C++ 程序,使用双重哈希实现哈希表
哈希表是一种用于存储键值对的数据结构。哈希表使用哈希函数来计算一个数组中的索引,其中一个元素将被插入或搜索。
双重哈希是开放寻址哈希表中一种冲突解决技术。双重哈希使用二次哈希函数,以便在发生冲突时产生键。
这是一个 C++ 程序,可以使用双重哈希实现哈希表链接。
算法
搜索键
Begin Declare Function SearchKey(int k, HashTable *ht) int hashVal= HashFunc1(k, ht->s) int stepSize= HashFunc2(k, ht->s) while (ht->t[hashVal].info != Emp and ht->t[hashVal].e != k) hashVal = hashVal + stepSize hashVal = hashVal % ht->s return hashVal End
插入
Begin. Declare Function Insert(int k, HashTable *ht) int pos = SearchKey(k, ht) if (ht->t[pos].info != Legi ) ht->t[pos].info = Legi ht->t[pos].e = k End
显示
Begin Declare function display(HashTable *ht) for (int i = 0; i < ht->s; i++) int v= ht->t[i].e; if (!v) Print "Position: " Print the position of the pointer Print " Element: Null" else Print "Position: " Print the position of the pointer Print " Element: " Print the element End.
重新哈希函数
Begin Declare function Rehash(HashTable *ht) int s = ht->s HashTableEntry *t= ht->t ht = initiateTable(2*s) for (int i = 0; i < s; i++) if (t[i].info == Legi) Insert(t[i].e, ht) free(t) return ht End.
示例代码
#include <iostream> #include <cstdlib> #define T_S 5 using namespace std; enum EntryType {Legi, Emp}; struct HashTableEntry { int e; enum EntryType info; }; struct HashTable { int s; HashTableEntry *t; }; int HashFunc1(int k, int s) { return k % s; } int HashFunc2(int k, int s) { return (k * s - 1) % s; } HashTable *initiateTable(int s) { HashTable *ht; if (s < T_S) { cout<<"Table Size is Too Small"<<endl; return NULL; } ht= new HashTable; if (ht == NULL) { cout<<"Out of Space"<<endl; return NULL; } ht->s = s; ht->t = new HashTableEntry[ht->s]; if (ht->t== NULL) { cout<<"Table Size is Too Small"<<endl; return NULL; } for (int i = 0; i < ht->s; i++) { ht->t[i].info = Emp; ht->t[i].e=NULL; } return ht; } int SearchKey(int k, HashTable *ht) { int hashVal= HashFunc1(k, ht->s); int stepSize= HashFunc2(k, ht->s); while (ht->t[hashVal].info != Emp && ht->t[hashVal].e != k) { hashVal = hashVal + stepSize; hashVal = hashVal % ht->s; } return hashVal; } void Insert(int k, HashTable *ht) { int pos = SearchKey(k, ht); if (ht->t[pos].info != Legi ) { ht->t[pos].info = Legi; ht->t[pos].e = k; } } void display(HashTable *ht) { for (int i = 0; i < ht->s; i++) { int v= ht->t[i].e; if (!v) cout<<"Position: "<<i + 1<<" Element: Null"<<endl; else cout<<"Position: "<<i + 1<<" Element: "<<v<<endl; } } HashTable *Rehash(HashTable *ht) { int s = ht->s; HashTableEntry *t= ht->t; ht = initiateTable(2*s); for (int i = 0; i < s; i++) { if (t[i].info == Legi) Insert(t[i].e, ht); } free(t); return ht; } int main() { int v, s, pos, i = 1; int c; HashTable *ht; while(1) { cout<<"1.Initialize size of the table"<<endl; cout<<"2.Insert element into the table"<<endl; cout<<"3.Display Hash Table"<<endl; cout<<"4.Rehash Hash Table"<<endl; cout<<"5.Exit"<<endl; cout<<"Enter your choice: "; cin>>c; switch(c) { case 1: cout<<"Enter size of the Hash Table: "; cin>>s; ht = initiateTable(s); break; case 2: if (i > ht->s) { cout<<"Table is Full, Rehash the table"<<endl; continue; } cout<<"Enter element to be inserted: "; cin>>v; Insert(v, ht); i++; break; case 3: display(ht); break; case 4: ht= Rehash(ht); break; case 5: exit(1); default: cout<<"\nEnter correct option\n"; } } return 0; }
输出
1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 1 Enter size of the Hash Table: 4 Table Size is Too Small Enter your choice: 1 Enter size of the Hash Table: 10 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Enter element to be inserted: 1 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Enter element to be inserted: 3 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Enter element to be inserted: 4 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Enter element to be inserted: 5 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Enter element to be inserted: 6 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Enter element to be inserted: 7 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Enter element to be inserted: 8 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 9 Enter correct option 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Enter element to be inserted: 9 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Enter element to be inserted: 10 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Enter element to be inserted: 11 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Table is Full, Rehash the table 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 12 Enter correct option 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Table is Full, Rehash the table 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Table is Full, Rehash the table 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 3 Position: 1 Element: 10 Position: 2 Element: 1 Position: 3 Element: 11 Position: 4 Element: 3 Position: 5 Element: 4 Position: 6 Element: 5 Position: 7 Element: 6 Position: 8 Element: 7 Position: 9 Element: 8 Position: 10 Element: 9 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 4 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 3 Position: 1 Element: Null Position: 2 Element: 1 Position: 3 Element: Null Position: 4 Element: 3 Position: 5 Element: 4 Position: 6 Element: 5 Position: 7 Element: 6 Position: 8 Element: 7 Position: 9 Element: 8 Position: 10 Element: 9 Position: 11 Element: 10 Position: 12 Element: 11 Position: 13 Element: Null Position: 14 Element: Null Position: 15 Element: Null Position: 16 Element: Null Position: 17 Element: Null Position: 18 Element: Null Position: 19 Element: Null Position: 20 Element: Null 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 2 Enter element to be inserted: 20 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 3 Position: 1 Element: 20 Position: 2 Element: 1 Position: 3 Element: Null Position: 4 Element: 3 Position: 5 Element: 4 Position: 6 Element: 5 Position: 7 Element: 6 Position: 8 Element: 7 Position: 9 Element: 8 Position: 10 Element: 9 Position: 11 Element: 10 Position: 12 Element: 11 Position: 13 Element: Null Position: 14 Element: Null Position: 15 Element: Null Position: 16 Element: Null Position: 17 Element: Null Position: 18 Element: Null Position: 19 Element: Null Position: 20 Element: Null 1.Initialize size of the table 2.Insert element into the table 3.Display Hash Table 4.Rehash Hash Table 5.Exit Enter your choice: 5
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