{ Copyright 2000-2005 The Apache Software Foundation or its licensors, as * applicable. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. } { * @file apr_hash.h * @brief APR Hash Tables } //#include "apr_pools.h" { * @defgroup apr_hash Hash Tables * @ingroup APR * @ } { * When passing a key to apr_hash_set or apr_hash_get, this value can be * passed to indicate a string-valued key, and have apr_hash compute the * length automatically. * * @remark apr_hash will use strlen(key) for the length. The null-terminator * is not included in the hash value (why throw a constant in?). * Since the hash table merely references the provided key (rather * than copying it), apr_hash_this() will return the null-term'd key. } const APR_HASH_KEY_STRING = -1; { * Abstract type for hash tables. } type apr_hash_t = record end; Papr_hash_t = ^apr_hash_t; { * Abstract type for scanning hash tables. } apr_hash_index_t = record end; Papr_hash_index_t = ^apr_hash_index_t; { * Callback functions for calculating hash values. * @param key The key. * @param klen The length of the key, or APR_HASH_KEY_STRING to use the string * length. If APR_HASH_KEY_STRING then returns the actual key length. } apr_hashfunc_t = function (const key: PChar; klen: Papr_size_t): cuint; { * The default hash function. } function apr_hashfunc_default(const key: PChar; klen: Papr_size_t): cuint; cdecl; external LibAPR name 'apr_hashfunc_default'; { * Create a hash table. * @param pool The pool to allocate the hash table out of * @return The hash table just created } function apr_hash_make(pool: Papr_pool_t): Papr_hash_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_hash_make' + LibSuff4; { * Create a hash table with a custom hash function * @param pool The pool to allocate the hash table out of * @param hash_func A custom hash function. * @return The hash table just created } function apr_hash_make_custom(pool: Papr_pool_t; hash_func: apr_hashfunc_t): Papr_hash_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_hash_make_custom' + LibSuff8; { * Make a copy of a hash table * @param pool The pool from which to allocate the new hash table * @param h The hash table to clone * @return The hash table just created * @remark Makes a shallow copy } function apr_hash_copy(pool: Papr_pool_t; const h: Papr_hash_t): Papr_hash_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_hash_copy' + LibSuff8; { * Associate a value with a key in a hash table. * @param ht The hash table * @param key Pointer to the key * @param klen Length of the key. Can be APR_HASH_KEY_STRING to use the string length. * @param val Value to associate with the key * @remark If the value is NULL the hash entry is deleted. } procedure apr_hash_set(ht: Papr_hash_t; const key: Pointer; klen: apr_size_t; const val: Pointer); {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_hash_set' + LibSuff16; { * Look up the value associated with a key in a hash table. * @param ht The hash table * @param key Pointer to the key * @param klen Length of the key. Can be APR_HASH_KEY_STRING to use the string length. * @return Returns NULL if the key is not present. } function apr_hash_get(ht: Papr_hash_t; const key: Pointer; klen: apr_size_t): Pointer; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_hash_get' + LibSuff12; { * Start iterating over the entries in a hash table. * @param p The pool to allocate the apr_hash_index_t iterator. If this * pool is NULL, then an internal, non-thread-safe iterator is used. * @param ht The hash table * @remark There is no restriction on adding or deleting hash entries during * an iteration (although the results may be unpredictable unless all you do * is delete the current entry) and multiple iterations can be in * progress at the same time. * @example } { * 
 * 
 * int sum_values(apr_pool_t *p, apr_hash_t *ht)
 * (
 *     apr_hash_index_t *hi;
 *     void *val;
 *     int sum = 0;
 *     for (hi = apr_hash_first(p, ht); hi; hi = apr_hash_next(hi)) (
 *         apr_hash_this(hi, NULL, NULL, &val);
 *         sum += *(int * )val;
 *     )
 *     return sum;
 * )
 *
} function apr_hash_first(p: Papr_pool_t; ht: Papr_hash_t): Papr_hash_index_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_hash_first' + LibSuff8; { * Continue iterating over the entries in a hash table. * @param hi The iteration state * @return a pointer to the updated iteration state. NULL if there are no more * entries. } function apr_hash_next(hi: Papr_hash_index_t): Papr_hash_index_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_hash_next' + LibSuff4; { * Get the current entry's details from the iteration state. * @param hi The iteration state * @param key Return pointer for the pointer to the key. * @param klen Return pointer for the key length. * @param val Return pointer for the associated value. * @remark The return pointers should point to a variable that will be set to the * corresponding data, or they may be NULL if the data isn't interesting. } procedure apr_hash_this(hi: Papr_hash_index_t; const key: PPointer; klen: Papr_size_t; val: PPointer); {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_hash_this' + LibSuff16; { * Get the number of key/value pairs in the hash table. * @param ht The hash table * @return The number of key/value pairs in the hash table. } function apr_hash_count(ht: Papr_hash_t): cuint; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_hash_count' + LibSuff4; { * Merge two hash tables into one new hash table. The values of the overlay * hash override the values of the base if both have the same key. Both * hash tables must use the same hash function. * @param p The pool to use for the new hash table * @param overlay The table to add to the initial table * @param base The table that represents the initial values of the new table * @return A new hash table containing all of the data from the two passed in } function apr_hash_overlay(p: Papr_pool_t; const overlay, base: Papr_hash_t): Papr_hash_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_hash_overlay' + LibSuff12; { * Merge two hash tables into one new hash table. If the same key * is present in both tables, call the supplied merge function to * produce a merged value for the key in the new table. Both * hash tables must use the same hash function. * @param p The pool to use for the new hash table * @param h1 The first of the tables to merge * @param h2 The second of the tables to merge * @param merger A callback function to merge values, or NULL to * make values from h1 override values from h2 (same semantics as * apr_hash_overlay()) * @param data Client data to pass to the merger function * @return A new hash table containing all of the data from the two passed in } type apr_hash_merge_t = function (p: Papr_pool_t; const key: Pointer; klen: apr_size_t; const h1_val, h2_val, data: Pointer): Pointer; cdecl; function apr_hash_merge(p: Papr_pool_t; const h1, h2: Papr_hash_t; merger: apr_hash_merge_t; const data: Pointer): Papr_hash_t; {$IFDEF WINDOWS} stdcall; {$ELSE} cdecl; {$ENDIF} external LibAPR name LibNamePrefix + 'apr_hash_merge' + LibSuff20; { * Get a pointer to the pool which the hash table was created in } //APR_POOL_DECLARE_ACCESSOR(hash);