X-Git-Url: http://plrg.eecs.uci.edu/git/?p=c11tester.git;a=blobdiff_plain;f=hashtable.h;h=5b0086f24282393b47cdb15ac9377ba3928b8178;hp=f372f9e7b96f0efb7f08d6574d768a6cc7cdf2db;hb=5fa2efec1354b2781ff0b29460ec8e9b8fa75991;hpb=f7e1577b22ac26c12dc57a43de2761aa9249227c diff --git a/hashtable.h b/hashtable.h index f372f9e7..5b0086f2 100644 --- a/hashtable.h +++ b/hashtable.h @@ -1,142 +1,201 @@ +/** @file hashtable.h + * @brief Hashtable. Standard chained bucket variety. + */ + #ifndef HASHTABLE_H #define HASHTABLE_H #include #include +#include +#include "mymemory.h" +#include "common.h" +/** + * Hashtable linked node class, for chained storage of hash table conflicts. By + * default it is snapshotting, but you can pass in your own allocation + * functions. + * + * @tparam _Key Type name for the key + * @tparam _Val Type name for the values to be stored + * @tparam _malloc Provide your own 'malloc' for the table, or default to + * snapshotting. + * @tparam _calloc Provide your own 'calloc' for the table, or default to + * snapshotting. + * @tparam _free Provide your own 'free' for the table, or default to + * snapshotting. + */ template - struct hashlistnode { - _Key key; - _Val val; - struct hashlistnode<_Key,_Val> *next; - }; -template +struct hashlistnode { + _Key key; + _Val val; +}; + +/** + * Hashtable class. By default it is snapshotting, but you can pass in your own + * allocation functions. + * + * @tparam _Key Type name for the key + * @tparam _Val Type name for the values to be stored + * @tparam _KeyInt Integer type that is at least as large as _Key. Used for key + * manipulation and storage. + * @tparam _Shift Logical shift to apply to all keys. Default 0. + * @tparam _malloc Provide your own 'malloc' for the table, or default to + * snapshotting. + * @tparam _calloc Provide your own 'calloc' for the table, or default to + * snapshotting. + * @tparam _free Provide your own 'free' for the table, or default to + * snapshotting. + */ +template class HashTable { public: - HashTable(unsigned int initialcapacity=1024, double factor=0.5) { + /** + * Constructor + * @param initialcapacity Sets the initial capacity of the hash table. + * Default size 1024. + * @param factor Sets the percentage full before the hashtable is + * resized. Default ratio 0.5. + */ + HashTable(unsigned int initialcapacity = 1024, double factor = 0.5) { // Allocate space for the hash table - table = (struct hashlistnode<_Key,_Val> **) calloc(initialcapacity, sizeof(struct hashlistnode<_Key,_Val> *)); + table = (struct hashlistnode<_Key, _Val> *)_calloc(initialcapacity, sizeof(struct hashlistnode<_Key, _Val>)); loadfactor = factor; capacity = initialcapacity; - threshold = initialcapacity*loadfactor; - mask = (capacity << _Shift)-1; + capacitymask = initialcapacity - 1; + + threshold = (unsigned int)(initialcapacity * loadfactor); size = 0; // Initial number of elements in the hash } + /** Destructor */ ~HashTable() { - for(unsigned int i=0;i * bin = table[i]; - while(bin!=NULL) { - struct hashlistnode<_Key,_Val> * next=bin->next; - free(bin); - bin=next; - } - } - free(table); + _free(table); + } + + /** Override: new operator */ + void * operator new(size_t size) { + return _malloc(size); + } + + /** Override: delete operator */ + void operator delete(void *p, size_t size) { + _free(p); } + /** Override: new[] operator */ + void * operator new[](size_t size) { + return _malloc(size); + } + + /** Override: delete[] operator */ + void operator delete[](void *p, size_t size) { + _free(p); + } + + /** Reset the table to its initial state. */ void reset() { - for(int i=0;i * bin = table[i]; - while(bin!=NULL) { - struct hashlistnode<_Key,_Val> * next=bin->next; - free(bin); - bin=next; - } - } - memset(table, 0, capacity*sizeof(struct hashlistnode<_Key, _Val> *)); - size=0; + memset(table, 0, capacity * sizeof(struct hashlistnode<_Key, _Val>)); + size = 0; } - + + /** Put a key value pair into the table. */ void put(_Key key, _Val val) { - if(size > threshold) { - //Resize - unsigned int newsize = capacity << 1; - resize(newsize); - } - - struct hashlistnode<_Key,_Val> *ptr = table[(((_KeyInt)key) & mask)>>_Shift]; - size++; - struct hashlistnode<_Key,_Val> *search = ptr; + if (size > threshold) + resize(capacity << 1); + + struct hashlistnode<_Key, _Val> *search; - while(search!=NULL) { - if (search->key==key) { - search->val=val; + unsigned int index = ((_KeyInt)key) >> _Shift; + do { + index &= capacitymask; + search = &table[index]; + if (search->key == key) { + search->val = val; return; } - search=search->next; - } + index++; + } while (search->key); - struct hashlistnode<_Key,_Val> *newptr=(struct hashlistnode<_Key,_Val> *)malloc(sizeof(struct hashlistnode<_Key,_Val>)); - newptr->key=key; - newptr->val=val; - newptr->next=ptr; - table[(((_KeyInt)key)&mask)>>_Shift]=newptr; + search->key = key; + search->val = val; + size++; } - _Val get(_Key key) { - struct hashlistnode<_Key,_Val> *search = table[(((_KeyInt)key) & mask)>>_Shift]; - - while(search!=NULL) { - if (search->key==key) { + /** Lookup the corresponding value for the given key. */ + _Val get(_Key key) const { + struct hashlistnode<_Key, _Val> *search; + + unsigned int index = ((_KeyInt)key) >> _Shift; + do { + index &= capacitymask; + search = &table[index]; + if (search->key == key) return search->val; - } - search=search->next; - } + index++; + } while (search->key); return (_Val)0; } - bool contains(_Key key) { - struct hashlistnode<_Key,_Val> *search = table[(((_KeyInt)key) & mask)>>_Shift]; - - while(search!=NULL) { - if (search->key==key) { + /** Check whether the table contains a value for the given key. */ + bool contains(_Key key) const { + struct hashlistnode<_Key, _Val> *search; + + unsigned int index = ((_KeyInt)key) >> _Shift; + do { + index &= capacitymask; + search = &table[index]; + if (search->key == key) return true; - } - search=search->next; - } + index++; + } while (search->key); return false; } - + + /** Resize the table. */ void resize(unsigned int newsize) { - struct hashlistnode<_Key,_Val> ** oldtable = table; - struct hashlistnode<_Key,_Val> ** newtable; + struct hashlistnode<_Key, _Val> *oldtable = table; + struct hashlistnode<_Key, _Val> *newtable; unsigned int oldcapacity = capacity; - - if((newtable = (struct hashlistnode<_Key,_Val> **) calloc(newsize, sizeof(struct hashlistnode<_Key,_Val> *))) == NULL) { - printf("Calloc error %s %d\n", __FILE__, __LINE__); - exit(-1); + + if ((newtable = (struct hashlistnode<_Key, _Val> *)_calloc(newsize, sizeof(struct hashlistnode<_Key, _Val>))) == NULL) { + model_print("calloc error %s %d\n", __FILE__, __LINE__); + exit(EXIT_FAILURE); } - - table = newtable; //Update the global hashtable upon resize() + + table = newtable; // Update the global hashtable upon resize() capacity = newsize; - threshold = newsize * loadfactor; - mask = (newsize << _Shift)-1; - - for(unsigned int i = 0; i < oldcapacity; i++) { - struct hashlistnode<_Key, _Val> * bin = oldtable[i]; - - while(bin!=NULL) { - _Key key=bin->key; - struct hashlistnode<_Key, _Val> * next=bin->next; - - unsigned int index = (((_KeyInt)key) & mask) >>_Shift; - struct hashlistnode<_Key, _Val> * tmp=newtable[index]; - bin->next=tmp; - newtable[index]=bin; - bin = next; - } + capacitymask = newsize - 1; + + threshold = (unsigned int)(newsize * loadfactor); + + struct hashlistnode<_Key, _Val> *bin = &oldtable[0]; + struct hashlistnode<_Key, _Val> *lastbin = &oldtable[oldcapacity]; + for (; bin < lastbin; bin++) { + _Key key = bin->key; + + struct hashlistnode<_Key, _Val> *search; + + unsigned int index = ((_KeyInt)key) >> _Shift; + do { + index &= capacitymask; + search = &table[index]; + index++; + } while (search->key); + + search->key = key; + search->val = bin->val; } - - free(oldtable); //Free the memory of the old hash table + + _free(oldtable); // Free the memory of the old hash table } - + private: - struct hashlistnode<_Key,_Val> **table; + struct hashlistnode<_Key, _Val> *table; unsigned int capacity; - _KeyInt mask; unsigned int size; + unsigned int capacitymask; unsigned int threshold; double loadfactor; };