mirror of https://github.com/aria2/aria2
Use std::unique_ptr for DHTBucketTree's left and right pointers
Tatsuhiro Tsujikawa
parent
e18e8aeeaa
commit
f55c16c7ed
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@ -179,7 +179,7 @@ bool DHTBucket::splitAllowed() const
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return prefixLength_ < DHT_ID_LENGTH*8-1 && isInRange(localNode_);
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}
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std::shared_ptr<DHTBucket> DHTBucket::split()
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std::unique_ptr<DHTBucket> DHTBucket::split()
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{
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assert(splitAllowed());
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@ -192,10 +192,9 @@ std::shared_ptr<DHTBucket> DHTBucket::split()
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bitfield::flipBit(min_, DHT_ID_LENGTH, prefixLength_);
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++prefixLength_;
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auto rBucket = std::make_shared<DHTBucket>(prefixLength_, rMax, rMin,
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localNode_);
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auto rBucket = make_unique<DHTBucket>(prefixLength_, rMax, rMin, localNode_);
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std::deque<std::shared_ptr<DHTNode> > lNodes;
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std::deque<std::shared_ptr<DHTNode>> lNodes;
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for(auto & elem : nodes_) {
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if(rBucket->isInRange(elem)) {
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assert(rBucket->addNode(elem));
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@ -86,7 +86,7 @@ public:
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void getRandomNodeID(unsigned char* nodeID) const;
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std::shared_ptr<DHTBucket> split();
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std::unique_ptr<DHTBucket> split();
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bool isInRange(const std::shared_ptr<DHTNode>& node) const;
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@ -39,34 +39,30 @@
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#include "DHTBucket.h"
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#include "DHTNode.h"
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#include "a2functional.h"
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namespace aria2 {
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DHTBucketTreeNode::DHTBucketTreeNode
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(DHTBucketTreeNode* left,
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DHTBucketTreeNode* right)
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(std::unique_ptr<DHTBucketTreeNode> left,
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std::unique_ptr<DHTBucketTreeNode> right)
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: parent_(nullptr),
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left_(left),
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right_(right)
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left_(std::move(left)),
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right_(std::move(right))
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{
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resetRelation();
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}
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DHTBucketTreeNode::DHTBucketTreeNode(const std::shared_ptr<DHTBucket>& bucket)
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DHTBucketTreeNode::DHTBucketTreeNode(std::shared_ptr<DHTBucket> bucket)
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: parent_(nullptr),
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left_(nullptr),
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right_(nullptr),
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bucket_(bucket)
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bucket_(std::move(bucket))
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{
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memcpy(minId_, bucket_->getMinID(), DHT_ID_LENGTH);
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memcpy(maxId_, bucket_->getMaxID(), DHT_ID_LENGTH);
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}
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DHTBucketTreeNode::~DHTBucketTreeNode()
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{
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delete left_;
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delete right_;
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}
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{}
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void DHTBucketTreeNode::resetRelation()
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{
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@ -82,9 +78,9 @@ DHTBucketTreeNode* DHTBucketTreeNode::dig(const unsigned char* key)
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return nullptr;
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}
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if(left_->isInRange(key)) {
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return left_;
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return left_.get();
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} else {
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return right_;
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return right_.get();
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}
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}
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@ -99,9 +95,8 @@ bool DHTBucketTreeNode::isInRange(const unsigned char* key) const
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void DHTBucketTreeNode::split()
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{
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std::shared_ptr<DHTBucket> leftBucket = bucket_->split();
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left_ = new DHTBucketTreeNode(leftBucket);
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right_ = new DHTBucketTreeNode(bucket_);
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left_ = make_unique<DHTBucketTreeNode>(bucket_->split());
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right_ = make_unique<DHTBucketTreeNode>(bucket_);
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bucket_.reset();
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resetRelation();
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}
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@ -53,9 +53,10 @@ class DHTNode;
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class DHTBucketTreeNode {
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public:
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// Ctor for internal node
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DHTBucketTreeNode(DHTBucketTreeNode* left, DHTBucketTreeNode* right);
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DHTBucketTreeNode(std::unique_ptr<DHTBucketTreeNode> left,
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std::unique_ptr<DHTBucketTreeNode> right);
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// Ctor for leaf node
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DHTBucketTreeNode(const std::shared_ptr<DHTBucket>& bucket);
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DHTBucketTreeNode(std::shared_ptr<DHTBucket> bucket);
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~DHTBucketTreeNode();
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// Returns child node, left or right, which contains key. If dig is
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// called against leaf node, then returns 0.
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@ -66,8 +67,8 @@ public:
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const unsigned char* getMaxId() const { return maxId_; }
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const unsigned char* getMinId() const { return minId_; }
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DHTBucketTreeNode* getParent() const { return parent_; }
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DHTBucketTreeNode* getLeft() const { return left_; }
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DHTBucketTreeNode* getRight() const { return right_; }
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DHTBucketTreeNode* getLeft() const { return left_.get(); }
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DHTBucketTreeNode* getRight() const { return right_.get(); }
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const std::shared_ptr<DHTBucket>& getBucket() const { return bucket_; }
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// Splits this object's bucket using DHTBucket::split() and create
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// left and right child node to hold buckets. The bucket of current
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@ -83,8 +84,8 @@ private:
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void resetRelation();
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void setParent(DHTBucketTreeNode* parent) { parent_ = parent; }
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DHTBucketTreeNode* parent_;
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DHTBucketTreeNode* left_;
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DHTBucketTreeNode* right_;
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std::unique_ptr<DHTBucketTreeNode> left_;
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std::unique_ptr<DHTBucketTreeNode> right_;
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std::shared_ptr<DHTBucket> bucket_;
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unsigned char minId_[DHT_ID_LENGTH];
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unsigned char maxId_[DHT_ID_LENGTH];
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@ -33,11 +33,11 @@ void DHTBucketTreeTest::testDig()
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unsigned char localNodeID[DHT_ID_LENGTH];
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memset(localNodeID, 0xff, DHT_ID_LENGTH);
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std::shared_ptr<DHTNode> localNode(new DHTNode(localNodeID));
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auto localNode = std::make_shared<DHTNode>(localNodeID);
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std::shared_ptr<DHTBucket> bucket1(new DHTBucket(localNode));
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std::shared_ptr<DHTBucket> bucket2 = bucket1->split();
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std::shared_ptr<DHTBucket> bucket3 = bucket1->split();
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auto bucket1 = std::make_shared<DHTBucket>(localNode);
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auto bucket2 = std::shared_ptr<DHTBucket>(bucket1->split());
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auto bucket3 = std::shared_ptr<DHTBucket>(bucket1->split());
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// Tree: number is prefix
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//
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// +
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@ -53,10 +53,9 @@ void DHTBucketTreeTest::testDig()
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CPPUNIT_ASSERT(!b.dig(localNode->getID()));
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}
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{
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DHTBucketTreeNode* left = new DHTBucketTreeNode(bucket3);
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DHTBucketTreeNode* right = new DHTBucketTreeNode(bucket1);
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DHTBucketTreeNode b(left, right);
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CPPUNIT_ASSERT(b.dig(localNode->getID()) == right);
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DHTBucketTreeNode b(make_unique<DHTBucketTreeNode>(bucket3),
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make_unique<DHTBucketTreeNode>(bucket1));
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CPPUNIT_ASSERT(b.dig(localNode->getID()) == b.getRight());
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}
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}
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@ -65,13 +64,13 @@ void DHTBucketTreeTest::testFindBucketFor()
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unsigned char localNodeID[DHT_ID_LENGTH];
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memset(localNodeID, 0xaa, DHT_ID_LENGTH);
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std::shared_ptr<DHTNode> localNode(new DHTNode(localNodeID));
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auto localNode = std::make_shared<DHTNode>(localNodeID);
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std::shared_ptr<DHTBucket> bucket1(new DHTBucket(localNode));
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std::shared_ptr<DHTBucket> bucket2 = bucket1->split();
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std::shared_ptr<DHTBucket> bucket3 = bucket1->split();
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std::shared_ptr<DHTBucket> bucket4 = bucket3->split();
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std::shared_ptr<DHTBucket> bucket5 = bucket3->split();
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auto bucket1 = std::make_shared<DHTBucket>(localNode);
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auto bucket2 = std::shared_ptr<DHTBucket>(bucket1->split());
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auto bucket3 = std::shared_ptr<DHTBucket>(bucket1->split());
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auto bucket4 = std::shared_ptr<DHTBucket>(bucket3->split());
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auto bucket5 = std::shared_ptr<DHTBucket>(bucket3->split());
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{
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DHTBucketTreeNode b(bucket5);
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@ -92,16 +91,16 @@ void DHTBucketTreeTest::testFindBucketFor()
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// 1010 1011
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// |
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// localNode is here
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DHTBucketTreeNode* b1 = new DHTBucketTreeNode(bucket1);
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DHTBucketTreeNode* b2 = new DHTBucketTreeNode(bucket2);
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DHTBucketTreeNode* b3 = new DHTBucketTreeNode(bucket3);
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DHTBucketTreeNode* b4 = new DHTBucketTreeNode(bucket4);
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DHTBucketTreeNode* b5 = new DHTBucketTreeNode(bucket5);
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auto b1 = make_unique<DHTBucketTreeNode>(bucket1);
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auto b2 = make_unique<DHTBucketTreeNode>(bucket2);
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auto b3 = make_unique<DHTBucketTreeNode>(bucket3);
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auto b4 = make_unique<DHTBucketTreeNode>(bucket4);
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auto b5 = make_unique<DHTBucketTreeNode>(bucket5);
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DHTBucketTreeNode* bp1 = new DHTBucketTreeNode(b5, b3);
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DHTBucketTreeNode* bp2 = new DHTBucketTreeNode(b4, bp1);
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DHTBucketTreeNode* bp3 = new DHTBucketTreeNode(bp2, b1);
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DHTBucketTreeNode bp4(b2, bp3);
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auto bp1 = make_unique<DHTBucketTreeNode>(std::move(b5), std::move(b3));
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auto bp2 = make_unique<DHTBucketTreeNode>(std::move(b4), std::move(bp1));
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auto bp3 = make_unique<DHTBucketTreeNode>(std::move(bp2), std::move(b1));
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DHTBucketTreeNode bp4(std::move(b2), std::move(bp3));
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CPPUNIT_ASSERT(*bucket5 == *dht::findBucketFor(&bp4, localNode->getID()));
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}
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@ -112,43 +111,43 @@ void DHTBucketTreeTest::testFindClosestKNodes()
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unsigned char localNodeID[DHT_ID_LENGTH];
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memset(localNodeID, 0xaa, DHT_ID_LENGTH);
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std::shared_ptr<DHTNode> localNode(new DHTNode(localNodeID));
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auto localNode = std::make_shared<DHTNode>(localNodeID);
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std::shared_ptr<DHTBucket> bucket1(new DHTBucket(localNode));
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std::shared_ptr<DHTBucket> bucket2 = bucket1->split();
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std::shared_ptr<DHTBucket> bucket3 = bucket1->split();
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std::shared_ptr<DHTBucket> bucket4 = bucket3->split();
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std::shared_ptr<DHTBucket> bucket5 = bucket3->split();
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auto bucket1 = std::make_shared<DHTBucket>(localNode);
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auto bucket2 = std::shared_ptr<DHTBucket>(bucket1->split());
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auto bucket3 = std::shared_ptr<DHTBucket>(bucket1->split());
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auto bucket4 = std::shared_ptr<DHTBucket>(bucket3->split());
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auto bucket5 = std::shared_ptr<DHTBucket>(bucket3->split());
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unsigned char id[DHT_ID_LENGTH];
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{
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DHTBucketTreeNode* b1 = new DHTBucketTreeNode(bucket1);
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DHTBucketTreeNode* b2 = new DHTBucketTreeNode(bucket2);
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DHTBucketTreeNode* b3 = new DHTBucketTreeNode(bucket3);
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DHTBucketTreeNode* b4 = new DHTBucketTreeNode(bucket4);
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DHTBucketTreeNode* b5 = new DHTBucketTreeNode(bucket5);
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auto b1 = make_unique<DHTBucketTreeNode>(bucket1);
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auto b2 = make_unique<DHTBucketTreeNode>(bucket2);
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auto b3 = make_unique<DHTBucketTreeNode>(bucket3);
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auto b4 = make_unique<DHTBucketTreeNode>(bucket4);
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auto b5 = make_unique<DHTBucketTreeNode>(bucket5);
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DHTBucketTreeNode* bp1 = new DHTBucketTreeNode(b5, b3);
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DHTBucketTreeNode* bp2 = new DHTBucketTreeNode(b4, bp1);
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DHTBucketTreeNode* bp3 = new DHTBucketTreeNode(bp2, b1);
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DHTBucketTreeNode bp4(b2, bp3);
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auto bp1 = make_unique<DHTBucketTreeNode>(std::move(b5), std::move(b3));
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auto bp2 = make_unique<DHTBucketTreeNode>(std::move(b4), std::move(bp1));
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auto bp3 = make_unique<DHTBucketTreeNode>(std::move(bp2), std::move(b1));
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DHTBucketTreeNode bp4(std::move(b2), std::move(bp3));
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for(size_t i = 0; i < 2; ++i) {
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bucket1->getRandomNodeID(id);
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bucket1->addNode(std::shared_ptr<DHTNode>(new DHTNode(id)));
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bucket1->addNode(std::make_shared<DHTNode>(id));
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bucket2->getRandomNodeID(id);
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bucket2->addNode(std::shared_ptr<DHTNode>(new DHTNode(id)));
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bucket2->addNode(std::make_shared<DHTNode>(id));
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bucket3->getRandomNodeID(id);
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bucket3->addNode(std::shared_ptr<DHTNode>(new DHTNode(id)));
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bucket3->addNode(std::make_shared<DHTNode>(id));
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bucket4->getRandomNodeID(id);
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bucket4->addNode(std::shared_ptr<DHTNode>(new DHTNode(id)));
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bucket4->addNode(std::make_shared<DHTNode>(id));
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bucket5->getRandomNodeID(id);
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bucket5->addNode(std::shared_ptr<DHTNode>(new DHTNode(id)));
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bucket5->addNode(std::make_shared<DHTNode>(id));
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}
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{
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unsigned char targetID[DHT_ID_LENGTH];
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memset(targetID, 0x80, DHT_ID_LENGTH);
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std::vector<std::shared_ptr<DHTNode> > nodes;
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std::vector<std::shared_ptr<DHTNode>> nodes;
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dht::findClosestKNodes(nodes, &bp4, targetID);
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CPPUNIT_ASSERT_EQUAL((size_t)8, nodes.size());
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CPPUNIT_ASSERT(bucket4->isInRange(nodes[0]));
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@ -163,7 +162,7 @@ void DHTBucketTreeTest::testFindClosestKNodes()
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{
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unsigned char targetID[DHT_ID_LENGTH];
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memset(targetID, 0xf0, DHT_ID_LENGTH);
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std::vector<std::shared_ptr<DHTNode> > nodes;
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std::vector<std::shared_ptr<DHTNode>> nodes;
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dht::findClosestKNodes(nodes, &bp4, targetID);
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CPPUNIT_ASSERT_EQUAL((size_t)8, nodes.size());
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CPPUNIT_ASSERT(bucket1->isInRange(nodes[0]));
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@ -178,11 +177,11 @@ void DHTBucketTreeTest::testFindClosestKNodes()
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{
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for(size_t i = 0; i < 6; ++i) {
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bucket4->getRandomNodeID(id);
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bucket4->addNode(std::shared_ptr<DHTNode>(new DHTNode(id)));
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bucket4->addNode(std::make_shared<DHTNode>(id));
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}
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unsigned char targetID[DHT_ID_LENGTH];
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memset(targetID, 0x80, DHT_ID_LENGTH);
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std::vector<std::shared_ptr<DHTNode> > nodes;
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std::vector<std::shared_ptr<DHTNode>> nodes;
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dht::findClosestKNodes(nodes, &bp4, targetID);
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CPPUNIT_ASSERT_EQUAL((size_t)8, nodes.size());
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for(size_t i = 0; i < DHTBucket::K; ++i) {
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@ -198,34 +197,34 @@ void DHTBucketTreeTest::testEnumerateBucket()
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unsigned char localNodeID[DHT_ID_LENGTH];
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memset(localNodeID, 0xaa, DHT_ID_LENGTH);
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std::shared_ptr<DHTNode> localNode(new DHTNode(localNodeID));
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auto localNode = std::make_shared<DHTNode>(localNodeID);
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std::shared_ptr<DHTBucket> bucket1(new DHTBucket(localNode));
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std::shared_ptr<DHTBucket> bucket2 = bucket1->split();
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std::shared_ptr<DHTBucket> bucket3 = bucket1->split();
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std::shared_ptr<DHTBucket> bucket4 = bucket3->split();
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std::shared_ptr<DHTBucket> bucket5 = bucket3->split();
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auto bucket1 = std::make_shared<DHTBucket>(localNode);
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auto bucket2 = std::shared_ptr<DHTBucket>(bucket1->split());
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auto bucket3 = std::shared_ptr<DHTBucket>(bucket1->split());
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auto bucket4 = std::shared_ptr<DHTBucket>(bucket3->split());
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auto bucket5 = std::shared_ptr<DHTBucket>(bucket3->split());
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{
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DHTBucketTreeNode b(bucket1);
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std::vector<std::shared_ptr<DHTBucket> > buckets;
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std::vector<std::shared_ptr<DHTBucket>> buckets;
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dht::enumerateBucket(buckets, &b);
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CPPUNIT_ASSERT_EQUAL((size_t)1, buckets.size());
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CPPUNIT_ASSERT(*bucket1 == *buckets[0]);
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}
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{
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DHTBucketTreeNode* b1 = new DHTBucketTreeNode(bucket1);
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DHTBucketTreeNode* b2 = new DHTBucketTreeNode(bucket2);
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DHTBucketTreeNode* b3 = new DHTBucketTreeNode(bucket3);
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DHTBucketTreeNode* b4 = new DHTBucketTreeNode(bucket4);
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DHTBucketTreeNode* b5 = new DHTBucketTreeNode(bucket5);
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auto b1 = make_unique<DHTBucketTreeNode>(bucket1);
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auto b2 = make_unique<DHTBucketTreeNode>(bucket2);
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auto b3 = make_unique<DHTBucketTreeNode>(bucket3);
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auto b4 = make_unique<DHTBucketTreeNode>(bucket4);
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auto b5 = make_unique<DHTBucketTreeNode>(bucket5);
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DHTBucketTreeNode* bp1 = new DHTBucketTreeNode(b5, b3);
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DHTBucketTreeNode* bp2 = new DHTBucketTreeNode(b4, bp1);
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DHTBucketTreeNode* bp3 = new DHTBucketTreeNode(bp2, b1);
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DHTBucketTreeNode bp4(b2, bp3);
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auto bp1 = make_unique<DHTBucketTreeNode>(std::move(b5), std::move(b3));
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auto bp2 = make_unique<DHTBucketTreeNode>(std::move(b4), std::move(bp1));
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auto bp3 = make_unique<DHTBucketTreeNode>(std::move(bp2), std::move(b1));
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DHTBucketTreeNode bp4(std::move(b2), std::move(bp3));
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std::vector<std::shared_ptr<DHTBucket> > buckets;
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std::vector<std::shared_ptr<DHTBucket>> buckets;
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dht::enumerateBucket(buckets, &bp4);
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CPPUNIT_ASSERT_EQUAL((size_t)5, buckets.size());
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CPPUNIT_ASSERT(*bucket2 == *buckets[0]);
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