a44b6318e2
- Implemented BlobOnBlocks::read() and write(). Not tested yet.
209 lines
7.2 KiB
C++
209 lines
7.2 KiB
C++
#include "DataTree.h"
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#include "../datanodestore/DataNodeStore.h"
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#include "../datanodestore/DataInnerNode.h"
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#include "../datanodestore/DataLeafNode.h"
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#include "../utils/Math.h"
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#include "impl/algorithms.h"
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#include "messmer/cpp-utils/pointer.h"
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#include "messmer/cpp-utils/optional_ownership_ptr.h"
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#include <cmath>
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using blockstore::Key;
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using blobstore::onblocks::datanodestore::DataNodeStore;
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using blobstore::onblocks::datanodestore::DataNode;
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using blobstore::onblocks::datanodestore::DataInnerNode;
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using blobstore::onblocks::datanodestore::DataLeafNode;
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using blobstore::onblocks::datanodestore::DataNodeLayout;
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using std::unique_ptr;
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using std::dynamic_pointer_cast;
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using std::function;
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using cpputils::dynamic_pointer_move;
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using cpputils::optional_ownership_ptr;
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using cpputils::WithOwnership;
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using cpputils::WithoutOwnership;
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namespace blobstore {
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namespace onblocks {
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namespace datatreestore {
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DataTree::DataTree(DataNodeStore *nodeStore, unique_ptr<DataNode> rootNode)
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: _nodeStore(nodeStore), _rootNode(std::move(rootNode)) {
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}
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DataTree::~DataTree() {
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}
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void DataTree::removeLastDataLeaf() {
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auto deletePosOrNull = algorithms::GetLowestRightBorderNodeWithMoreThanOneChildOrNull(_nodeStore, _rootNode.get());
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assert(deletePosOrNull.get() != nullptr); //TODO Correct exception (tree has only one leaf, can't shrink it)
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deleteLastChildSubtree(deletePosOrNull.get());
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ifRootHasOnlyOneChildReplaceRootWithItsChild();
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}
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void DataTree::ifRootHasOnlyOneChildReplaceRootWithItsChild() {
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DataInnerNode *rootNode = dynamic_cast<DataInnerNode*>(_rootNode.get());
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assert(rootNode != nullptr);
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if (rootNode->numChildren() == 1) {
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auto child = _nodeStore->load(rootNode->getChild(0)->key());
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_rootNode = _nodeStore->overwriteNodeWith(std::move(_rootNode), *child);
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_nodeStore->remove(std::move(child));
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}
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}
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void DataTree::deleteLastChildSubtree(DataInnerNode *node) {
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auto lastChild = _nodeStore->load(node->LastChild()->key());
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_nodeStore->removeSubtree(std::move(lastChild));
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node->removeLastChild();
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}
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unique_ptr<DataLeafNode> DataTree::addDataLeaf() {
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auto insertPosOrNull = algorithms::GetLowestInnerRightBorderNodeWithLessThanKChildrenOrNull(_nodeStore, _rootNode.get());
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if (insertPosOrNull) {
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return addDataLeafAt(insertPosOrNull.get());
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} else {
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return addDataLeafToFullTree();
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}
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}
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unique_ptr<DataLeafNode> DataTree::addDataLeafAt(DataInnerNode *insertPos) {
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auto new_leaf = _nodeStore->createNewLeafNode();
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auto chain = createChainOfInnerNodes(insertPos->depth()-1, new_leaf.get());
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insertPos->addChild(*chain);
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return new_leaf;
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}
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optional_ownership_ptr<DataNode> DataTree::createChainOfInnerNodes(unsigned int num, DataLeafNode *leaf) {
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optional_ownership_ptr<DataNode> chain = cpputils::WithoutOwnership<DataNode>(leaf);
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for(unsigned int i=0; i<num; ++i) {
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auto newnode = _nodeStore->createNewInnerNode(*chain);
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chain = cpputils::WithOwnership<DataNode>(std::move(newnode));
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}
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return chain;
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}
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unique_ptr<DataLeafNode> DataTree::addDataLeafToFullTree() {
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auto copyOfOldRoot = _nodeStore->createNewNodeAsCopyFrom(*_rootNode);
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auto newRootNode = DataNode::convertToNewInnerNode(std::move(_rootNode), *copyOfOldRoot);
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auto newLeaf = addDataLeafAt(newRootNode.get());
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_rootNode = std::move(newRootNode);
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return newLeaf;
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}
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const Key &DataTree::key() const {
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return _rootNode->key();
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}
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void DataTree::flush() const {
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_rootNode->flush();
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}
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unique_ptr<DataNode> DataTree::releaseRootNode() {
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return std::move(_rootNode);
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}
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void DataTree::traverseLeaves(uint32_t beginIndex, uint32_t endIndex, function<void (DataLeafNode*, uint32_t)> func) {
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assert(beginIndex <= endIndex);
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//TODO assert(beginIndex <= numLeaves());
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//TODO assert(endIndex <= numLeaves());
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traverseLeaves(_rootNode.get(), 0, beginIndex, endIndex, func);
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}
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void DataTree::traverseLeaves(DataNode *root, uint32_t leafOffset, uint32_t beginIndex, uint32_t endIndex, function<void (DataLeafNode*, uint32_t)> func) {
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DataLeafNode *leaf = dynamic_cast<DataLeafNode*>(root);
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if (leaf != nullptr) {
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assert(beginIndex <= 1 && endIndex <= 1);
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if (beginIndex == 0 && endIndex == 1) {
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func(leaf, leafOffset);
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}
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return;
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}
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DataInnerNode *inner = dynamic_cast<DataInnerNode*>(root);
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uint32_t leavesPerChild = leavesPerFullChild(*inner);
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uint32_t beginChild = beginIndex/leavesPerChild;
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uint32_t endChild = utils::ceilDivision(endIndex, leavesPerChild);
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for (uint32_t childIndex = beginChild; childIndex < endChild; ++childIndex) {
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uint32_t childOffset = childIndex * leavesPerChild;
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uint32_t localBeginIndex = utils::maxZeroSubtraction(beginIndex, childOffset);
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uint32_t localEndIndex = std::min(leavesPerChild, endIndex - childOffset);
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auto child = _nodeStore->load(inner->getChild(childIndex)->key());
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traverseLeaves(child.get(), leafOffset + childOffset, localBeginIndex, localEndIndex, func);
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}
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}
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uint32_t DataTree::leavesPerFullChild(const DataInnerNode &root) const {
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return utils::intPow(_nodeStore->layout().maxChildrenPerInnerNode(), root.depth()-1);
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}
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uint64_t DataTree::numStoredBytes() const {
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return numStoredBytes(*_rootNode);
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}
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uint64_t DataTree::numStoredBytes(const DataNode &root) const {
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const DataLeafNode *leaf = dynamic_cast<const DataLeafNode*>(&root);
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if (leaf != nullptr) {
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return leaf->numBytes();
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}
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const DataInnerNode &inner = dynamic_cast<const DataInnerNode&>(root);
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uint64_t numBytesInLeftChildren = (inner.numChildren()-1) * leavesPerFullChild(inner) * _nodeStore->layout().maxBytesPerLeaf();
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auto lastChild = _nodeStore->load(inner.LastChild()->key());
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uint64_t numBytesInRightChild = numStoredBytes(*lastChild);
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return numBytesInLeftChildren + numBytesInRightChild;
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}
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void DataTree::resizeNumBytes(uint64_t newNumBytes) {
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//TODO Faster implementation possible
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LastLeaf(_rootNode.get())->resize(_nodeStore->layout().maxBytesPerLeaf());
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uint64_t currentNumBytes = numStoredBytes();
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assert(currentNumBytes % _nodeStore->layout().maxBytesPerLeaf() == 0);
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uint32_t currentNumLeaves = currentNumBytes / _nodeStore->layout().maxBytesPerLeaf();
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uint32_t newNumLeaves = utils::ceilDivision(newNumBytes, _nodeStore->layout().maxBytesPerLeaf());
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for(uint32_t i = currentNumLeaves; i < newNumLeaves; ++i) {
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addDataLeaf();
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}
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for(uint32_t i = currentNumLeaves; i > newNumLeaves; --i) {
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removeLastDataLeaf();
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}
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uint32_t newLastLeafSize = newNumBytes - (newNumLeaves-1)*_nodeStore->layout().maxBytesPerLeaf();
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LastLeaf(_rootNode.get())->resize(newLastLeafSize);
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assert(newNumBytes == numStoredBytes());
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}
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optional_ownership_ptr<DataLeafNode> DataTree::LastLeaf(DataNode *root) {
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DataLeafNode *leaf = dynamic_cast<DataLeafNode*>(root);
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if (leaf != nullptr) {
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return WithoutOwnership(leaf);
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}
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DataInnerNode *inner = dynamic_cast<DataInnerNode*>(root);
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return WithOwnership(LastLeaf(_nodeStore->load(inner->LastChild()->key())));
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}
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unique_ptr<DataLeafNode> DataTree::LastLeaf(unique_ptr<DataNode> root) {
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auto leaf = dynamic_pointer_move<DataLeafNode>(root);
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if (leaf.get() != nullptr) {
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return leaf;
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}
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auto inner = dynamic_pointer_move<DataInnerNode>(root);
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return LastLeaf(_nodeStore->load(inner->LastChild()->key()));
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}
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uint32_t DataTree::maxBytesPerLeaf() const {
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return _nodeStore->layout().maxBytesPerLeaf();
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}
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}
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}
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}
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