btree: rename Tree.t into t.degree
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@ -13,7 +13,7 @@ type Tree struct {
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// Node is a Node of a Btree
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type Node struct {
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numberOfKeys int // The number of keys really stored
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t int // The value of t dependes upon disk blok size
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degree int // The value of degree dependes upon disk blok size
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isLeaf bool
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keys []int
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children []*Node
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@ -30,14 +30,14 @@ func NewBtree(t int) *Tree {
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}
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}
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func newNode(t int, isLeaf bool) *Node {
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func newNode(degree int, isLeaf bool) *Node {
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return &Node{
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numberOfKeys: 0,
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t: t,
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degree: degree,
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isLeaf: isLeaf,
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keys: make([]int, 2*t-1),
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children: make([]*Node, 2*t),
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keys: make([]int, 2*degree-1),
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children: make([]*Node, 2*degree),
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}
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}
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@ -164,7 +164,7 @@ func (n *Node) search(k int) *Node {
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}
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func (n *Node) isFull() bool {
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return n.numberOfKeys == 2*n.t-1
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return n.numberOfKeys == 2*n.degree-1
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}
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func (n *Node) insertNonFull(k int) {
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@ -212,24 +212,24 @@ func (n *Node) insertNonFull(k int) {
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func (n *Node) splitChild(i int, y *Node) {
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// Create a new node that will store (t-1) keys of y
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z := newNode(y.t, y.isLeaf)
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z.numberOfKeys = n.t - 1
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z := newNode(y.degree, y.isLeaf)
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z.numberOfKeys = n.degree - 1
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// Copy the last (t-1) keys of y to z
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for j := 0; j < n.t-1; j++ {
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z.keys[j] = y.keys[j+n.t]
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for j := 0; j < n.degree-1; j++ {
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z.keys[j] = y.keys[j+n.degree]
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if !y.isLeaf {
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z.children[j] = y.children[j+n.t]
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z.children[j] = y.children[j+n.degree]
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}
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}
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// Copy the last t children of y to z
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if !y.isLeaf {
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z.children[n.t-1] = y.children[2*n.t-1]
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z.children[n.degree-1] = y.children[2*n.degree-1]
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}
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// Reduce the number of keys in y
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y.numberOfKeys = n.t - 1
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y.numberOfKeys = n.degree - 1
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// Since this node is going to have a new child, create space for it
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for j := n.numberOfKeys; j >= i+1; j-- {
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@ -246,7 +246,7 @@ func (n *Node) splitChild(i int, y *Node) {
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}
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// Copy the middle key of y to this node
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n.keys[i] = y.keys[n.t-1]
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n.keys[i] = y.keys[n.degree-1]
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// Increment the count of keys in this node
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n.numberOfKeys++
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@ -286,7 +286,7 @@ func (n *Node) remove(k int) error {
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}
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// If the child where is the key has less than t keys, wi fill it
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if n.children[index].numberOfKeys < n.t {
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if n.children[index].numberOfKeys < n.degree {
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n.fill(index)
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}
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@ -320,7 +320,7 @@ func (n *Node) removeFromNonLeaf(index int) error {
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// If the child that precedes k has at least t keys,
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// find the predecessor of k in the subtree and replace k with it
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// Recursively delete the predecessor in the child
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if n.children[index].numberOfKeys >= n.t {
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if n.children[index].numberOfKeys >= n.degree {
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pred := n.getPred(index)
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n.keys[index] = pred
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return n.children[index].remove(pred)
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@ -329,7 +329,7 @@ func (n *Node) removeFromNonLeaf(index int) error {
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// If the child has less than t keys, examine children[index+1]
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// If it has at least t keys, find the successor of k in this subtree
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// Replace k by its successor and recursively delete the successor in the subtree
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if n.children[index+1].numberOfKeys >= n.t {
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if n.children[index+1].numberOfKeys >= n.degree {
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succ := n.getSucc(index)
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n.keys[index] = succ
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return n.children[index+1].remove(succ)
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@ -371,13 +371,13 @@ func (n *Node) getSucc(index int) int {
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func (n *Node) fill(index int) {
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// If the previous child has more than t-1 keys, borrow a key from that child
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if index != 0 && n.children[index-1].numberOfKeys >= n.t {
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if index != 0 && n.children[index-1].numberOfKeys >= n.degree {
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n.borrowFromPrev(index)
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return
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}
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// If the next child has more than t-1 keys, borrow a key from that child
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if index != n.numberOfKeys && n.children[index+1].numberOfKeys >= n.t {
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if index != n.numberOfKeys && n.children[index+1].numberOfKeys >= n.degree {
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n.borrowFromNext(index)
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return
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}
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@ -466,19 +466,19 @@ func (n *Node) merge(index int) {
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sibling := n.children[index+1]
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// Pulls a key from the current node ande insert it into the (t-1)th position
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child.keys[n.t-1] = n.keys[index]
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child.keys[n.degree-1] = n.keys[index]
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// Copies the keys from children[index+1] to children[index] at the end
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for i := 0; i < sibling.numberOfKeys; i++ {
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child.keys[i+n.t] = sibling.keys[i]
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child.keys[i+n.degree] = sibling.keys[i]
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if !child.isLeaf {
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child.children[i+n.t] = sibling.children[i]
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child.children[i+n.degree] = sibling.children[i]
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}
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}
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// Copies the child pointers from C[index+1] to children[index]
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if !child.isLeaf {
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child.children[sibling.numberOfKeys+n.t] = sibling.children[sibling.numberOfKeys]
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child.children[sibling.numberOfKeys+n.degree] = sibling.children[sibling.numberOfKeys]
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}
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// Moves all keys after index in the current node one step before
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