/***************************************************************************** Copyright (c) 2007, 2016, Oracle and/or its affiliates. All Rights Reserved. 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; version 2 of the License. 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA *****************************************************************************/ /**************************************************//** @file include/ha0storage.h Hash storage. Provides a data structure that stores chunks of data in its own storage, avoiding duplicates. Created September 22, 2007 Vasil Dimov *******************************************************/ #ifndef ha0storage_h #define ha0storage_h #include "univ.i" /** This value is used by default by ha_storage_create(). More memory is allocated later when/if it is needed. */ #define HA_STORAGE_DEFAULT_HEAP_BYTES 1024 /** This value is used by default by ha_storage_create(). It is a constant per ha_storage's lifetime. */ #define HA_STORAGE_DEFAULT_HASH_CELLS 4096 /** Hash storage */ struct ha_storage_t; /*******************************************************************//** Creates a hash storage. If any of the parameters is 0, then a default value is used. @return own: hash storage */ UNIV_INLINE ha_storage_t* ha_storage_create( /*==============*/ ulint initial_heap_bytes, /*!< in: initial heap's size */ ulint initial_hash_cells); /*!< in: initial number of cells in the hash table */ /*******************************************************************//** Copies data into the storage and returns a pointer to the copy. If the same data chunk is already present, then pointer to it is returned. Data chunks are considered to be equal if len1 == len2 and memcmp(data1, data2, len1) == 0. If "data" is not present (and thus data_len bytes need to be allocated) and the size of storage is going to become more than "memlim" then "data" is not added and NULL is returned. To disable this behavior "memlim" can be set to 0, which stands for "no limit". @return pointer to the copy */ const void* ha_storage_put_memlim( /*==================*/ ha_storage_t* storage, /*!< in/out: hash storage */ const void* data, /*!< in: data to store */ ulint data_len, /*!< in: data length */ ulint memlim); /*!< in: memory limit to obey */ /*******************************************************************//** Same as ha_storage_put_memlim() but without memory limit. @param storage in/out: hash storage @param data in: data to store @param data_len in: data length @return pointer to the copy of the string */ #define ha_storage_put(storage, data, data_len) \ ha_storage_put_memlim((storage), (data), (data_len), 0) /*******************************************************************//** Copies string into the storage and returns a pointer to the copy. If the same string is already present, then pointer to it is returned. Strings are considered to be equal if strcmp(str1, str2) == 0. @param storage in/out: hash storage @param str in: string to put @return pointer to the copy of the string */ #define ha_storage_put_str(storage, str) \ ((const char*) ha_storage_put((storage), (str), strlen(str) + 1)) /*******************************************************************//** Copies string into the storage and returns a pointer to the copy obeying a memory limit. If the same string is already present, then pointer to it is returned. Strings are considered to be equal if strcmp(str1, str2) == 0. @param storage in/out: hash storage @param str in: string to put @param memlim in: memory limit to obey @return pointer to the copy of the string */ #define ha_storage_put_str_memlim(storage, str, memlim) \ ((const char*) ha_storage_put_memlim((storage), (str), \ strlen(str) + 1, (memlim))) /*******************************************************************//** Empties a hash storage, freeing memory occupied by data chunks. This invalidates any pointers previously returned by ha_storage_put(). The hash storage is not invalidated itself and can be used again. */ UNIV_INLINE void ha_storage_empty( /*=============*/ ha_storage_t** storage); /*!< in/out: hash storage */ /*******************************************************************//** Frees a hash storage and everything it contains, it cannot be used after this call. This invalidates any pointers previously returned by ha_storage_put(). */ UNIV_INLINE void ha_storage_free( /*============*/ ha_storage_t* storage); /*!< in, own: hash storage */ /*******************************************************************//** Gets the size of the memory used by a storage. @return bytes used */ UNIV_INLINE ulint ha_storage_get_size( /*================*/ const ha_storage_t* storage); /*!< in: hash storage */ #include "ha0storage.inl" #endif /* ha0storage_h */