286 lines
8.2 KiB
Objective-C
286 lines
8.2 KiB
Objective-C
#pragma once
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//------------------------------------------------------------------------------
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/**
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@class Util::HashTable
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Organizes key/value pairs by a hash code. Looks very similar
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to a Dictionary, but may provide better search times (up to O(1))
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by computing a (ideally unique) hash code on the key and using that as an
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index into an array. The flipside is that the key class must provide
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a hash code and the memory footprint may be larger then Dictionary.
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The default capacity is 128. Matching the capacity against the number
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of expected elements in the hash table is one key to get optimal
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insertion and search times, the other is to provide a good (and fast)
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hash code computation which produces as few collissions as possible
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for the key type.
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The key class must implement the following method in order to
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work with the HashTable:
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IndexT HashCode() const;
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The Util::String class implements this method as an example.
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Internally the hash table is implemented as a fixed array
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of sorted arrays. The fixed array is indexed by the hash code
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of the key, the sorted arrays contain all values with identical
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keys.
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(C) 2006 Radon Labs GmbH
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*/
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#include "util/fixedarray.h"
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#include "util/array.h"
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#include "util/keyvaluepair.h"
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//------------------------------------------------------------------------------
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namespace Util
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{
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template<class KEYTYPE, class VALUETYPE> class HashTable
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{
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public:
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/// default constructor
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HashTable();
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/// constructor with capacity
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HashTable(SizeT capacity);
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/// copy constructor
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HashTable(const HashTable<KEYTYPE, VALUETYPE>& rhs);
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/// assignment operator
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void operator=(const HashTable<KEYTYPE, VALUETYPE>& rhs);
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/// read/write [] operator, assertion if key not found
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VALUETYPE& operator[](const KEYTYPE& key) const;
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/// return current number of values in the hashtable
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SizeT Size() const;
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/// return fixed-size capacity of the hash table
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SizeT Capacity() const;
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/// clear the hashtable
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void Clear();
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/// return true if empty
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bool IsEmpty() const;
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/// add a key/value pair object to the hash table
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void Add(const KeyValuePair<KEYTYPE, VALUETYPE>& kvp);
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/// add a key and associated value
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void Add(const KEYTYPE& key, const VALUETYPE& value);
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/// erase an entry
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void Erase(const KEYTYPE& key);
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/// return true if key exists in the array
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bool Contains(const KEYTYPE& key) const;
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/// return array of all key/value pairs in the table (slow)
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Array<KeyValuePair<KEYTYPE, VALUETYPE> > Content() const;
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private:
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FixedArray<Array<KeyValuePair<KEYTYPE, VALUETYPE> > > hashArray;
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int size;
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};
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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HashTable<KEYTYPE, VALUETYPE>::HashTable() :
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hashArray(128),
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size(0)
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{
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// empty
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}
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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HashTable<KEYTYPE, VALUETYPE>::HashTable(SizeT capacity) :
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hashArray(capacity),
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size(0)
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{
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// empty
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}
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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HashTable<KEYTYPE, VALUETYPE>::HashTable(const HashTable<KEYTYPE, VALUETYPE>& rhs) :
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hashArray(rhs.hashArray),
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size(rhs.size)
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{
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// empty
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}
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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void
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HashTable<KEYTYPE, VALUETYPE>::operator=(const HashTable<KEYTYPE, VALUETYPE>& rhs)
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{
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if (this != &rhs)
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{
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this->hashArray = rhs.hashArray;
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this->size = rhs.size;
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}
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}
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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VALUETYPE&
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HashTable<KEYTYPE, VALUETYPE>::operator[](const KEYTYPE& key) const
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{
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// get hash code from key, trim to capacity
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IndexT hashIndex = key.HashCode() % this->hashArray.Size();
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const Array<KeyValuePair<KEYTYPE, VALUETYPE> >& hashElements = this->hashArray[hashIndex];
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int numHashElements = hashElements.Size();
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#if NEBULA3_BOUNDSCHECKS
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n_assert(0 != numHashElements); // element with key doesn't exist
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#endif
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if (1 == numHashElements)
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{
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// no hash collissions, just return the only existing element
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return hashElements[0].Value();
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}
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else
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{
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// here's a hash collision, find the right key
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// with a binary search
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IndexT hashElementIndex = hashElements.BinarySearchIndex(key);
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#if NEBULA3_BOUNDSCHECKS
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n_assert(InvalidIndex != hashElementIndex);
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#endif
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return hashElements[hashElementIndex].Value();
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}
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}
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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SizeT
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HashTable<KEYTYPE, VALUETYPE>::Size() const
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{
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return this->size;
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}
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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SizeT
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HashTable<KEYTYPE, VALUETYPE>::Capacity() const
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{
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return this->hashArray.Size();
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}
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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void
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HashTable<KEYTYPE, VALUETYPE>::Clear()
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{
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IndexT i;
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SizeT num = this->hashArray.Size();
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for (i = 0; i < num; i++)
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{
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this->hashArray[i].Clear();
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}
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this->size = 0;
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}
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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bool
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HashTable<KEYTYPE, VALUETYPE>::IsEmpty() const
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{
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return (0 == this->size);
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}
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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void
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HashTable<KEYTYPE, VALUETYPE>::Add(const KeyValuePair<KEYTYPE, VALUETYPE>& kvp)
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{
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#if NEBULA3_BOUNDSCHECKS
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n_assert(!this->Contains(kvp.Key()));
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#endif
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IndexT hashIndex = kvp.Key().HashCode() % this->hashArray.Size();
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this->hashArray[hashIndex].InsertSorted(kvp);
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this->size++;
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}
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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void
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HashTable<KEYTYPE, VALUETYPE>::Add(const KEYTYPE& key, const VALUETYPE& value)
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{
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KeyValuePair<KEYTYPE, VALUETYPE> kvp(key, value);
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this->Add(kvp);
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}
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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void
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HashTable<KEYTYPE, VALUETYPE>::Erase(const KEYTYPE& key)
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{
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#if NEBULA3_BOUNDSCHECKS
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n_assert(this->size > 0);
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#endif
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IndexT hashIndex = key.HashCode() % this->hashArray.Size();
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Array<KeyValuePair<KEYTYPE, VALUETYPE> >& hashElements = this->hashArray[hashIndex];
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IndexT hashElementIndex = hashElements.BinarySearchIndex(key);
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#if NEBULA3_BOUNDSCHECKS
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n_assert(InvalidIndex != hashElementIndex); // key doesn't exist
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#endif
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hashElements.EraseIndex(hashElementIndex);
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this->size--;
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}
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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bool
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HashTable<KEYTYPE, VALUETYPE>::Contains(const KEYTYPE& key) const
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{
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if (this->size > 0)
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{
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IndexT hashIndex = key.HashCode() % this->hashArray.Size();
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Array<KeyValuePair<KEYTYPE, VALUETYPE> >& hashElements = this->hashArray[hashIndex];
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IndexT hashElementIndex = hashElements.BinarySearchIndex(key);
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return (InvalidIndex != hashElementIndex);
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}
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else
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{
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return false;
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}
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}
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//------------------------------------------------------------------------------
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/**
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*/
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template<class KEYTYPE, class VALUETYPE>
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Array<KeyValuePair<KEYTYPE, VALUETYPE> >
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HashTable<KEYTYPE, VALUETYPE>::Content() const
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{
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Array<KeyValuePair<KEYTYPE, VALUETYPE> > result;
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int i;
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int num = this->hashArray.Size();
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for (i = 0; i < num; i++)
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{
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if (this->hashArray[i].Size() > 0)
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{
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result.AppendArray(this->hashArray[i]);
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}
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}
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return result;
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}
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} // namespace Util
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//------------------------------------------------------------------------------
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