemented as a contiguous array in memory. Heap sort and heap * update are done in-place. The heap is ordered with the smallest value at * the top of the heap (as in the smallest object key value). Child nodes * are larger than their parent. ****************************************************************************/ #ifndef SQUID_HEAP_H #define SQUID_HEAP_H /* * Function for generating heap keys. The first argument will typically be * a dws_md_p passed in as a void *. Should find a way to get type safety * without having heap know all about metadata objects... The second arg is * the current aging factor for the heap. */ typedef unsigned long heap_mutex_t; typedef void * heap_t; typedef double heap_key; typedef heap_key heap_key_func(heap_t, heap_key); /* * Heap node. Has a key value generated by a key_func, id (array index) so * it can be quickly found in its heap, and a pointer to a data object that * key_func can generate a key from. */ typedef struct _heap_node { heap_key key; unsigned long id; heap_t data; } heap_node; /* * Heap object. Holds an array of heap_node objects along with a heap size * (array length), the index of the last heap element, and a key generation * function. Also stores aging factor for this heap. */ typedef struct _heap { heap_mutex_t lock; unsigned long size; unsigned long last; heap_key_func *gen_key; /* key generator for heap */ heap_key age; /* aging factor for heap */ heap_node **nodes; } heap; /**************************************************************************** * Public functions ****************************************************************************/ /* * Create and initialize a new heap. */ SQUIDCEXTERN heap *new_heap(int init_size, heap_key_func gen_key); /* * Delete a heap and clean up its memory. Does not delete what the heap * nodes are pointing to! */ SQUIDCEXTERN void delete_heap(heap *); /* * Insert a new node into a heap, returning a pointer to it. The heap_node * object returned is used to update or delete a heap object. Nothing else * should be done with this data structure (especially modifying it!) The * heap does not assume ownership of the data passed to it. */ SQUIDCEXTERN heap_node *heap_insert(heap *hp, heap_t dat); /* * Delete a node out of a heap. Returns the heap data from the deleted * node. The caller is responsible for freeing this data. */ SQUIDCEXTERN heap_t heap_delete(heap *, heap_node * elm); /* * The semantics of this routine is the same as the followings: * heap_delete(hp, elm); * heap_insert(hp, dat); * Returns the old data object from elm (the one being replaced). The * caller must free this as necessary. */ SQUIDCEXTERN heap_t heap_update(heap *, heap_node * elm, heap_t dat); /* * Generate a heap key for a given data object. Alternative macro form: */ #ifdef MACRO_DEBUG SQUIDCEXTERN heap_key heap_gen_key(heap * hp, heap_t dat); #else #define heap_gen_key(hp,md) ((hp)->gen_key((md),(hp)->age)) #endif /* MACRO_DEBUG */ /* * Extract the minimum (root) element and maintain the heap property. * Returns the data pointed to by the root node, which the caller must * free as necessary. */ SQUIDCEXTERN heap_t heap_extractmin(heap *); /* * Extract the last leaf node (does not change the heap property). * Returns the data that had been in the heap which the caller must free if * necessary. Note that the last node is guaranteed to be less than its * parent, but may not be less than any of the other (leaf or parent) notes * in the tree. This operation is fast but imprecise. */ SQUIDCEXTERN heap_t heap_extractlast(heap * hp); /* * Get the root key, the nth key, the root (smallest) element, or the nth * element. None of these operations modify the heap. */ SQUIDCEXTERN heap_key heap_peepminkey(heap *); SQUIDCEXTERN heap_key heap_peepkey(heap *, int n); SQUIDCEXTERN heap_t heap_peepmin(heap *); SQUIDCEXTERN heap_t heap_peep(heap *, int n); /* * Is the heap empty? How many nodes (data objects) are in it? */ #ifdef MACRO_DEBUG SQUIDCEXTERN int heap_empty(heap *); SQUIDCEXTERN int heap_nodes(heap *); #else /* MACRO_DEBUG */ #define heap_nodes(heap) ((heap)->last) #define heap_empty(heap) ((heap)->last <= 0 ? 1 : 0) #endif /* MACRO_DEBUG */ /* * Print the heap or a node in the heap. */ SQUIDCEXTERN void heap_print(heap *); SQUIDCEXTERN void heap_printnode(char *msg, heap_node * elm); SQUIDCEXTERN int verify_heap_property(heap *); #endif /* SQUID_HEAP_H */