예제 #1
0
int SharedDataManager::getSegmentData(TreeDescriptor treeId, int nid, int idx, char **dim, int *dimSize, char **data, int *dataSize,
									  char **shape, int *shapeSize, int *currDataSize, bool *timestamped, int *actSamples)
{
	Segment *segment;
	lock.lock();
	SharedMemNode *node = sharedTree.find(treeId, nid);
	if(node)
	{
		SharedMemNodeData *nodeData = node->getData();
		if(!nodeData->isSegmented())
		{
			lock.unlock();
			return 0;
		}
		int numSegments = nodeData->getNumSegments();
		if(idx >= numSegments || idx < 0)
		{
			lock.unlock();
			return 0;
		}
		segment = nodeData->getSegmentAt(idx);

		segment->getDim((char **)dim, dimSize);
		segment->getData((char **)data, dataSize);
		segment->getShape((char **)shape, shapeSize);
		*currDataSize = segment->getCurrDataSize();
		*timestamped = segment->isTimestamped();
		*actSamples = segment->getActSamples();

		lock.unlock();
		return 1;
	}
	lock.unlock();
	return 0;
}
예제 #2
0
int SharedDataManager::getSegmentInfo(TreeDescriptor treeIdx, int nid, int idx, int **shape, int *shapeSize, int *currDataSize)
{
	Segment *segment;
	lock.lock();
	SharedMemNode *node = sharedTree.find(treeIdx, nid);
	if(node)
	{
		SharedMemNodeData *nodeData = node->getData();
		if(!nodeData->isSegmented())
		{
			lock.unlock();
			return 0;
		}
		int numSegments = nodeData->getNumSegments();
		if(idx >= numSegments)
			idx = numSegments - 1;
		segment = nodeData->getSegmentAt(idx);
		segment->getShape(reinterpret_cast<char **>(shape), shapeSize);
		*currDataSize = segment->getCurrDataSize();
		lock.unlock();
		return 1;
	}
	lock.unlock();
	return 0;
}
예제 #3
0
int SharedDataManager::isSegmented(TreeDescriptor treeId, int nid, int *segmented)
{
	lock.lock();
	SharedMemNode *node = sharedTree.find(treeId, nid);
	if(node)
	{
		SharedMemNodeData *nodeData = node->getData();
		*segmented = nodeData->isSegmented()?1:0;
		lock.unlock();
		return 1;
	}
	lock.unlock();
	return 0;
}
예제 #4
0
int SharedDataManager::getSegmentLimits(TreeDescriptor treeId, int nid, int idx, char **start, int *startSize, 
		char **end, int *endSize, bool *timestamped)
{
	Segment *segment;
	lock.lock();
	SharedMemNode *node = sharedTree.find(treeId, nid);
	if(node)
	{
		SharedMemNodeData *nodeData = node->getData();
		if(!nodeData->isSegmented())
		{
			lock.unlock();
			return 0;
		}
		int numSegments = nodeData->getNumSegments();
		if(idx >= numSegments || idx < 0)
		{
			lock.unlock();
			return 0;
		}
		segment = nodeData->getSegmentAt(idx);

		if(segment->isTimestamped())
		{
			*timestamped = true;
			segment->getStartTimestamp(start, startSize);
			segment->getEndTimestamp(end, endSize);
		}
		else
		{
			segment->getStart((char **)start, startSize);
			segment->getEnd((char **)end, endSize);
			*timestamped = false;
		}
		
		lock.unlock();
		return 1;
	}
	lock.unlock();
	return 0;
}
예제 #5
0
int SharedDataManager::discardFirstSegment(TreeDescriptor treeId, int nid)
{
	//printf("START DISCARD\n");
	lock.lock();
	SharedMemNode *node = sharedTree.find(treeId, nid);
	if(node)
	{
		SharedMemNodeData *nodeData = node->getData();
		if(!nodeData->isSegmented())
		{
			lock.unlock();
			return 0;
		}
		nodeData->discardFirstSegment(&allocationManager);		
		lock.unlock();
	//printf("END DISCARD\n");
		return 1;
	}
	lock.unlock();
	return 0;
}
예제 #6
0
int SharedDataManager::discardOldSegments(TreeDescriptor treeId, int nid, _int64 timestamp)
{
	//printf("START DISCARD\n");
	lock.lock();
	SharedMemNode *node = sharedTree.find(treeId, nid);
	if(node)
	{
		SharedMemNodeData *nodeData = node->getData();
		if(!nodeData->isSegmented())
		{
			lock.unlock();
			return 0;
		}
		nodeData->discardOldSegments(timestamp, &freeSpaceManager, &lock);		
		lock.unlock();
	//printf("END DISCARD\n");
		return 1;
	}
	lock.unlock();
	return 0;
}
예제 #7
0
int SharedDataManager::getData(TreeDescriptor treeId, int nid, char *dataType, int *numSamples, char **data, int *size) //Write data indexed by nid
{
	lock.lock();
	SharedMemNode *node = sharedTree.find(treeId, nid);
	if(node)
	{
		SharedMemNodeData *nodeData = node->getData();
		if(nodeData->isSegmented())
		{
			lock.unlock();
			return 0;
		}
		nodeData->getData((char **)data, size);
		nodeData->getDataInfo(dataType, numSamples);
		lock.unlock();
		return 1;
	}
	else
	{
		lock.unlock();
		return 0;
	}
}
예제 #8
0
int SharedDataManager::getSegmentDataAndShapeCopy(TreeDescriptor treeId, int nid, int idx, char **data, int *dataSize,
									  char **shape, int *shapeSize)
{
	Segment *segment;
	lock.lock();
	SharedMemNode *node = sharedTree.find(treeId, nid);
	if(node)
	{
		SharedMemNodeData *nodeData = node->getData();
		if(!nodeData->isSegmented())
		{
			lock.unlock();
			return 0;
		}
		int numSegments = nodeData->getNumSegments();
		if(idx >= numSegments || idx < 0)
		{
			lock.unlock();
			return 0;
		}
		segment = nodeData->getSegmentAt(idx);

		char *currData;
		segment->getData((char **)&currData, dataSize);
		*data = new char[*dataSize];
		memcpy(*data, currData,*dataSize);
		char *currShape;
		segment->getShape((char **)&currShape, shapeSize);
		*shape = new char[*shapeSize];
		memcpy(*shape, currShape, *shapeSize);

		lock.unlock();
		return 1;
	}
	lock.unlock();
	return 0;
}
예제 #9
0
int SharedDataManager::updateSegment(TreeDescriptor treeId, int nid, int idx, char *start, int startSize, char *end, int endSize, 
								  char *dim, int dimSize)
{
	Segment *segment;
	lock.lock();
	SharedMemNode *node = sharedTree.find(treeId, nid);
	if(node)
	{
		SharedMemNodeData *nodeData = node->getData();
		if(!nodeData->isSegmented())
		{
			lock.unlock();
			return 0;
		}
		int numSegments = nodeData->getNumSegments();
		if(idx > numSegments || idx < 0)
		{
			lock.unlock();
			return 0;
		}
		segment = nodeData->getSegmentAt(idx);

		char *currPtr;
		int currSize;
		segment->getStart(&currPtr, &currSize);
		if(startSize > 0)
		{
		    if(currSize > 0)
			allocationManager.deallocateShared((char *)currPtr, currSize);
		    currPtr = allocationManager.allocateShared(startSize);
		    memcpy(currPtr, start, startSize);
		    segment->setStart(currPtr, startSize);
		}
		if(endSize > 0)
		{
		    segment->getEnd(&currPtr, &currSize);
		    if(currSize > 0)
			allocationManager.deallocateShared((char *)currPtr, currSize);
		    currPtr = allocationManager.allocateShared(endSize);
		    memcpy(currPtr, end, endSize);
		    segment->setEnd(currPtr, endSize);
		}
		
		if(dimSize > 0)
		{
		    segment->getDim(&currPtr, &currSize);
		    if(currSize > 0)
			allocationManager.deallocateShared((char *)currPtr, currSize);
		    currPtr = allocationManager.allocateShared(dimSize);
		    memcpy(currPtr, dim, dimSize);
		    segment->setDim(currPtr, dimSize);
  		}
		CallbackManager *callback = node->getData()->getCallbackManager();
		if(callback)
			callback->callCallback();
		lock.unlock();
		return 1;
	}
	lock.unlock();
	return 0;
}
예제 #10
0
int SharedDataManager::beginTimestampedSegment(TreeDescriptor treeId, int nid, int idx, int numItems, char *shape, 
											   int shapeSize, char *data, int dataSize, _int64 start, 
											   _int64 end, char *dim, int dimSize, int *retIdx)
{
	Segment *segment;
//printf("BEGIN TIMESTAMPED SEGMENT SHARE: %d\n", *(int *)shape);
	lock.lock();
	SharedMemNode *node = sharedTree.find(treeId, nid);
	if(!node)
	{
		SharedMemNodeData nodeData;
		nodeData.setNid(treeId, nid);
		nodeData.setSegmented(true);
		sharedTree.insert(&nodeData);
		node = sharedTree.find(treeId, nid);
	}

	if(node)
	{
		SharedMemNodeData *nodeData = node->getData();
		if(!nodeData->isSegmented())
		{
			nodeData->free(&allocationManager);
			nodeData->setSegmented(true);
		}
		int numSegments = nodeData->getNumSegments();
		if(idx > numSegments)
		{
			lock.unlock();
			return 0;
		}
		if(idx == numSegments || idx < 0)
		{
			segment = (Segment *)allocationManager.allocateShared(sizeof(Segment));
			
//			printf("ALLOCATED SEGMENT: %x\n", segment);
			
			segment->initialize();
			nodeData->appendSegment(segment);
			*retIdx = numSegments;
		}
		else
		{
			segment = nodeData->getSegmentAt(idx);
			*retIdx = idx;
		}

		char *currPtr;
		segment->free(&allocationManager);

		if(dimSize == 0)
		{
			currPtr = allocationManager.allocateShared(8 * numItems);
//			printf("ALLOCATED SEGMENT DIM: %x\n", currPtr);
			segment->setDim(currPtr, 8 * numItems);
		}
		currPtr = allocationManager.allocateShared(shapeSize);
//			printf("ALLOCATED SEGMENT SHAPE: %x  %d\n", currPtr, *(int *)shape);
		memcpy(currPtr, shape, shapeSize);
		segment->setShape(currPtr, shapeSize);

		currPtr = allocationManager.allocateShared(dataSize);
//			printf("ALLOCATED SEGMENTDATA: %x\n", currPtr);
		memcpy(currPtr, data, dataSize);
		segment->setData(currPtr, dataSize);
	
		//The following parameters are meaningful only when copying a segment from the tree into cache
		segment->setStartTimestamp(start);
		segment->setEndTimestamp(end);
		if(dimSize > 0)
		{
			currPtr = allocationManager.allocateShared(dimSize);
//			printf("ALLOCATED SEGMENT DIM : %x\n", currPtr);
			memcpy(currPtr, dim, dimSize);
			segment->setDim(currPtr, dimSize);
			segment->setStartTimestamp(*(_int64 *)dim);
			if(end == 0) segment->setEndTimestamp(*(_int64 *)dim);
		}
		segment->setTimestamped(true);

		lock.unlock();
//printf("END BEGIN TIMESTAMPED SEGMENT LAST SEGMENT: %x\n", nodeData->getLastSegment());
		return 1;
	}
	lock.unlock();
	return 0;
}
예제 #11
0
int SharedDataManager::beginSegment(TreeDescriptor treeId, int nid, int idx, char *start, int startSize, char *end, int endSize, 
			char *dim, int dimSize, char *shape, int shapeSize, char *data, int dataSize, int *retIdx)
{
	Segment *segment;
	lock.lock();
	SharedMemNode *node = sharedTree.find(treeId, nid);
	if(!node)
	{
		SharedMemNodeData nodeData;
		nodeData.setNid(treeId, nid);
		nodeData.setSegmented(true);
		sharedTree.insert(&nodeData);
		node = sharedTree.find(treeId, nid);
	}

	if(node)
	{
		SharedMemNodeData *nodeData = node->getData();
		if(!nodeData->isSegmented())
		{
			nodeData->free(&allocationManager);
			nodeData->setSegmented(true);
		}
		int numSegments = nodeData->getNumSegments();
		if(idx > numSegments)
		{
			lock.unlock();
			return 0;
		}
		if(idx == numSegments || idx < 0)
		{
			segment = (Segment *)allocationManager.allocateShared(sizeof(Segment));
			segment->initialize();
			nodeData->appendSegment(segment);
			*retIdx = numSegments;
		}
		else
		{
			segment = nodeData->getSegmentAt(idx);
			*retIdx = idx;
		}

		char *currPtr;
		segment->free(&allocationManager);

		currPtr = allocationManager.allocateShared(startSize);
		memcpy(currPtr, start, startSize);
		segment->setStart(currPtr, startSize);

		currPtr = allocationManager.allocateShared(endSize);
		memcpy(currPtr, end, endSize);
		segment->setEnd(currPtr, endSize);

		currPtr = allocationManager.allocateShared(dimSize);
		memcpy(currPtr, dim, dimSize);
		segment->setDim(currPtr, dimSize);

		currPtr = allocationManager.allocateShared(shapeSize);
		memcpy(currPtr, shape, shapeSize);
		segment->setShape(currPtr, shapeSize);

		currPtr = allocationManager.allocateShared(dataSize);
		memcpy(currPtr, data, dataSize);
		segment->setData(currPtr, dataSize);

		segment->setTimestamped(false);

		lock.unlock();
		return 1;
	}
	lock.unlock();
	return 0;
}