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Torque3D/Engine/source/console/simDictionary.cpp
AzaezelX 5ffa3b81f1 dial back nullPtr usage 
while it still remains a good idea to port as many NULL compares and assignments over to nullPtr as feasable, we do still need to sort out how to better support scripted empty, false, and zero assigns for things like objectIDs.

this means we'll need to both fully convert the backend of the parser to support that kind of thing, but also alter most if not all exisiting NULLs. up to and including things like SAFE_DELETE. while that's certainly feasable, given there's aproximatel 400 nullptr assigns/checks prior to this commit, and roughly 1800 of the prior, if it terminates in a script call and not an aip one direct, we'll be dialing that back until such time as fork fully fopcused on converting and resolving any lingering mismatches is completed.
2025-12-29 17:45:09 -06:00

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//-----------------------------------------------------------------------------
// Copyright (c) 2012 GarageGames, LLC
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to
// deal in the Software without restriction, including without limitation the
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
// IN THE SOFTWARE.
//-----------------------------------------------------------------------------
#include "console/simDictionary.h"
#include "console/simBase.h"
//----------------------------------------------------------------------------
//----------------------------------------------------------------------------
extern U32 HashPointer(StringTableEntry e);
SimNameDictionary::SimNameDictionary()
{
#ifndef USE_NEW_SIMDICTIONARY
hashTable = NULL;
hashTableSize = DefaultTableSize;
hashEntryCount = 0;
#endif
mutex = Mutex::createMutex();
}
SimNameDictionary::~SimNameDictionary()
{
#ifndef USE_NEW_SIMDICTIONARY
delete[] hashTable;
#endif
Mutex::destroyMutex(mutex);
}
void SimNameDictionary::insert(SimObject* obj)
{
if (!obj || !obj->getName())
return;
SimObject* checkForDup = find(obj->getName());
if (checkForDup)
Con::warnf("Warning! You have a duplicate object name of %s. This can cause problems. You should rename one of them.", obj->getName());
Mutex::lockMutex(mutex);
#ifndef USE_NEW_SIMDICTIONARY
if (!hashTable)
{
hashTable = new SimObject *[DefaultTableSize];
hashTableSize = DefaultTableSize;
hashEntryCount = 0;
dMemset(hashTable, 0, sizeof(*hashTable) * DefaultTableSize);
}
S32 idx = HashPointer(obj->getName()) % hashTableSize;
obj->nextNameObject = hashTable[idx];
hashTable[idx] = obj;
hashEntryCount++;
// Rehash if necessary.
if (hashEntryCount > hashTableSize)
{
// Allocate new table.
U32 newHashTableSize = hashTableSize * 2 + 1;
SimObject** newHashTable = new SimObject *[newHashTableSize];
dMemset(newHashTable, 0, sizeof(newHashTable[0]) * newHashTableSize);
// Move entries over.
for (U32 i = 0; i < hashTableSize; ++i)
for (SimObject* object = hashTable[i]; object != NULL; )
{
SimObject* next = object->nextNameObject;
idx = HashPointer(object->getName()) % newHashTableSize;
object->nextNameObject = newHashTable[idx];
newHashTable[idx] = object;
object = next;
}
// Switch tables.
delete[] hashTable;
hashTable = newHashTable;
hashTableSize = newHashTableSize;
}
#else
root[obj->objectName] = obj;
#endif
Mutex::unlockMutex(mutex);
}
SimObject* SimNameDictionary::find(StringTableEntry name)
{
#ifndef USE_NEW_SIMDICTIONARY
// NULL is a valid lookup - it will always return NULL
if (!hashTable)
return NULL;
Mutex::lockMutex(mutex);
S32 idx = HashPointer(name) % hashTableSize;
SimObject *walk = hashTable[idx];
while (walk)
{
if (walk->getName() == name)
{
Mutex::unlockMutex(mutex);
return walk;
}
walk = walk->nextNameObject;
}
Mutex::unlockMutex(mutex);
return NULL;
#else
Mutex::lockMutex(mutex);
StringDictDef::iterator it = root.find(name);
SimObject* f = (it == root.end() ? NULL : it->second);
Mutex::unlockMutex(mutex);
return f;
#endif
}
void SimNameDictionary::remove(SimObject* obj)
{
if (!obj || !obj->getName())
return;
Mutex::lockMutex(mutex);
#ifndef USE_NEW_SIMDICTIONARY
SimObject **walk = &hashTable[HashPointer(obj->getName()) % hashTableSize];
while (*walk)
{
if (*walk == obj)
{
*walk = obj->nextNameObject;
obj->nextNameObject = NULL;
hashEntryCount--;
Mutex::unlockMutex(mutex);
return;
}
walk = &((*walk)->nextNameObject);
}
#else
const char* name = obj->objectName;
if (root.find(name) != root.end())
root.erase(name);
#endif
Mutex::unlockMutex(mutex);
}
//----------------------------------------------------------------------------
SimManagerNameDictionary::SimManagerNameDictionary()
{
#ifndef USE_NEW_SIMDICTIONARY
hashTable = new SimObject *[DefaultTableSize];
hashTableSize = DefaultTableSize;
hashEntryCount = 0;
dMemset(hashTable, 0, sizeof(hashTable[0]) * hashTableSize);
#endif
mutex = Mutex::createMutex();
}
SimManagerNameDictionary::~SimManagerNameDictionary()
{
#ifndef USE_NEW_SIMDICTIONARY
delete[] hashTable;
#endif
Mutex::destroyMutex(mutex);
}
void SimManagerNameDictionary::insert(SimObject* obj)
{
if (!obj || !obj->getName())
return;
Mutex::lockMutex(mutex);
#ifndef USE_NEW_SIMDICTIONARY
S32 idx = HashPointer(obj->getName()) % hashTableSize;
obj->nextManagerNameObject = hashTable[idx];
hashTable[idx] = obj;
hashEntryCount++;
// Rehash if necessary.
if (hashEntryCount > hashTableSize)
{
// Allocate new table.
U32 newHashTableSize = hashTableSize * 2 + 1;
SimObject** newHashTable = new SimObject *[newHashTableSize];
dMemset(newHashTable, 0, sizeof(newHashTable[0]) * newHashTableSize);
// Move entries over.
for (U32 i = 0; i < hashTableSize; ++i)
for (SimObject* object = hashTable[i]; object != NULL; )
{
SimObject* next = object->nextManagerNameObject;
idx = HashPointer(object->getName()) % newHashTableSize;
object->nextManagerNameObject = newHashTable[idx];
newHashTable[idx] = object;
object = next;
}
// Switch tables.
delete[] hashTable;
hashTable = newHashTable;
hashTableSize = newHashTableSize;
}
#else
root[obj->objectName] = obj;
#endif
Mutex::unlockMutex(mutex);
}
SimObject* SimManagerNameDictionary::find(StringTableEntry name)
{
// NULL is a valid lookup - it will always return NULL
Mutex::lockMutex(mutex);
#ifndef USE_NEW_SIMDICTIONARY
S32 idx = HashPointer(name) % hashTableSize;
SimObject *walk = hashTable[idx];
while (walk)
{
if (walk->getName() == name)
{
Mutex::unlockMutex(mutex);
return walk;
}
walk = walk->nextManagerNameObject;
}
Mutex::unlockMutex(mutex);
return NULL;
#else
StringDictDef::iterator it = root.find(name);
SimObject* f = (it == root.end() ? NULL : it->second);
Mutex::unlockMutex(mutex);
return f;
#endif
}
void SimManagerNameDictionary::remove(SimObject* obj)
{
if (!obj || !obj->getName())
return;
#ifndef USE_NEW_SIMDICTIONARY
Mutex::lockMutex(mutex);
SimObject **walk = &hashTable[HashPointer(obj->getName()) % hashTableSize];
while (*walk)
{
if (*walk == obj)
{
*walk = obj->nextManagerNameObject;
obj->nextManagerNameObject = NULL;
hashEntryCount--;
Mutex::unlockMutex(mutex);
return;
}
walk = &((*walk)->nextManagerNameObject);
}
#else
StringTableEntry name = obj->objectName;
if (root.find(name) != root.end())
root.erase(name);
#endif
Mutex::unlockMutex(mutex);
}
//---------------------------------------------------------------------------
//---------------------------------------------------------------------------
SimIdDictionary::SimIdDictionary()
{
#ifndef USE_NEW_SIMDICTIONARY
dMemset(table, 0, sizeof(table[0]) * DefaultTableSize);
#endif
mutex = Mutex::createMutex();
}
SimIdDictionary::~SimIdDictionary()
{
Mutex::destroyMutex(mutex);
}
void SimIdDictionary::insert(SimObject* obj)
{
if (!obj)
return;
Mutex::lockMutex(mutex);
#ifndef USE_NEW_SIMDICTIONARY
S32 idx = obj->getId() & TableBitMask;
obj->nextIdObject = table[idx];
AssertFatal(obj->nextIdObject != obj, "SimIdDictionary::insert - Creating Infinite Loop linking to self!");
table[idx] = obj;
#else
root[obj->getId()] = obj;
#endif
Mutex::unlockMutex(mutex);
}
SimObject* SimIdDictionary::find(S32 id)
{
Mutex::lockMutex(mutex);
#ifndef USE_NEW_SIMDICTIONARY
S32 idx = id & TableBitMask;
SimObject *walk = table[idx];
while (walk)
{
if (walk->getId() == U32(id))
{
Mutex::unlockMutex(mutex);
return walk;
}
walk = walk->nextIdObject;
}
Mutex::unlockMutex(mutex);
return NULL;
#else
SimObjectIdDictDef::iterator it = root.find(id);
SimObject* f = (it == root.end() ? NULL : it->second);
Mutex::unlockMutex(mutex);
return f;
#endif
}
void SimIdDictionary::remove(SimObject* obj)
{
if (!obj)
return;
Mutex::lockMutex(mutex);
#ifndef USE_NEW_SIMDICTIONARY
SimObject **walk = &table[obj->getId() & TableBitMask];
while (*walk && *walk != obj)
walk = &((*walk)->nextIdObject);
if (*walk)
*walk = obj->nextIdObject;
#else
root.erase(obj->getId());
#endif
Mutex::unlockMutex(mutex);
}
//---------------------------------------------------------------------------
//---------------------------------------------------------------------------
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