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      1 /*
      2  * Copyright 2007 The Android Open Source Project
      3  *
      4  * General purpose hash table, used for finding classes, methods, etc.
      5  *
      6  * When the number of elements reaches 3/4 of the table's capacity, the
      7  * table will be resized.
      8  */
      9 #ifndef _MINZIP_HASH
     10 #define _MINZIP_HASH
     11 
     12 #include "inline_magic.h"
     13 
     14 #include <stdlib.h>
     15 #include <stdbool.h>
     16 #include <assert.h>
     17 
     18 #ifdef __cplusplus
     19 extern "C" {
     20 #endif
     21 
     22 /* compute the hash of an item with a specific type */
     23 typedef unsigned int (*HashCompute)(const void* item);
     24 
     25 /*
     26  * Compare a hash entry with a "loose" item after their hash values match.
     27  * Returns { <0, 0, >0 } depending on ordering of items (same semantics
     28  * as strcmp()).
     29  */
     30 typedef int (*HashCompareFunc)(const void* tableItem, const void* looseItem);
     31 
     32 /*
     33  * This function will be used to free entries in the table.  This can be
     34  * NULL if no free is required, free(), or a custom function.
     35  */
     36 typedef void (*HashFreeFunc)(void* ptr);
     37 
     38 /*
     39  * Used by mzHashForeach().
     40  */
     41 typedef int (*HashForeachFunc)(void* data, void* arg);
     42 
     43 /*
     44  * One entry in the hash table.  "data" values are expected to be (or have
     45  * the same characteristics as) valid pointers.  In particular, a NULL
     46  * value for "data" indicates an empty slot, and HASH_TOMBSTONE indicates
     47  * a no-longer-used slot that must be stepped over during probing.
     48  *
     49  * Attempting to add a NULL or tombstone value is an error.
     50  *
     51  * When an entry is released, we will call (HashFreeFunc)(entry->data).
     52  */
     53 typedef struct HashEntry {
     54     unsigned int hashValue;
     55     void* data;
     56 } HashEntry;
     57 
     58 #define HASH_TOMBSTONE ((void*) 0xcbcacccd)     // invalid ptr value
     59 
     60 /*
     61  * Expandable hash table.
     62  *
     63  * This structure should be considered opaque.
     64  */
     65 typedef struct HashTable {
     66     int         tableSize;          /* must be power of 2 */
     67     int         numEntries;         /* current #of "live" entries */
     68     int         numDeadEntries;     /* current #of tombstone entries */
     69     HashEntry*  pEntries;           /* array on heap */
     70     HashFreeFunc freeFunc;
     71 } HashTable;
     72 
     73 /*
     74  * Create and initialize a HashTable structure, using "initialSize" as
     75  * a basis for the initial capacity of the table.  (The actual initial
     76  * table size may be adjusted upward.)  If you know exactly how many
     77  * elements the table will hold, pass the result from mzHashSize() in.)
     78  *
     79  * Returns "false" if unable to allocate the table.
     80  */
     81 HashTable* mzHashTableCreate(size_t initialSize, HashFreeFunc freeFunc);
     82 
     83 /*
     84  * Compute the capacity needed for a table to hold "size" elements.  Use
     85  * this when you know ahead of time how many elements the table will hold.
     86  * Pass this value into mzHashTableCreate() to ensure that you can add
     87  * all elements without needing to reallocate the table.
     88  */
     89 size_t mzHashSize(size_t size);
     90 
     91 /*
     92  * Clear out a hash table, freeing the contents of any used entries.
     93  */
     94 void mzHashTableClear(HashTable* pHashTable);
     95 
     96 /*
     97  * Free a hash table.
     98  */
     99 void mzHashTableFree(HashTable* pHashTable);
    100 
    101 /*
    102  * Get #of entries in hash table.
    103  */
    104 INLINE int mzHashTableNumEntries(HashTable* pHashTable) {
    105     return pHashTable->numEntries;
    106 }
    107 
    108 /*
    109  * Get total size of hash table (for memory usage calculations).
    110  */
    111 INLINE int mzHashTableMemUsage(HashTable* pHashTable) {
    112     return sizeof(HashTable) + pHashTable->tableSize * sizeof(HashEntry);
    113 }
    114 
    115 /*
    116  * Look up an entry in the table, possibly adding it if it's not there.
    117  *
    118  * If "item" is not found, and "doAdd" is false, NULL is returned.
    119  * Otherwise, a pointer to the found or added item is returned.  (You can
    120  * tell the difference by seeing if return value == item.)
    121  *
    122  * An "add" operation may cause the entire table to be reallocated.
    123  */
    124 void* mzHashTableLookup(HashTable* pHashTable, unsigned int itemHash, void* item,
    125     HashCompareFunc cmpFunc, bool doAdd);
    126 
    127 /*
    128  * Remove an item from the hash table, given its "data" pointer.  Does not
    129  * invoke the "free" function; just detaches it from the table.
    130  */
    131 bool mzHashTableRemove(HashTable* pHashTable, unsigned int hash, void* item);
    132 
    133 /*
    134  * Execute "func" on every entry in the hash table.
    135  *
    136  * If "func" returns a nonzero value, terminate early and return the value.
    137  */
    138 int mzHashForeach(HashTable* pHashTable, HashForeachFunc func, void* arg);
    139 
    140 /*
    141  * An alternative to mzHashForeach(), using an iterator.
    142  *
    143  * Use like this:
    144  *   HashIter iter;
    145  *   for (mzHashIterBegin(hashTable, &iter); !mzHashIterDone(&iter);
    146  *       mzHashIterNext(&iter))
    147  *   {
    148  *       MyData* data = (MyData*)mzHashIterData(&iter);
    149  *   }
    150  */
    151 typedef struct HashIter {
    152     void*       data;
    153     HashTable*  pHashTable;
    154     int         idx;
    155 } HashIter;
    156 INLINE void mzHashIterNext(HashIter* pIter) {
    157     int i = pIter->idx +1;
    158     int lim = pIter->pHashTable->tableSize;
    159     for ( ; i < lim; i++) {
    160         void* data = pIter->pHashTable->pEntries[i].data;
    161         if (data != NULL && data != HASH_TOMBSTONE)
    162             break;
    163     }
    164     pIter->idx = i;
    165 }
    166 INLINE void mzHashIterBegin(HashTable* pHashTable, HashIter* pIter) {
    167     pIter->pHashTable = pHashTable;
    168     pIter->idx = -1;
    169     mzHashIterNext(pIter);
    170 }
    171 INLINE bool mzHashIterDone(HashIter* pIter) {
    172     return (pIter->idx >= pIter->pHashTable->tableSize);
    173 }
    174 INLINE void* mzHashIterData(HashIter* pIter) {
    175     assert(pIter->idx >= 0 && pIter->idx < pIter->pHashTable->tableSize);
    176     return pIter->pHashTable->pEntries[pIter->idx].data;
    177 }
    178 
    179 
    180 /*
    181  * Evaluate hash table performance by examining the number of times we
    182  * have to probe for an entry.
    183  *
    184  * The caller should lock the table beforehand.
    185  */
    186 typedef unsigned int (*HashCalcFunc)(const void* item);
    187 void mzHashTableProbeCount(HashTable* pHashTable, HashCalcFunc calcFunc,
    188     HashCompareFunc cmpFunc);
    189 
    190 #ifdef __cplusplus
    191 }
    192 #endif
    193 
    194 #endif /*_MINZIP_HASH*/
    195