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hashtable.h
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hashtable.h
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#ifndef HASHTABLE_H
#define HASHTABLE_H
#include <functional>
#include <iostream>
#include <vector>
template<class Key, class Data>
struct HashEntry
{
Key key;
Data data;
int next;
};
// a useful core hash function
inline unsigned int hash(unsigned int k)
{ return k*2654435769u; }
// default hash function object
struct DefaultHashFunction
{
template<typename Key>
unsigned int operator() (const Key &k) const { return hash(k); }
};
struct equal
{
template<typename T>
bool operator() (const T &a, const T &b) const { return a==b; }
};
template<typename Key, typename Data, class HashFunction=DefaultHashFunction, class KeyEqual=equal>
struct HashTable
{
unsigned int table_rank;
unsigned int table_bits;
std::vector<int> table;
unsigned int num_entries;
std::vector<HashEntry<Key, Data> > pool;
int free_list;
const HashFunction hash_function;
const KeyEqual key_equal;
explicit HashTable(unsigned int expected_size=64)
: hash_function(HashFunction()), key_equal(KeyEqual())
{ init(expected_size); }
explicit HashTable(const HashFunction &hf, unsigned int expected_size=64)
: hash_function(hf), key_equal(KeyEqual())
{ init(expected_size); }
void init(unsigned int expected_size)
{
unsigned int i;
num_entries=0;
table_rank=4;
while(1u<<table_rank < expected_size)
++table_rank;
++table_rank; // give us some extra room
table_bits=(1u<<table_rank)-1;
table.resize(1u<<table_rank);
for(i=0; i<table.size(); ++i)
table[i]=-1; // empty list
pool.resize(1u<<table_rank);
free_list=0;
for(unsigned int i=0; i<pool.size()-1; ++i)
pool[i].next=i+1;
pool[pool.size()-1].next=-1; // end of free list
}
void add(const Key &k, const Data &d)
{
if(free_list==-1)
reserve(1u<<(table_rank+1));
int i=free_list; // where we're going to put the new entry
free_list=pool[i].next;
unsigned int t=hash_function(k)&table_bits; // index into table
pool[i].key=k;
pool[i].data=d;
pool[i].next=table[t]; // put the new entry at the start of table[t]'s list
table[t]=i;
++num_entries;
}
void delete_entry(const Key &k, const Data &d) // delete first entry that matches both key and data
{
unsigned int t=hash_function(k)&table_bits;
int i=table[t], *p_i=&table[t];
while(i!=-1){
if(key_equal(k, pool[i].key) && d==pool[i].data){
*p_i=pool[i].next; // make list skip over this entry
pool[i].next=free_list; // and put it on the front of the free list
free_list=i;
return; // and we're done
}
p_i=&pool[i].next;
i=*p_i;
}
}
unsigned int size() const
{ return num_entries; }
void clear()
{
unsigned int i=0;
num_entries=0;
for(i=0; i<table.size(); ++i)
table[i]=-1; // empty list
free_list=0;
for(i=0; i<pool.size()-1; ++i)
pool[i].next=i+1;
pool[pool.size()-1].next=-1;
}
void reserve(unsigned int expected_size)
{
if(expected_size<=pool.size())
return;
while(1u<<table_rank < expected_size)
++table_rank;
table_bits=(1u<<table_rank)-1;
// increase room for new entries
unsigned int old_size=(unsigned int)pool.size(), i;
pool.resize(1u<<table_rank);
for(i=old_size; i<pool.size()-1; ++i)
pool[i].next=i+1;
pool[i].next=free_list;
free_list=old_size;
// And finally need to redo table (rehash entries)
old_size=(unsigned int)table.size();
table.resize(1u<<table_rank);
unsigned int t;
for(t=old_size; t<table.size(); ++t)
table[t]=-1; // initially make new lists empty
int j, *p_j;
for(t=0; t<old_size; ++t){
j=table[t];
p_j=&table[t];
while(j!=-1){
unsigned int new_t=hash_function(pool[j].key)&table_bits;
if(new_t!=t){ // j doesn't belong in this list anymore?
// delete from this list
*p_j=pool[j].next;
// add to correct list
pool[j].next=table[new_t];
table[new_t]=j;
}else
p_j=&(pool[j].next);
j=*p_j;
}
}
}
bool has_entry(const Key &k) const
{
unsigned int t=hash_function(k)&table_bits;
int i=table[t];
while(i!=-1){
if(key_equal(k, pool[i].key))
return true;
i=pool[i].next;
}
return false;
}
bool get_entry(const Key &k, Data &data_return) const
{
unsigned int t=hash_function(k)&table_bits;
int i=table[t];
while(i!=-1){
if(key_equal(k, pool[i].key)){
data_return=pool[i].data;
return true;
}
i=pool[i].next;
}
return false;
}
void append_all_entries(const Key& k, std::vector<Data>& data_return) const
{
unsigned int t=hash_function(k)&table_bits;
int i=table[t];
while(i!=-1){
if(key_equal(k, pool[i].key)) data_return.push_back(pool[i].data);
i=pool[i].next;
}
}
Data &operator() (const Key &k, const Data &missing_data)
{
unsigned int t=hash_function(k)&table_bits;
int i=table[t];
while(i!=-1){
if(key_equal(k, pool[i].key))
return pool[i].data;
i=pool[i].next;
}
add(k, missing_data); // note - this could cause the table to be resized, and t made out-of-date
return pool[table[hash_function(k)&table_bits]].data; // we know that add() puts it here!
}
const Data &operator() (const Key &k, const Data &missing_data) const
{
unsigned int t=hash_function(k)&table_bits;
int i=table[t];
while(i!=-1){
if(key_equal(k, pool[i].key))
return pool[i].data;
i=pool[i].next;
}
return missing_data;
}
void output_statistics() const
{
std::vector<int> lengthcount(table.size());
unsigned int t;
int total=0;
for(t=0; t<table.size(); ++t){
int i=table[t], length=0;
while(i!=-1){
++length;
i=pool[i].next;
}
++lengthcount[length];
++total;
}
int subtotal=0;
int maxlength=0;
for(t=0; t<lengthcount.size() && t<10; ++t){
subtotal+=lengthcount[t];
if(lengthcount[t]>0){
std::cout<<"length "<<t<<": "<<lengthcount[t]<<" ("<<lengthcount[t]/(float)total*100.0<<"%)"<<std::endl;
maxlength=t;
}
}
std::cout<<"rest: "<<total-subtotal<<" ("<<100.0*(1.0-subtotal/(float)total)<<"%)"<<std::endl;
for(; t<lengthcount.size(); ++t)
if(lengthcount[t]>0)
maxlength=t;
std::cout<<"longest list: "<<maxlength<<std::endl;
}
};
#endif