Update Windows installation script to put Python 2.6.4 into the Windows installer.
/*
* Copyright (c) 2007-2009 Nokia Corporation and/or its subsidiary(-ies).
* All rights reserved.
* This component and the accompanying materials are made available
* under the terms of the License "Eclipse Public License v1.0"
* which accompanies this distribution, and is available
* at the URL "http://www.eclipse.org/legal/epl-v10.html".
*
* Initial Contributors:
* Nokia Corporation - initial contribution.
*
* Contributors:
*
* Description:
* Hash class for imgcheck tool. All the executable names of ROM/ROFS
* are stored into this hash table. After gathering the dependencies
* for those executables, dependencies existence is checked very
* efficiently using this table.
*
*/
/**
@file
@internalComponent
@released
*/
#include "common.h"
#include "hash.h"
/**
Constructor, intializes the table size
@internalComponent
@released
@param aSize - Hash table size (Number of dissimilar data can stored)
*/
HashTable::HashTable(int aSize)
:iSize(aSize)
{
}
/**
Destructor
@internalComponent
@released
*/
HashTable::~HashTable()
{
}
/**
Function responsible to return the Hash value for the received string.
@internalComponent
@released
@param aString - String on which Hash value calcualtion to be done
*/
int HashTable::Hash(String aString)
{
unsigned int hashVal = 0;
int length = aString.length();
/* we start our hash out at 0 */
/* for each character, we multiply the old hash by 31 and add the current
* character. Remember that shifting a number left is equivalent to
* multiplying it by 2 raised to the number of places shifted. So we
* are in effect multiplying hashval by 32 and then subtracting hashval.
* Why do we do this? Because shifting and subtraction are much more
* efficient operations than multiplication.
*/
for(int strIter = 0; strIter < length ; strIter++)
{
hashVal = aString[strIter] + (hashVal << 5) - hashVal;
}
/* we then return the hash value mod the hashtable size so that it will
* fit into the necessary range
*/
return hashVal % iSize;
}
/**
Function returns ture or false based on the String availability in Hash
@internalComponent
@released
@param aString - String which needs to be searched
*/
bool HashTable::IsAvailable(String aString)
{
unsigned int hashVal = Hash(aString);
if (iTable[hashVal].size() > 0)
{
StringList nameList = iTable[hashVal];
StringList::iterator listIter = nameList.begin();
while(listIter != nameList.end())
{
if ((*listIter) == aString)
{
return true;
}
++listIter;
}
}
return false;
}
/**
Function responsible to insert a single string into Hash table
@internalComponent
@released
@param aString - String which needs to be inserted
*/
void HashTable::Insert(String aString)
{
unsigned int hashVal = Hash(aString);
if(!IsAvailable(aString)) //Is exists
{
iTable[hashVal].push_back(aString);
}
}
/**
Function responsible to insert list of strings into Hash table
@internalComponent
@released
@param aString - String which needs to be inserted
*/
void HashTable::InsertStringList(StringList& aList)
{
StringList::iterator beginIter = aList.begin();
StringList::iterator endIter = aList.end();
while(beginIter != endIter)
{
Insert((*beginIter));
++beginIter;
}
}
/**
Function to delete an entry from Hash
@internalComponent
@released
@param aString - String which needs to be deleted
*/
void HashTable::Delete(String aString)
{
unsigned int hashVal = Hash(aString);
if(iTable[hashVal].size() > 0)
{
StringList list = iTable[hashVal];
StringList::iterator beginIter = list.begin();
StringList::iterator endIter = list.end();
while(beginIter != endIter)
{
if((*beginIter) == aString)
{
list.erase(beginIter);
iTable[hashVal] = list;
return;
}
++beginIter;
}
}
}