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axmol/cocos2dx/cocoa/CCDictionary.cpp

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#include "CCDictionary.h"
#include "CCString.h"
#include "CCInteger.h"
using namespace std;
NS_CC_BEGIN
CCDictionary::CCDictionary()
: m_pElements(NULL)
, m_eDictType(kCCDictUnknown)
, m_eOldDictType(kCCDictUnknown)
{
}
CCDictionary::~CCDictionary()
{
removeAllObjects();
}
unsigned int CCDictionary::count()
{
return HASH_COUNT(m_pElements);
}
CCArray* CCDictionary::allKeys()
{
int iKeyCount = this->count();
if (iKeyCount <= 0) return NULL;
CCArray* pArray = CCArray::createWithCapacity(iKeyCount);
CCDictElement *pElement, *tmp;
if (m_eDictType == kCCDictStr)
{
HASH_ITER(hh, m_pElements, pElement, tmp)
{
CCString* pOneKey = new CCString(pElement->m_szKey);
pOneKey->autorelease();
pArray->addObject(pOneKey);
}
}
else if (m_eDictType == kCCDictInt)
{
HASH_ITER(hh, m_pElements, pElement, tmp)
{
CCInteger* pOneKey = new CCInteger(pElement->m_iKey);
pOneKey->autorelease();
pArray->addObject(pOneKey);
}
}
return pArray;
}
CCArray* CCDictionary::allKeysForObject(CCObject* object)
{
int iKeyCount = this->count();
if (iKeyCount <= 0) return NULL;
CCArray* pArray = CCArray::create();
CCDictElement *pElement, *tmp;
if (m_eDictType == kCCDictStr)
{
HASH_ITER(hh, m_pElements, pElement, tmp)
{
if (object == pElement->m_pObject)
{
CCString* pOneKey = new CCString(pElement->m_szKey);
pArray->addObject(pOneKey);
pOneKey->release();
}
}
}
else if (m_eDictType == kCCDictInt)
{
HASH_ITER(hh, m_pElements, pElement, tmp)
{
if (object == pElement->m_pObject)
{
CCInteger* pOneKey = new CCInteger(pElement->m_iKey);
pArray->addObject(pOneKey);
pOneKey->release();
}
}
}
return pArray;
}
CCObject* CCDictionary::objectForKey(const std::string& key)
{
// if dictionary wasn't initialized, return NULL directly.
if (m_eDictType == kCCDictUnknown) return NULL;
// CCDictionary only supports one kind of key, string or integer.
// This method uses string as key, therefore we should make sure that the key type of this CCDictionary is string.
CCAssert(m_eDictType == kCCDictStr, "this dictionary does not use string as key.");
CCObject* pRetObject = NULL;
CCDictElement *pElement = NULL;
HASH_FIND_STR(m_pElements, key.c_str(), pElement);
if (pElement != NULL)
{
pRetObject = pElement->m_pObject;
}
return pRetObject;
}
CCObject* CCDictionary::objectForKey(int key)
{
// if dictionary wasn't initialized, return NULL directly.
if (m_eDictType == kCCDictUnknown) return NULL;
// CCDictionary only supports one kind of key, string or integer.
// This method uses integer as key, therefore we should make sure that the key type of this CCDictionary is integer.
CCAssert(m_eDictType == kCCDictInt, "this dictionary does not use integer as key.");
CCObject* pRetObject = NULL;
CCDictElement *pElement = NULL;
HASH_FIND_INT(m_pElements, &key, pElement);
if (pElement != NULL)
{
pRetObject = pElement->m_pObject;
}
return pRetObject;
}
const CCString* CCDictionary::valueForKey(const std::string& key)
{
CCString* pStr = (CCString*)objectForKey(key);
if (pStr == NULL)
{
pStr = CCString::create("");
}
return pStr;
}
const CCString* CCDictionary::valueForKey(int key)
{
CCString* pStr = (CCString*)objectForKey(key);
if (pStr == NULL)
{
pStr = CCString::create("");
}
return pStr;
}
void CCDictionary::setObject(CCObject* pObject, const std::string& key)
{
CCAssert(key.length() > 0 && pObject != NULL, "Invalid Argument!");
if (m_eOldDictType == kCCDictUnknown)
{
m_eOldDictType = kCCDictStr;
}
m_eDictType = kCCDictStr;
CCAssert(m_eDictType == m_eOldDictType, "this dictionary does not use string as key.");
CCDictElement *pElement = NULL;
HASH_FIND_STR(m_pElements, key.c_str(), pElement);
if (pElement == NULL)
{
setObjectUnSafe(pObject, key);
}
else if (pElement->m_pObject != pObject)
{
CCObject* pTmpObj = pElement->m_pObject;
pTmpObj->retain();
removeObjectForElememt(pElement);
setObjectUnSafe(pObject, key);
pTmpObj->release();
}
}
void CCDictionary::setObject(CCObject* pObject, int key)
{
CCAssert(pObject != NULL, "Invalid Argument!");
if (m_eOldDictType == kCCDictUnknown)
{
m_eOldDictType = kCCDictInt;
}
m_eDictType = kCCDictInt;
CCAssert(m_eDictType == m_eOldDictType, "this dictionary does not use integer as key.");
CCDictElement *pElement = NULL;
HASH_FIND_INT(m_pElements, &key, pElement);
if (pElement == NULL)
{
setObjectUnSafe(pObject, key);
}
else if (pElement->m_pObject != pObject)
{
CCObject* pTmpObj = pElement->m_pObject;
pTmpObj->retain();
removeObjectForElememt(pElement);
setObjectUnSafe(pObject, key);
pTmpObj->release();
}
}
void CCDictionary::removeObjectForKey(const std::string& key)
{
if (m_eOldDictType == kCCDictUnknown)
{
return;
}
CCAssert(m_eDictType == kCCDictStr, "this dictionary does not use string as its key");
CCAssert(key.length() > 0, "Invalid Argument!");
CCDictElement *pElement = NULL;
HASH_FIND_STR(m_pElements, key.c_str(), pElement);
removeObjectForElememt(pElement);
}
void CCDictionary::removeObjectForKey(int key)
{
if (m_eOldDictType == kCCDictUnknown)
{
return;
}
CCAssert(m_eDictType == kCCDictInt, "this dictionary does not use integer as its key");
CCDictElement *pElement = NULL;
HASH_FIND_INT(m_pElements, &key, pElement);
removeObjectForElememt(pElement);
}
void CCDictionary::setObjectUnSafe(CCObject* pObject, const std::string& key)
{
pObject->retain();
CCDictElement* pElement = new CCDictElement(key.c_str(), pObject);
HASH_ADD_STR(m_pElements, m_szKey, pElement);
}
void CCDictionary::setObjectUnSafe(CCObject* pObject, const int key)
{
pObject->retain();
CCDictElement* pElement = new CCDictElement(key, pObject);
HASH_ADD_INT(m_pElements, m_iKey, pElement);
}
void CCDictionary::removeObjectsForKeys(CCArray* pKeyArray)
{
CCObject* pObj = NULL;
CCARRAY_FOREACH(pKeyArray, pObj)
{
CCString* pStr = (CCString*)pObj;
removeObjectForKey(pStr->getCString());
}
}
void CCDictionary::removeObjectForElememt(CCDictElement* pElement)
{
if (pElement != NULL)
{
HASH_DEL(m_pElements, pElement);
pElement->m_pObject->release();
CC_SAFE_DELETE(pElement);
}
}
void CCDictionary::removeAllObjects()
{
CCDictElement *pElement, *tmp;
HASH_ITER(hh, m_pElements, pElement, tmp)
{
HASH_DEL(m_pElements, pElement);
pElement->m_pObject->release();
CC_SAFE_DELETE(pElement);
}
}
CCObject* CCDictionary::copyWithZone(CCZone* pZone)
{
CCAssert(pZone == NULL, "CCDictionary should not be inherited.");
CCDictionary* pNewDict = new CCDictionary();
CCDictElement* pElement = NULL;
CCObject* pTmpObj = NULL;
if (m_eDictType == kCCDictInt)
{
CCDICT_FOREACH(this, pElement)
{
pTmpObj = pElement->getObject()->copy();
pNewDict->setObject(pTmpObj, pElement->getIntKey());
pTmpObj->release();
}
}
else if (m_eDictType == kCCDictStr)
{
CCDICT_FOREACH(this, pElement)
{
pTmpObj = pElement->getObject()->copy();
pNewDict->setObject(pTmpObj, pElement->getStrKey());
pTmpObj->release();
}
}
return pNewDict;
}
CCObject* CCDictionary::randomObject()
{
if (m_eDictType == kCCDictUnknown)
{
return NULL;
}
CCObject* key = allKeys()->randomObject();
if (m_eDictType == kCCDictInt)
{
return objectForKey(((CCInteger*)key)->getValue());
}
else if (m_eDictType == kCCDictStr)
{
return objectForKey(((CCString*)key)->getCString());
}
else
{
return NULL;
}
}
CCDictionary* CCDictionary::create()
{
CCDictionary* pRet = new CCDictionary();
if (pRet != NULL)
{
pRet->autorelease();
}
return pRet;
}
CCDictionary* CCDictionary::createWithDictionary(CCDictionary* srcDict)
{
CCDictionary* pNewDict = (CCDictionary*)srcDict->copy();
pNewDict->autorelease();
return pNewDict;
}
extern CCDictionary* ccFileUtils_dictionaryWithContentsOfFileThreadSafe(const char *pFileName);
CCDictionary* CCDictionary::createWithContentsOfFileThreadSafe(const char *pFileName)
{
return ccFileUtils_dictionaryWithContentsOfFileThreadSafe(pFileName);
}
CCDictionary* CCDictionary::createWithContentsOfFile(const char *pFileName)
{
CCDictionary* pRet = createWithContentsOfFileThreadSafe(pFileName);
pRet->autorelease();
return pRet;
}
NS_CC_END
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