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-rw-r--r--indra/llcommon/llmemory.cpp605
-rw-r--r--indra/llcommon/llmemory.h13
-rw-r--r--indra/newview/llappviewer.cpp6
3 files changed, 320 insertions, 304 deletions
diff --git a/indra/llcommon/llmemory.cpp b/indra/llcommon/llmemory.cpp
index 00ef09d7a2..f9a2770691 100644
--- a/indra/llcommon/llmemory.cpp
+++ b/indra/llcommon/llmemory.cpp
@@ -356,7 +356,8 @@ U64 LLMemory::getCurrentRSS()
#endif
-//-------------------------------------------------------------
+//--------------------------------------------------------------------------------------------------
+//--------------------------------------------------------------------------------------------------
//minimum block sizes (page size) for small allocation, medium allocation, large allocation
const U32 MIN_BLOCK_SIZES[LLPrivateMemoryPool::SUPER_ALLOCATION] = {2 << 10, 4 << 10, 16 << 10} ; //
@@ -389,6 +390,7 @@ LLPrivateMemoryPool::LLMemoryBlock::~LLMemoryBlock()
//empty
}
+//create and initialize a memory block
void LLPrivateMemoryPool::LLMemoryBlock::init(char* buffer, U32 buffer_size, U32 slot_size)
{
llassert_always(buffer_size >= slot_size) ;
@@ -397,17 +399,20 @@ void LLPrivateMemoryPool::LLMemoryBlock::init(char* buffer, U32 buffer_size, U32
mBufferSize = buffer_size ;
mSlotSize = slot_size ;
mTotalSlots = buffer_size / mSlotSize ;
+
llassert_always(mTotalSlots < 256) ; //max number is 256
+
mAllocatedSlots = 0 ;
+ //init the bit map.
//mark free bits
S32 usage_bit_len = (mTotalSlots + 31) / 32 ;
- mDummySize = usage_bit_len - 1 ;
- if(mDummySize > 0) //extra space to store mUsageBits
+ mDummySize = usage_bit_len - 1 ; //if the mTotalSlots more than 32, needs extra space for bit map
+ if(mDummySize > 0) //reserve extra space from mBuffer to store bitmap if needed.
{
mTotalSlots -= (mDummySize * sizeof(mUsageBits) + mSlotSize - 1) / mSlotSize ;
usage_bit_len = (mTotalSlots + 31) / 32 ;
- mDummySize = usage_bit_len - 1 ;
+ mDummySize = usage_bit_len - 1 ;//number of 32bits reserved from mBuffer for bitmap
if(mDummySize > 0)
{
@@ -423,7 +428,7 @@ void LLPrivateMemoryPool::LLMemoryBlock::init(char* buffer, U32 buffer_size, U32
}
}
- if(mDummySize < 1)
+ if(mDummySize < 1)//no extra bitmap space reserved
{
mUsageBits = 0 ;
if(mTotalSlots & 31)
@@ -439,16 +444,16 @@ void LLPrivateMemoryPool::LLMemoryBlock::init(char* buffer, U32 buffer_size, U32
llassert_always(mTotalSlots > 0) ;
}
+//mark this block to be free with the memory [mBuffer, mBuffer + mBufferSize).
void LLPrivateMemoryPool::LLMemoryBlock::setBuffer(char* buffer, U32 buffer_size)
{
- llassert_always(buffer_size <= (16 << 20)) ;
-
mBuffer = buffer ;
mBufferSize = buffer_size ;
mSelf = NULL ;
mTotalSlots = 0 ; //set the block is free.
}
+//reserve a slot
char* LLPrivateMemoryPool::LLMemoryBlock::allocate()
{
llassert_always(mAllocatedSlots < mTotalSlots) ;
@@ -479,47 +484,31 @@ char* LLPrivateMemoryPool::LLMemoryBlock::allocate()
//set the slot reserved
if(!idx)
{
- llassert_always(!(*bits & 1));
*bits |= 1 ;
}
else
{
- llassert_always(!(*bits & (1 << idx))) ;
*bits |= (1 << idx) ;
}
mAllocatedSlots++ ;
- //return mBuffer + mDummySize * sizeof(U32) + (k * 32 + idx) * mSlotSize ;
-
- char* p = mBuffer + mDummySize * sizeof(U32) + (k * 32 + idx) * mSlotSize ;
- llassert_always(mBuffer != p || !mDummySize) ;
- llassert_always(*(U32*)p == 0 && *((U32*)p + 1) == 0) ;
-
- return p ;
+ return mBuffer + mDummySize * sizeof(U32) + (k * 32 + idx) * mSlotSize ;
}
-U32 col = 0, row = 0 ;
+//free a slot
void LLPrivateMemoryPool::LLMemoryBlock::free(void* addr)
{
- llassert_always((U32)addr >= (U32)mBuffer + mDummySize * sizeof(U32) &&
- (U32)addr < (U32)mBuffer + mBufferSize) ;
-
+ //bit index
U32 idx = ((U32)addr - (U32)mBuffer - mDummySize * sizeof(U32)) / mSlotSize ;
- llassert_always(idx < mTotalSlots) ;
- llassert_always(addr == mBuffer + mDummySize * sizeof(U32) + idx * mSlotSize) ;
- llassert_always(*(U32*)addr == col && *((U32*)addr + 1) == row) ;
-
- *(U32*)addr = 0 ;
- *((U32*)addr + 1) = 0 ;
-
U32* bits = &mUsageBits ;
if(idx >= 32)
{
bits = (U32*)mBuffer + (idx - 32) / 32 ;
}
+ //reset the bit
if(idx & 31)
{
*bits &= ~(1 << (idx & 31)) ;
@@ -532,7 +521,7 @@ void LLPrivateMemoryPool::LLMemoryBlock::free(void* addr)
mAllocatedSlots-- ;
}
-//for debug use
+//for debug use: reset the entire bitmap.
void LLPrivateMemoryPool::LLMemoryBlock::resetBitMap()
{
for(S32 i = 0 ; i < mDummySize ; i++)
@@ -554,6 +543,7 @@ LLPrivateMemoryPool::LLMemoryChunk::~LLMemoryChunk()
//empty
}
+//create and init a memory chunk
void LLPrivateMemoryPool::LLMemoryChunk::init(char* buffer, U32 buffer_size, U32 min_slot_size, U32 max_slot_size, U32 min_block_size, U32 max_block_size)
{
mBuffer = buffer ;
@@ -562,7 +552,7 @@ void LLPrivateMemoryPool::LLMemoryChunk::init(char* buffer, U32 buffer_size, U32
mMetaBuffer = mBuffer + sizeof(LLMemoryChunk) ;
- mMinBlockSize = min_block_size;
+ mMinBlockSize = min_block_size; //page size
mMinSlotSize = min_slot_size;
mMaxSlotSize = max_slot_size ;
mBlockLevels = mMaxSlotSize / mMinSlotSize ;
@@ -571,11 +561,11 @@ void LLPrivateMemoryPool::LLMemoryChunk::init(char* buffer, U32 buffer_size, U32
S32 max_num_blocks = (buffer_size - sizeof(LLMemoryChunk) - mBlockLevels * sizeof(LLMemoryBlock*) - mPartitionLevels * sizeof(LLMemoryBlock*)) /
(mMinBlockSize + sizeof(LLMemoryBlock)) ;
//meta data space
- mBlocks = (LLMemoryBlock*)mMetaBuffer ;
+ mBlocks = (LLMemoryBlock*)mMetaBuffer ; //space reserved for all memory blocks.
mAvailBlockList = (LLMemoryBlock**)((char*)mBlocks + sizeof(LLMemoryBlock) * max_num_blocks) ;
mFreeSpaceList = (LLMemoryBlock**)((char*)mAvailBlockList + sizeof(LLMemoryBlock*) * mBlockLevels) ;
- //data buffer
+ //data buffer, which can be used for allocation
mDataBuffer = (char*)mFreeSpaceList + sizeof(LLMemoryBlock*) * mPartitionLevels ;
//init
@@ -588,17 +578,10 @@ void LLPrivateMemoryPool::LLMemoryChunk::init(char* buffer, U32 buffer_size, U32
mFreeSpaceList[i] = NULL ;
}
+ //assign the entire chunk to the first block
mBlocks[0].mPrev = NULL ;
mBlocks[0].mNext = NULL ;
mBlocks[0].setBuffer(mDataBuffer, buffer_size - (mDataBuffer - mBuffer)) ;
-
- //debug
- U32 end = (mBlocks[0].getBufferSize() / mMinBlockSize) ;
- for(U32 i = 1 ; i < end ; i++)
- {
- mBlocks[i].mSelf = NULL ;
- }
-
addToFreeSpace(&mBlocks[0]) ;
mHashNext = NULL ;
@@ -609,6 +592,7 @@ void LLPrivateMemoryPool::LLMemoryChunk::init(char* buffer, U32 buffer_size, U32
//static
U32 LLPrivateMemoryPool::LLMemoryChunk::getMaxOverhead(U32 data_buffer_size, U32 min_page_size)
{
+ //for large allocations, reserve some extra memory for meta data to avoid wasting much
if(data_buffer_size / min_page_size < 64) //large allocations
{
return 4096 ; //4KB
@@ -621,6 +605,15 @@ U32 LLPrivateMemoryPool::LLMemoryChunk::getMaxOverhead(U32 data_buffer_size, U32
char* LLPrivateMemoryPool::LLMemoryChunk::allocate(U32 size)
{
+ if(mMinSlotSize > size)
+ {
+ size = mMinSlotSize ;
+ }
+ if(mAlloatedSize + size > mBufferSize - (mDataBuffer - mBuffer))
+ {
+ return NULL ; //no enough space in this chunk.
+ }
+
char* p = NULL ;
U32 blk_idx = getBlockLevel(size);
@@ -653,7 +646,7 @@ char* LLPrivateMemoryPool::LLMemoryChunk::allocate(U32 size)
}
}
- //ask for space from higher level blocks
+ //ask for space from larger blocks
if(!p)
{
for(S32 i = blk_idx + 1 ; i < mBlockLevels; i++)
@@ -672,18 +665,8 @@ char* LLPrivateMemoryPool::LLMemoryChunk::allocate(U32 size)
}
}
- llassert_always(!p || blk) ;
-
if(p && blk)
- {
- if(blk->getTotalSlots() == 1)
- {
- llassert_always(blk->getBuffer() == (char*)p) ;
- }
- U32 blk_idx = getPageIndex((U32)p) ;
- LLMemoryBlock* b = (LLMemoryBlock*)(mMetaBuffer + blk_idx * sizeof(LLMemoryBlock)) ;
- llassert_always(blk == b || b->mSelf == blk) ;
-
+ {
mAlloatedSize += blk->getSlotSize() ;
}
return p ;
@@ -693,31 +676,19 @@ void LLPrivateMemoryPool::LLMemoryChunk::free(void* addr)
{
U32 blk_idx = getPageIndex((U32)addr) ;
LLMemoryBlock* blk = (LLMemoryBlock*)(mMetaBuffer + blk_idx * sizeof(LLMemoryBlock)) ;
- llassert_always(blk->mSelf) ;
blk = blk->mSelf ;
- llassert_always(addr >= blk->getBuffer() && addr < blk->getBuffer() + blk->getBufferSize()) ;
- if(blk->getTotalSlots() == 1)
- {
- llassert_always(blk->getBuffer() == (char*)addr) ;
- }
-
bool was_full = blk->isFull() ;
blk->free(addr) ;
mAlloatedSize -= blk->getSlotSize() ;
if(blk->empty())
{
- blk->resetBitMap() ; //debug use
removeBlock(blk) ;
-
- dump();
}
else if(was_full)
{
addToAvailBlockList(blk) ;
-
- dump();
}
}
@@ -731,14 +702,11 @@ bool LLPrivateMemoryPool::LLMemoryChunk::containsAddress(const char* addr) const
return (U32)mBuffer <= (U32)addr && (U32)mBuffer + mBufferSize > (U32)addr ;
}
+//debug use
void LLPrivateMemoryPool::LLMemoryChunk::dump()
{
+#if 0
//sanity check
- std::vector< LLMemoryBlock* > blk_list ;
- for(std::set<LLMemoryBlock*>::iterator iter = mActiveBlockList.begin() ; iter != mActiveBlockList.end(); ++iter)
- {
- blk_list.push_back(*iter) ;
- }
//for(S32 i = 0 ; i < mBlockLevels ; i++)
//{
// LLMemoryBlock* blk = mAvailBlockList[i] ;
@@ -790,6 +758,7 @@ void LLPrivateMemoryPool::LLMemoryChunk::dump()
llerrs << "gap happens" << llendl ;
}
}
+#endif
#if 0
llinfos << "---------------------------" << llendl ;
llinfos << "Chunk buffer: " << (U32)getBuffer() << " size: " << getBufferSize() << llendl ;
@@ -818,6 +787,7 @@ void LLPrivateMemoryPool::LLMemoryChunk::dump()
#endif
}
+//compute the size for a block, the size is round to integer times of mMinBlockSize.
U32 LLPrivateMemoryPool::LLMemoryChunk::calcBlockSize(U32 slot_size)
{
//
@@ -857,15 +827,12 @@ U32 LLPrivateMemoryPool::LLMemoryChunk::calcBlockSize(U32 slot_size)
return block_size ;
}
+//create a new block in the chunk
LLPrivateMemoryPool::LLMemoryBlock* LLPrivateMemoryPool::LLMemoryChunk::addBlock(U32 blk_idx)
{
U32 slot_size = mMinSlotSize * (blk_idx + 1) ;
- U32 preferred_block_size = calcBlockSize(slot_size) ;
-
+ U32 preferred_block_size = calcBlockSize(slot_size) ;
U16 idx = getPageLevel(preferred_block_size);
- llassert_always(idx < mPartitionLevels - 1) ;
- llassert_always(preferred_block_size == (idx + 1) * mMinBlockSize) ; //round to integer times of mMinBlockSize.
-
LLMemoryBlock* blk = NULL ;
if(mFreeSpaceList[idx])//if there is free slot for blk_idx
@@ -878,7 +845,12 @@ LLPrivateMemoryPool::LLMemoryBlock* LLPrivateMemoryPool::LLMemoryChunk::addBlock
}
else //search for other non-preferred but enough space slot.
{
- for(S32 i = (S32)idx - 1 ; i >= 0 ; i--) //search the small slots first
+ S32 min_idx = 0 ;
+ if(slot_size > mMinBlockSize)
+ {
+ min_idx = getPageLevel(slot_size) ;
+ }
+ for(S32 i = (S32)idx - 1 ; i >= min_idx ; i--) //search the small slots first
{
if(mFreeSpaceList[i])
{
@@ -909,31 +881,12 @@ LLPrivateMemoryPool::LLMemoryBlock* LLPrivateMemoryPool::LLMemoryChunk::addBlock
}
}
- dump() ;
-
return blk ;
}
-char* _prev = NULL ;
+//create a new block at the designed location
LLPrivateMemoryPool::LLMemoryBlock* LLPrivateMemoryPool::LLMemoryChunk::createNewBlock(LLMemoryBlock* blk, U32 buffer_size, U32 slot_size, U32 blk_idx)
{
- llassert_always(blk->getBufferSize() >= buffer_size) ;
-
- //debug
- {
- {
- U32 blk_idx = getPageIndex((U32)blk->getBuffer()) ;
- llassert_always(blk == (LLMemoryBlock*)(mMetaBuffer + blk_idx * sizeof(LLMemoryBlock))) ;
- }
- U32 end = (blk->getBufferSize() / mMinBlockSize) ;
- llassert_always(blk->mSelf == blk && blk->isFree()) ;
- llassert_always((blk + end - 1)->mSelf == blk) ;
- for(U32 i = 1 ; i < end - 1; i++)
- {
- llassert_always(!(blk + i)->mSelf) ;
- }
- }
-
//unlink from the free space
removeFromFreeSpace(blk) ;
@@ -949,41 +902,24 @@ LLPrivateMemoryPool::LLMemoryBlock* LLPrivateMemoryPool::LLMemoryChunk::createNe
{
LLMemoryBlock* next_blk = blk + (buffer_size / mMinBlockSize) ;
next_blk->setBuffer(blk->getBuffer() + buffer_size, new_free_blk_size) ;
-
- {
- U32 blk_idx = getPageIndex((U32)next_blk->getBuffer()) ;
- llassert_always(next_blk == (LLMemoryBlock*)(mMetaBuffer + blk_idx * sizeof(LLMemoryBlock))) ;
- }
- llassert_always(buffer_size == (buffer_size / mMinBlockSize) * mMinBlockSize) ;
- llassert_always(((U32)next_blk->getBuffer() - (U32)mDataBuffer) == ((U32)next_blk->getBuffer() - (U32)mDataBuffer) / mMinBlockSize * mMinBlockSize) ;
addToFreeSpace(next_blk) ;
}
blk->init(blk->getBuffer(), buffer_size, slot_size) ;
//insert to the available block list...
- llassert_always(!mAvailBlockList[blk_idx]) ;
mAvailBlockList[blk_idx] = blk ;
- llassert_always(blk->getTotalSlots() > 0) ;
- llassert_always(mAvailBlockList[blk_idx]->getSlotSize() == (blk_idx + 1) * mMinSlotSize) ;
- llassert_always(buffer_size == (buffer_size / mMinBlockSize) * mMinBlockSize) ;
-
- //mark the address map
+ //mark the address map: all blocks covered by this block space pointing back to this block.
U32 end = (buffer_size / mMinBlockSize) ;
for(U32 i = 1 ; i < end ; i++)
{
(blk + i)->mSelf = blk ;
}
- llassert_always(blk->getBuffer() != _prev) ;
-
- llassert_always(mActiveBlockList.find(blk) == mActiveBlockList.end()) ;
-
- mActiveBlockList.insert(blk) ;
-
return blk ;
}
+//delete a block, release the block to the free pool.
void LLPrivateMemoryPool::LLMemoryChunk::removeBlock(LLMemoryBlock* blk)
{
//remove from the available block list
@@ -1003,22 +939,11 @@ void LLPrivateMemoryPool::LLMemoryChunk::removeBlock(LLMemoryBlock* blk)
blk->mNext = NULL ;
blk->mPrev = NULL ;
-
- std::set<LLMemoryBlock*>::iterator iter = mActiveBlockList.find(blk) ;
- llassert_always(iter != mActiveBlockList.end()) ;
- mActiveBlockList.erase(iter) ;
//mark it free
blk->setBuffer(blk->getBuffer(), blk->getBufferSize()) ;
- //debug
- U32 end = (blk->getBufferSize() / mMinBlockSize) ;
- for(U32 i = 1 ; i < end ; i++)
- {
- llassert_always((blk + i)->mSelf == blk) ;
- (blk + i)->mSelf = NULL ;
- }
-#if 0
+#if 1
//merge blk with neighbors if possible
if(blk->getBuffer() > mDataBuffer) //has the left neighbor
{
@@ -1041,9 +966,7 @@ void LLPrivateMemoryPool::LLMemoryChunk::removeBlock(LLMemoryBlock* blk)
}
}
#endif
- llassert_always(blk->getBuffer() != _prev) ;
- llassert_always(mActiveBlockList.find(blk) == mActiveBlockList.end()) ;
-
+
addToFreeSpace(blk) ;
return ;
@@ -1062,16 +985,10 @@ void LLPrivateMemoryPool::LLMemoryChunk::popAvailBlockList(U32 blk_idx)
mAvailBlockList[blk_idx]->mPrev = NULL ;
mAvailBlockList[blk_idx]->mNext = NULL ;
mAvailBlockList[blk_idx] = next ;
- if(next)
- {
- llassert_always(mAvailBlockList[blk_idx]->getTotalSlots() > 0) ;
- llassert_always(mAvailBlockList[blk_idx]->getSlotSize() == (blk_idx + 1) * mMinSlotSize) ;
- }
-
- dump() ;
}
}
+//add the block back to the free pool
void LLPrivateMemoryPool::LLMemoryChunk::addToFreeSpace(LLMemoryBlock* blk)
{
llassert_always(!blk->mPrev) ;
@@ -1094,6 +1011,7 @@ void LLPrivateMemoryPool::LLMemoryChunk::addToFreeSpace(LLMemoryBlock* blk)
return ;
}
+//remove the space from the free pool
void LLPrivateMemoryPool::LLMemoryChunk::removeFromFreeSpace(LLMemoryBlock* blk)
{
U16 free_idx = blk->getBufferSize() / mMinBlockSize - 1;
@@ -1125,8 +1043,6 @@ void LLPrivateMemoryPool::LLMemoryChunk::addToAvailBlockList(LLMemoryBlock* blk)
U32 blk_idx = getBlockLevel(blk->getSlotSize());
- llassert_always(blk->getSlotSize() == (blk_idx + 1) * mMinSlotSize) ;
-
blk->mNext = mAvailBlockList[blk_idx] ;
if(blk->mNext)
{
@@ -1135,9 +1051,6 @@ void LLPrivateMemoryPool::LLMemoryChunk::addToAvailBlockList(LLMemoryBlock* blk)
blk->mPrev = NULL ;
mAvailBlockList[blk_idx] = blk ;
- llassert_always(mAvailBlockList[blk_idx]->getTotalSlots() > 0) ;
- llassert_always(mAvailBlockList[blk_idx]->getSlotSize() == (blk_idx + 1) * mMinSlotSize) ;
-
return ;
}
@@ -1158,9 +1071,6 @@ U32 LLPrivateMemoryPool::LLMemoryChunk::getBlockLevel(U32 size)
//for mFreeSpaceList
U16 LLPrivateMemoryPool::LLMemoryChunk::getPageLevel(U32 size)
{
- llassert_always(size >= mMinBlockSize);
- llassert_always(!(size % mMinBlockSize)) ;
-
//start from 0
U16 level = size / mMinBlockSize - 1 ;
if(level >= mPartitionLevels)
@@ -1174,11 +1084,12 @@ U16 LLPrivateMemoryPool::LLMemoryChunk::getPageLevel(U32 size)
//class LLPrivateMemoryPool
//--------------------------------------------------------------------
const U32 CHUNK_SIZE = 4 << 20 ; //4 MB
-const U32 HASH_FACTOR = 255 ;
+const U32 LARGE_CHUNK_SIZE = 4 * CHUNK_SIZE ; //16 MB
LLPrivateMemoryPool::LLPrivateMemoryPool(U32 max_size, bool threaded) :
mMutexp(NULL),
mMaxPoolSize(max_size),
- mReservedPoolSize(0)
+ mReservedPoolSize(0),
+ mHashFactor(1)
{
if(threaded)
{
@@ -1188,13 +1099,7 @@ LLPrivateMemoryPool::LLPrivateMemoryPool(U32 max_size, bool threaded) :
for(S32 i = 0 ; i < SUPER_ALLOCATION ; i++)
{
mChunkList[i] = NULL ;
- }
-
- mChunkHashList.resize(HASH_FACTOR + 1) ;
- for(U32 i = 0 ; i <= HASH_FACTOR ; i++)
- {
- mChunkHashList[i] = NULL ;
- }
+ }
mNumOfChunks = 0 ;
}
@@ -1272,70 +1177,25 @@ void LLPrivateMemoryPool::free(void* addr)
lock() ;
- U16 key ;
- LLMemoryChunk* chunk =findChunk((char*)addr, key) ;
+ LLMemoryChunk* chunk = findChunk((char*)addr) ;
if(!chunk)
{
- delete[] (char*)addr ; //release from heap
+ delete[] addr ; //release from heap
}
else
{
- llassert_always((U32)addr >= (U32)chunk->getBuffer() && (U32)addr < (U32)chunk->getBuffer() + chunk->getBufferSize()) ;
-
chunk->free(addr) ;
if(chunk->empty())
{
- removeChunk(chunk, key) ;
+ removeChunk(chunk) ;
}
}
unlock() ;
}
-LLPrivateMemoryPool::LLMemoryChunk* LLPrivateMemoryPool::findChunk(const char* addr, U16& key)
-{
- key = findHashKey(addr) ;
-
- //check the hash value "key"
- LLMemoryChunk* chunk = mChunkHashList[key] ;
- while(chunk && !chunk->containsAddress(addr))
- {
- chunk = chunk->mHashNext ;
- }
-
- if(!chunk && key > 0) //check the "key - 1"
- {
- chunk = mChunkHashList[key - 1] ;
- while(chunk && !chunk->containsAddress(addr))
- {
- chunk = chunk->mHashNext ;
- }
-
- if(chunk)
- {
- key-- ;
- }
- }
-
- if(!chunk && key < HASH_FACTOR) //check the "key + 1"
- {
- chunk = mChunkHashList[key + 1] ;
- while(chunk && !chunk->containsAddress(addr))
- {
- chunk = chunk->mHashNext ;
- }
-
- if(chunk)
- {
- key++ ;
- }
- }
-
- return chunk ;
-}
-
void LLPrivateMemoryPool::dump()
{
}
@@ -1388,11 +1248,11 @@ S32 LLPrivateMemoryPool::getChunkIndex(U32 size)
void LLPrivateMemoryPool::destroyPool()
{
lock() ;
- for(U32 i = 0 ; i <= HASH_FACTOR; i++)
+ for(U32 i = 0 ; i < mHashFactor; i++)
{
while(mChunkHashList[i])
{
- removeChunk(mChunkHashList[i], i) ;
+ removeChunk(mChunkHashList[i]) ;
}
}
llassert_always(mNumOfChunks == 0) ;
@@ -1429,7 +1289,7 @@ LLPrivateMemoryPool::LLMemoryChunk* LLPrivateMemoryPool::addChunk(S32 chunk_inde
}
else
{
- preferred_size = 4 * CHUNK_SIZE ; //16MB
+ preferred_size = LARGE_CHUNK_SIZE ; //16MB
overhead = LLMemoryChunk::getMaxOverhead(preferred_size, MIN_BLOCK_SIZES[chunk_index]) ;
}
@@ -1457,19 +1317,14 @@ LLPrivateMemoryPool::LLMemoryChunk* LLPrivateMemoryPool::addChunk(S32 chunk_inde
mChunkList[chunk_index] = chunk ;
//insert into the hash table
- U16 key = findHashKey(chunk->getBuffer()) ;
- chunk->mHashNext = mChunkHashList[key] ;
- mChunkHashList[key] = chunk ;
+ addToHashTable(chunk) ;
mNumOfChunks++;
return chunk ;
}
-char*** _p = NULL ;
-U32 _times;
-U32 _levels;
-void LLPrivateMemoryPool::removeChunk(LLMemoryChunk* chunk, U16 key)
+void LLPrivateMemoryPool::removeChunk(LLMemoryChunk* chunk)
{
if(!chunk)
{
@@ -1495,46 +1350,210 @@ void LLPrivateMemoryPool::removeChunk(LLMemoryChunk* chunk, U16 key)
}
//remove from the hash table
- if(mChunkHashList[key] == chunk)
+ removeFromHashTable(chunk) ;
+
+ mNumOfChunks--;
+ mReservedPoolSize -= chunk->getBufferSize() ;
+
+ //release memory
+ delete[] chunk->getBuffer() ;
+}
+
+U16 LLPrivateMemoryPool::findHashKey(const char* addr)
+{
+ return (((U32)addr) / CHUNK_SIZE) % mHashFactor ;
+}
+
+LLPrivateMemoryPool::LLMemoryChunk* LLPrivateMemoryPool::findChunk(const char* addr)
+{
+ U16 key = findHashKey(addr) ;
+ if(mChunkHashList.size() <= key)
{
- mChunkHashList[key] = chunk->mHashNext ;
+ return NULL ;
}
- else
+
+ //check the hash value "key"
+ LLMemoryChunk* chunk = mChunkHashList[key] ;
+ while(chunk && !chunk->containsAddress(addr))
+ {
+ chunk = chunk->mHashNext ;
+ }
+
+ return chunk ;
+}
+
+void LLPrivateMemoryPool::addToHashTable(LLMemoryChunk* chunk)
+{
+ static const U16 HASH_FACTORS[] = {41, 83, 193, 317, 419, 523, 0xFFFF};
+
+ U16 i ;
+ if(mChunkHashList.empty())
+ {
+ mHashFactor = HASH_FACTORS[0] ;
+ rehash() ;
+ }
+
+ U16 start_key = findHashKey(chunk->getBuffer()) ;
+ U16 end_key = findHashKey(chunk->getBuffer() + chunk->getBufferSize() - 1) ;
+ bool need_rehash = false ;
+
+ if(mChunkHashList[start_key])
{
- LLMemoryChunk* prev = mChunkHashList[key] ;
- while(prev->mHashNext && prev->mHashNext != chunk)
+ if(mChunkHashList[start_key] == chunk)
{
- prev = prev->mHashNext ;
+ return; //already inserted.
}
- llassert_always(prev->mHashNext == chunk) ;
+
+ need_rehash = mChunkHashList[start_key]->mHashNext != NULL ;
+ if(!need_rehash)
+ {
+ llassert_always(!chunk->mHashNext) ;
- prev->mHashNext = chunk->mHashNext ;
+ chunk->mHashNext = mChunkHashList[start_key] ;
+ mChunkHashList[start_key] = chunk ;
+ }
}
- mNumOfChunks--;
- mReservedPoolSize -= chunk->getBufferSize() ;
-
- //debug check
- if(_p)
+ else
+ {
+ mChunkHashList[start_key] = chunk ;
+ }
+
+ if(!need_rehash)
+ {
+ if(mChunkHashList[end_key])
+ {
+ llassert_always(mChunkHashList[end_key] != chunk)
+
+ need_rehash = mChunkHashList[end_key]->mHashNext != NULL ;
+ if(!need_rehash)
+ {
+ mChunkHashList[end_key]->mHashNext = chunk ;
+ }
+ }
+ else
+ {
+ mChunkHashList[end_key] = chunk ;
+ }
+ }
+
+ if(!need_rehash)
{
- for(U32 i = 0 ; i < _times; i++)
+ if(end_key < start_key)
{
- for(U32 j = 0 ; j < _levels ;j++)
+ for(U16 i = start_key + 1 ; i < mHashFactor; i++)
{
- if( i == col && j == row)
+ if(mChunkHashList[i])
{
- continue ;
+ llassert_always(mChunkHashList[i] != chunk) ;
+ need_rehash = true ;
+ break ;
+ }
+ else
+ {
+ mChunkHashList[i] = chunk ;
+ }
+ }
+
+ if(!need_rehash)
+ {
+ for(U16 i = 0 ; i < end_key; i++)
+ {
+ if(mChunkHashList[i])
+ {
+ llassert_always(mChunkHashList[i] != chunk) ;
+ need_rehash = true ;
+ break ;
+ }
+ else
+ {
+ mChunkHashList[i] = chunk ;
+ }
+ }
+ }
+ }
+ else
+ {
+ for(i = start_key + 1; i < end_key; i++)
+ {
+ if(mChunkHashList[i])
+ {
+ llassert_always(mChunkHashList[i] != chunk) ;
+ need_rehash = true ;
+ break ;
+ }
+ else
+ {
+ mChunkHashList[i] = chunk ;
}
- llassert_always(!_p[i][j] || !chunk->containsAddress(_p[i][j])) ;
}
}
}
- //release memory
- delete[] chunk->getBuffer() ;
+
+ if(need_rehash)
+ {
+ i = 0 ;
+ while(HASH_FACTORS[i] <= mHashFactor) i++;
+
+ mHashFactor = HASH_FACTORS[i] ;
+ llassert_always(mHashFactor != 0xFFFF) ;//stop point of the recursive calls
+
+ rehash() ;
+ }
}
-U16 LLPrivateMemoryPool::findHashKey(const char* addr)
+void LLPrivateMemoryPool::removeFromHashTable(LLMemoryChunk* chunk)
+{
+ U16 start_key = findHashKey(chunk->getBuffer()) ;
+ U16 end_key = findHashKey(chunk->getBuffer() + chunk->getBufferSize() - 1) ;
+
+ mChunkHashList[start_key] = chunk->mHashNext ;
+ chunk->mHashNext = NULL ;
+
+ if(mChunkHashList[end_key] != chunk)
+ {
+ mChunkHashList[end_key]->mHashNext = NULL ;
+ }
+ else
+ {
+ mChunkHashList[end_key] = NULL ;
+ }
+
+ if(end_key < start_key)
+ {
+ for(U16 i = start_key + 1 ; i < mHashFactor; i++)
+ {
+ mChunkHashList[i] = NULL ;
+ }
+ for(U16 i = 0 ; i < end_key; i++)
+ {
+ mChunkHashList[i] = NULL ;
+ }
+ }
+ else
+ {
+ for(U16 i = start_key + 1 ; i < end_key; i++)
+ {
+ mChunkHashList[i] = NULL ;
+ }
+ }
+}
+
+void LLPrivateMemoryPool::rehash()
{
- return (((U32)addr) / CHUNK_SIZE) % HASH_FACTOR ;
+ mChunkHashList.clear() ;
+ mChunkHashList.resize(mHashFactor, NULL) ;
+
+ LLMemoryChunk* chunk ;
+ for(U16 i = 0 ; i < SUPER_ALLOCATION ; i++)
+ {
+ chunk = mChunkList[i] ;
+ while(chunk)
+ {
+ chunk->mHashNext = NULL ;
+ addToHashTable(chunk) ;
+ chunk = chunk->mNext ;
+ }
+ }
}
//--------------------------------------------------------------------
@@ -1587,7 +1606,7 @@ void LLPrivateMemoryPoolTester::run(bool threaded)
//run the test
correctnessTest() ;
- //performanceTest() ;
+ performanceTest() ;
//fragmentationtest() ;
//release pool.
@@ -1619,10 +1638,6 @@ void LLPrivateMemoryPoolTester::test(U32 min_size, U32 max_size, U32 stride, U32
}
}
- _p = p ;
- _times = times;
- _levels = levels ;
-
//allocation
U32 size ;
for(i = 0 ; i < times ; i++)
@@ -1630,7 +1645,7 @@ void LLPrivateMemoryPoolTester::test(U32 min_size, U32 max_size, U32 stride, U32
for(j = 0 ; j < levels; j++)
{
size = min_size + j * stride ;
- _prev = p[i][j] = sPool->allocate(size) ;
+ p[i][j] = sPool->allocate(size) ;
total_allocated_size+= size ;
@@ -1643,15 +1658,8 @@ void LLPrivateMemoryPoolTester::test(U32 min_size, U32 max_size, U32 stride, U32
{
S32 k = rand() % levels ;
- col = i ;
- row = k ;
-
if(p[i][k])
{
- if(_prev == p[i][k])
- {
- _prev = NULL ;
- }
llassert_always(*(U32*)p[i][k] == i && *((U32*)p[i][k] + 1) == k) ;
sPool->free(p[i][k]) ;
total_allocated_size -= min_size + k * stride ;
@@ -1666,15 +1674,11 @@ void LLPrivateMemoryPoolTester::test(U32 min_size, U32 max_size, U32 stride, U32
{
}
- _prev = NULL ;
//release all memory allocations
for(i = 0 ; i < times; i++)
{
for(j = 0 ; j < levels; j++)
{
- col = i ;
- row = j ;
-
if(p[i][j])
{
llassert_always(*(U32*)p[i][j] == i && *((U32*)p[i][j] + 1) == j) ;
@@ -1687,7 +1691,57 @@ void LLPrivateMemoryPoolTester::test(U32 min_size, U32 max_size, U32 stride, U32
::delete[] *p ;
::delete[] p ;
- _p = NULL ;
+}
+
+void LLPrivateMemoryPoolTester::testAndTime(U32 size, U32 times)
+{
+ LLTimer timer ;
+
+ llinfos << " -**********************- " << llendl ;
+ llinfos << "test size: " << size << " test times: " << times << llendl ;
+
+ timer.reset() ;
+ char** p = new char*[times] ;
+
+ //using the customized memory pool
+ //allocation
+ for(U32 i = 0 ; i < times; i++)
+ {
+ p[i] = sPool->allocate(size) ;
+ if(!p[i])
+ {
+ llerrs << "allocation failed" << llendl ;
+ }
+ }
+ //de-allocation
+ for(U32 i = 0 ; i < times; i++)
+ {
+ sPool->free(p[i]) ;
+ p[i] = NULL ;
+ }
+ llinfos << "time spent using customized memory pool: " << timer.getElapsedTimeF32() << llendl ;
+
+ timer.reset() ;
+
+ //using the standard allocator/de-allocator:
+ //allocation
+ for(U32 i = 0 ; i < times; i++)
+ {
+ p[i] = ::new char[size] ;
+ if(!p[i])
+ {
+ llerrs << "allocation failed" << llendl ;
+ }
+ }
+ //de-allocation
+ for(U32 i = 0 ; i < times; i++)
+ {
+ ::delete[] p[i] ;
+ p[i] = NULL ;
+ }
+ llinfos << "time spent using standard allocator/de-allocator: " << timer.getElapsedTimeF32() << llendl ;
+
+ delete[] p;
}
void LLPrivateMemoryPoolTester::correctnessTest()
@@ -1715,56 +1769,15 @@ void LLPrivateMemoryPoolTester::correctnessTest()
void LLPrivateMemoryPoolTester::performanceTest()
{
U32 test_size[3] = {768, 3* 1024, 3* 1024 * 1024};
-
- S32 i ;
- LLFrameTimer timer ;
-
- //do 1024 various-sized allocations / deallocations, compare the performance with the normal ones.
-
+
//small sized
- {
- timer.reset() ;
- char* p[1024] = {NULL} ;
- for(i = 0 ; i < 1024; i++)
- {
- p[i] = sPool->allocate(test_size[0]) ;
- if(!p[i])
- {
- llerrs << "allocation failed" << llendl ;
- }
- }
-
- for(i = 0 ; i < 1024; i++)
- {
- sPool->free(p[i]) ;
- p[i] = NULL ;
- }
- llinfos << "time spent on 1024 small allocations: %f " << timer.getElapsedTimeF32() << llendl ;
-
- timer.reset() ;
-
- //using the standard allocator/de-allocator:
- for(i = 0 ; i < 1024; i++)
- {
- p[i] = ::new char[test_size[0]] ;
- if(!p[i])
- {
- llerrs << "allocation failed" << llendl ;
- }
- }
-
- for(i = 0 ; i < 1024; i++)
- {
- ::delete[] p[i] ;
- p[i] = NULL ;
- }
- llinfos << "time spent on 1024 small allocations: %f using standard allocator/de-allocator." << timer.getElapsedTimeF32() << llendl ;
-
- timer.reset() ;
- }
+ testAndTime(test_size[0], 8) ;
+
//medium sized
+ testAndTime(test_size[1], 8) ;
//large sized
+ testAndTime(test_size[2], 8) ;
}
void LLPrivateMemoryPoolTester::fragmentationtest()
diff --git a/indra/llcommon/llmemory.h b/indra/llcommon/llmemory.h
index f0e26d6b2f..f7ca33a279 100644
--- a/indra/llcommon/llmemory.h
+++ b/indra/llcommon/llmemory.h
@@ -173,9 +173,6 @@ public:
U16 mBlockLevels;
U16 mPartitionLevels;
- //debug use
- std::set<LLMemoryBlock*> mActiveBlockList ;
-
public:
//form a linked list
LLMemoryChunk* mNext ;
@@ -200,9 +197,13 @@ private:
S32 getChunkIndex(U32 size) ;
LLMemoryChunk* addChunk(S32 chunk_index) ;
void checkSize(U32 asked_size) ;
- void removeChunk(LLMemoryChunk* chunk, U16 key) ;
+ void removeChunk(LLMemoryChunk* chunk) ;
U16 findHashKey(const char* addr);
- LLMemoryChunk* findChunk(const char* addr, U16& key) ;
+ void addToHashTable(LLMemoryChunk* chunk) ;
+ void removeFromHashTable(LLMemoryChunk* chunk) ;
+ void rehash() ;
+ LLMemoryChunk* findChunk(const char* addr) ;
+
void destroyPool() ;
public:
@@ -222,6 +223,7 @@ private:
LLMemoryChunk* mChunkList[SUPER_ALLOCATION] ; //all memory chunks reserved by this pool, sorted by address
std::vector<LLMemoryChunk*> mChunkHashList ;
U16 mNumOfChunks ;
+ U16 mHashFactor ;
};
//
@@ -245,6 +247,7 @@ private:
void fragmentationtest() ;
void test(U32 min_size, U32 max_size, U32 stride, U32 times, bool random_deletion, bool output_statistics) ;
+ void testAndTime(U32 size, U32 times) ;
public:
void* operator new(size_t size)
diff --git a/indra/newview/llappviewer.cpp b/indra/newview/llappviewer.cpp
index fd7e1eda7f..d1727a0e83 100644
--- a/indra/newview/llappviewer.cpp
+++ b/indra/newview/llappviewer.cpp
@@ -1087,9 +1087,9 @@ bool LLAppViewer::mainLoop()
// point of posting.
LLSD newFrame;
- LLPrivateMemoryPoolTester::getInstance()->run(false) ;
- LLPrivateMemoryPoolTester::getInstance()->run(true) ;
- LLPrivateMemoryPoolTester::destroy() ;
+ //LLPrivateMemoryPoolTester::getInstance()->run(false) ;
+ //LLPrivateMemoryPoolTester::getInstance()->run(true) ;
+ //LLPrivateMemoryPoolTester::destroy() ;
// Handle messages
while (!LLApp::isExiting())