267 lines
10 KiB
C++
267 lines
10 KiB
C++
#include "testutils/DataTreeTest.h"
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#include "testutils/TwoLevelDataFixture.h"
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#include "blobstore/implementations/onblocks/utils/Math.h"
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#include <cpp-utils/data/Data.h>
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#include <tuple>
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using ::testing::WithParamInterface;
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using ::testing::Values;
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using ::testing::Combine;
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using std::tuple;
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using std::get;
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using std::function;
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using std::mem_fn;
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using cpputils::dynamic_pointer_move;
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using blobstore::onblocks::datanodestore::DataLeafNode;
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using blobstore::onblocks::datanodestore::DataInnerNode;
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using blobstore::onblocks::datanodestore::DataNode;
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using blobstore::onblocks::datanodestore::DataNodeLayout;
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using blobstore::onblocks::datatreestore::DataTree;
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using blobstore::onblocks::utils::ceilDivision;
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using blockstore::BlockId;
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using cpputils::Data;
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using boost::none;
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using cpputils::unique_ref;
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class DataTreeTest_ResizeNumBytes: public DataTreeTest {
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public:
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static constexpr DataNodeLayout LAYOUT = DataNodeLayout(BLOCKSIZE_BYTES);
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unique_ref<DataTree> CreateTree(unique_ref<DataNode> root) {
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BlockId blockId = root->blockId();
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cpputils::destruct(std::move(root));
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return treeStore.load(blockId).value();
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}
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unique_ref<DataTree> CreateLeafTreeWithSize(uint32_t size) {
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return CreateTree(CreateLeafWithSize(size));
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}
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unique_ref<DataTree> CreateTwoLeafTreeWithSecondLeafSize(uint32_t size) {
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return CreateTree(CreateTwoLeafWithSecondLeafSize(size));
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}
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unique_ref<DataTree> CreateFullTwoLevelTreeWithLastLeafSize(uint32_t size) {
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return CreateTree(CreateFullTwoLevelWithLastLeafSize(size));
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}
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unique_ref<DataTree> CreateThreeLevelTreeWithTwoChildrenAndLastLeafSize(uint32_t size) {
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return CreateTree(CreateThreeLevelWithTwoChildrenAndLastLeafSize(size));
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}
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unique_ref<DataTree> CreateThreeLevelTreeWithThreeChildrenAndLastLeafSize(uint32_t size) {
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return CreateTree(CreateThreeLevelWithThreeChildrenAndLastLeafSize(size));
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}
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unique_ref<DataTree> CreateFullThreeLevelTreeWithLastLeafSize(uint32_t size) {
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return CreateTree(CreateFullThreeLevelWithLastLeafSize(size));
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}
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unique_ref<DataTree> CreateFourLevelMinDataTreeWithLastLeafSize(uint32_t size) {
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return CreateTree(CreateFourLevelMinDataWithLastLeafSize(size));
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}
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// NOLINTNEXTLINE(misc-no-recursion)
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void EXPECT_IS_LEFTMAXDATA_TREE(const BlockId &blockId) {
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auto root = nodeStore->load(blockId).value();
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DataInnerNode *inner = dynamic_cast<DataInnerNode*>(root.get());
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if (inner != nullptr) {
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for (uint32_t i = 0; i < inner->numChildren()-1; ++i) {
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EXPECT_IS_MAXDATA_TREE(inner->readChild(i).blockId());
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}
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EXPECT_IS_LEFTMAXDATA_TREE(inner->readLastChild().blockId());
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}
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}
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// NOLINTNEXTLINE(misc-no-recursion)
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void EXPECT_IS_MAXDATA_TREE(const BlockId &blockId) {
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auto root = nodeStore->load(blockId).value();
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DataInnerNode *inner = dynamic_cast<DataInnerNode*>(root.get());
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if (inner != nullptr) {
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for (uint32_t i = 0; i < inner->numChildren(); ++i) {
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EXPECT_IS_MAXDATA_TREE(inner->readChild(i).blockId());
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}
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} else {
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DataLeafNode *leaf = dynamic_cast<DataLeafNode*>(root.get());
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EXPECT_EQ(nodeStore->layout().maxBytesPerLeaf(), leaf->numBytes());
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}
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}
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};
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constexpr DataNodeLayout DataTreeTest_ResizeNumBytes::LAYOUT;
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class DataTreeTest_ResizeNumBytes_P: public DataTreeTest_ResizeNumBytes, public WithParamInterface<tuple<function<unique_ref<DataTree>(DataTreeTest_ResizeNumBytes*, uint32_t)>, uint32_t, uint32_t, uint32_t>> {
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public:
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DataTreeTest_ResizeNumBytes_P()
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: oldLastLeafSize(get<1>(GetParam())),
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tree(get<0>(GetParam())(this, oldLastLeafSize)),
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newNumberOfLeaves(get<2>(GetParam())),
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newLastLeafSize(get<3>(GetParam())),
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newSize((newNumberOfLeaves-1) * LAYOUT.maxBytesPerLeaf() + newLastLeafSize),
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ZEROES(LAYOUT.maxBytesPerLeaf())
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{
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ZEROES.FillWithZeroes();
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}
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void ResizeTree(const BlockId &blockId, uint64_t size) {
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treeStore.load(blockId).get()->resizeNumBytes(size);
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}
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// NOLINTNEXTLINE(misc-no-recursion)
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unique_ref<DataLeafNode> LastLeaf(const BlockId &blockId) {
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auto root = nodeStore->load(blockId).value();
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auto leaf = dynamic_pointer_move<DataLeafNode>(root);
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if (leaf != none) {
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return std::move(*leaf);
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}
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auto inner = dynamic_pointer_move<DataInnerNode>(root).value();
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return LastLeaf(inner->readLastChild().blockId());
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}
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uint32_t oldLastLeafSize;
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unique_ref<DataTree> tree;
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uint32_t newNumberOfLeaves;
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uint32_t newLastLeafSize;
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uint64_t newSize;
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Data ZEROES;
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};
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INSTANTIATE_TEST_SUITE_P(DataTreeTest_ResizeNumBytes_P, DataTreeTest_ResizeNumBytes_P,
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Combine(
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//Tree we're starting with
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Values<function<unique_ref<DataTree>(DataTreeTest_ResizeNumBytes*, uint32_t)>>(
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mem_fn(&DataTreeTest_ResizeNumBytes::CreateLeafTreeWithSize),
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mem_fn(&DataTreeTest_ResizeNumBytes::CreateTwoLeafTreeWithSecondLeafSize),
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mem_fn(&DataTreeTest_ResizeNumBytes::CreateFullTwoLevelTreeWithLastLeafSize),
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mem_fn(&DataTreeTest_ResizeNumBytes::CreateThreeLevelTreeWithTwoChildrenAndLastLeafSize),
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mem_fn(&DataTreeTest_ResizeNumBytes::CreateThreeLevelTreeWithThreeChildrenAndLastLeafSize),
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mem_fn(&DataTreeTest_ResizeNumBytes::CreateFullThreeLevelTreeWithLastLeafSize),
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mem_fn(&DataTreeTest_ResizeNumBytes::CreateFourLevelMinDataTreeWithLastLeafSize)
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),
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//Last leaf size of the start tree
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Values(
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0u,
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1u,
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10u,
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DataTreeTest_ResizeNumBytes::LAYOUT.maxBytesPerLeaf()
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),
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//Number of leaves we're resizing to
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Values(
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1u,
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2u,
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DataTreeTest_ResizeNumBytes::LAYOUT.maxChildrenPerInnerNode(), //Full two level tree
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2* DataTreeTest_ResizeNumBytes::LAYOUT.maxChildrenPerInnerNode(), //Three level tree with two children
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3* DataTreeTest_ResizeNumBytes::LAYOUT.maxChildrenPerInnerNode(), //Three level tree with three children
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DataTreeTest_ResizeNumBytes::LAYOUT.maxChildrenPerInnerNode() * DataTreeTest_ResizeNumBytes::LAYOUT.maxChildrenPerInnerNode(), //Full three level tree
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DataTreeTest_ResizeNumBytes::LAYOUT.maxChildrenPerInnerNode() * DataTreeTest_ResizeNumBytes::LAYOUT.maxChildrenPerInnerNode() + 1 //Four level mindata tree
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),
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//Last leaf size of the resized tree
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Values(
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1u,
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10u,
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DataTreeTest_ResizeNumBytes::LAYOUT.maxBytesPerLeaf()
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)
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)
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);
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TEST_P(DataTreeTest_ResizeNumBytes_P, StructureIsValid) {
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tree->resizeNumBytes(newSize);
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tree->flush();
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EXPECT_IS_LEFTMAXDATA_TREE(tree->blockId());
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}
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TEST_P(DataTreeTest_ResizeNumBytes_P, NumBytesIsCorrect) {
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tree->resizeNumBytes(newSize);
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tree->flush();
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// tree->numBytes() only goes down the right border nodes and expects the tree to be a left max data tree.
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// This is what the StructureIsValid test case is for.
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EXPECT_EQ(newSize, tree->numBytes());
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}
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TEST_P(DataTreeTest_ResizeNumBytes_P, NumLeavesIsCorrect) {
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tree->resizeNumBytes(newSize);
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tree->flush();
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// tree->numLeaves() only goes down the right border nodes and expects the tree to be a left max data tree.
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// This is what the StructureIsValid test case is for.
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EXPECT_EQ(newNumberOfLeaves, tree->forceComputeNumLeaves());
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}
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TEST_P(DataTreeTest_ResizeNumBytes_P, NumLeavesIsCorrect_FromCache) {
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tree->numLeaves(); // fill cache with old value
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tree->resizeNumBytes(newSize);
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tree->flush();
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// tree->numLeaves() only goes down the right border nodes and expects the tree to be a left max data tree.
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// This is what the StructureIsValid test case is for.
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EXPECT_EQ(newNumberOfLeaves, tree->numLeaves());
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}
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TEST_P(DataTreeTest_ResizeNumBytes_P, DepthFlagsAreCorrect) {
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tree->resizeNumBytes(newSize);
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tree->flush();
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uint32_t depth = ceil(log(newNumberOfLeaves)/log(DataTreeTest_ResizeNumBytes::LAYOUT.maxChildrenPerInnerNode()) - 0.00000000001); // The subtraction takes care of double inaccuracies if newNumberOfLeaves == maxChildrenPerInnerNode
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CHECK_DEPTH(depth, tree->blockId());
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}
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TEST_P(DataTreeTest_ResizeNumBytes_P, KeyDoesntChange) {
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BlockId blockId = tree->blockId();
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tree->flush();
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tree->resizeNumBytes(newSize);
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EXPECT_EQ(blockId, tree->blockId());
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}
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TEST_P(DataTreeTest_ResizeNumBytes_P, DataStaysIntact) {
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uint32_t oldNumberOfLeaves = std::max(UINT64_C(1), ceilDivision(tree->numBytes(), static_cast<uint64_t>(nodeStore->layout().maxBytesPerLeaf())));
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TwoLevelDataFixture data(nodeStore, TwoLevelDataFixture::SizePolicy::Unchanged);
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BlockId blockId = tree->blockId();
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cpputils::destruct(std::move(tree));
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data.FillInto(nodeStore->load(blockId).get().get());
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ResizeTree(blockId, newSize);
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if (oldNumberOfLeaves < newNumberOfLeaves || (oldNumberOfLeaves == newNumberOfLeaves && oldLastLeafSize < newLastLeafSize)) {
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data.EXPECT_DATA_CORRECT(nodeStore->load(blockId).get().get(), oldNumberOfLeaves, oldLastLeafSize);
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} else {
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data.EXPECT_DATA_CORRECT(nodeStore->load(blockId).get().get(), newNumberOfLeaves, newLastLeafSize);
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}
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}
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TEST_P(DataTreeTest_ResizeNumBytes_P, UnneededBlocksGetDeletedWhenShrinking) {
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tree->resizeNumBytes(newSize);
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tree->flush();
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uint64_t expectedNumNodes = 1; // 1 for the root node
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uint64_t nodesOnCurrentLevel = newNumberOfLeaves;
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while (nodesOnCurrentLevel > 1) {
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expectedNumNodes += nodesOnCurrentLevel;
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nodesOnCurrentLevel = ceilDivision(nodesOnCurrentLevel, nodeStore->layout().maxChildrenPerInnerNode());
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}
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EXPECT_EQ(expectedNumNodes, nodeStore->numNodes());
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}
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//Resize to zero is not caught in the parametrized test above, in the following, we test it separately.
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TEST_F(DataTreeTest_ResizeNumBytes, ResizeToZero_NumBytesIsCorrect) {
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auto tree = CreateThreeLevelTreeWithThreeChildrenAndLastLeafSize(10u);
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tree->resizeNumBytes(0);
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BlockId blockId = tree->blockId();
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cpputils::destruct(std::move(tree));
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auto leaf = LoadLeafNode(blockId);
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EXPECT_EQ(0u, leaf->numBytes());
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}
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TEST_F(DataTreeTest_ResizeNumBytes, ResizeToZero_blockIdDoesntChange) {
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auto tree = CreateThreeLevelTreeWithThreeChildrenAndLastLeafSize(10u);
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BlockId blockId = tree->blockId();
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tree->resizeNumBytes(0);
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tree->flush();
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EXPECT_EQ(blockId, tree->blockId());
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}
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TEST_F(DataTreeTest_ResizeNumBytes, ResizeToZero_UnneededBlocksGetDeletedWhenShrinking) {
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auto tree = CreateThreeLevelTreeWithThreeChildrenAndLastLeafSize(10u);
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tree->resizeNumBytes(0);
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tree->flush();
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EXPECT_EQ(1u, nodeStore->numNodes());
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}
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