tile38/vendor/github.com/tidwall/tinybtree/btree.go

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package tinybtree
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const maxItems = 255
const minItems = maxItems * 40 / 100
type item struct {
key string
value interface{}
}
type node struct {
numItems int
items [maxItems]item
children [maxItems + 1]*node
}
// BTree is an ordered set of key/value pairs where the key is a string
// and the value is an interface{}
type BTree struct {
height int
root *node
length int
}
func (n *node) find(key string) (index int, found bool) {
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low := 0
high := n.numItems - 1
for low <= high {
mid := low + ((high+1)-low)/2
if key >= n.items[mid].key {
low = mid + 1
} else {
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high = mid - 1
}
}
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if low > 0 && n.items[low-1].key == key {
index = low - 1
found = true
} else {
index = low
found = false
}
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return index, found
}
// Set or replace a value for a key
func (tr *BTree) Set(key string, value interface{}) (
prev interface{}, replaced bool,
) {
if tr.root == nil {
tr.root = new(node)
tr.root.items[0] = item{key, value}
tr.root.numItems = 1
tr.length = 1
return
}
prev, replaced = tr.root.set(key, value, tr.height)
if replaced {
return
}
if tr.root.numItems == maxItems {
n := tr.root
right, median := n.split(tr.height)
tr.root = new(node)
tr.root.children[0] = n
tr.root.items[0] = median
tr.root.children[1] = right
tr.root.numItems = 1
tr.height++
}
tr.length++
return
}
func (n *node) split(height int) (right *node, median item) {
right = new(node)
median = n.items[maxItems/2]
copy(right.items[:maxItems/2], n.items[maxItems/2+1:])
if height > 0 {
copy(right.children[:maxItems/2+1], n.children[maxItems/2+1:])
}
right.numItems = maxItems / 2
if height > 0 {
for i := maxItems/2 + 1; i < maxItems+1; i++ {
n.children[i] = nil
}
}
for i := maxItems / 2; i < maxItems; i++ {
n.items[i] = item{}
}
n.numItems = maxItems / 2
return
}
func (n *node) set(key string, value interface{}, height int) (
prev interface{}, replaced bool,
) {
i, found := n.find(key)
if found {
prev = n.items[i].value
n.items[i].value = value
return prev, true
}
if height == 0 {
for j := n.numItems; j > i; j-- {
n.items[j] = n.items[j-1]
}
n.items[i] = item{key, value}
n.numItems++
return nil, false
}
prev, replaced = n.children[i].set(key, value, height-1)
if replaced {
return
}
if n.children[i].numItems == maxItems {
right, median := n.children[i].split(height - 1)
copy(n.children[i+1:], n.children[i:])
copy(n.items[i+1:], n.items[i:])
n.items[i] = median
n.children[i+1] = right
n.numItems++
}
return
}
// Scan all items in tree
func (tr *BTree) Scan(iter func(key string, value interface{}) bool) {
if tr.root != nil {
tr.root.scan(iter, tr.height)
}
}
func (n *node) scan(
iter func(key string, value interface{}) bool, height int,
) bool {
if height == 0 {
for i := 0; i < n.numItems; i++ {
if !iter(n.items[i].key, n.items[i].value) {
return false
}
}
return true
}
for i := 0; i < n.numItems; i++ {
if !n.children[i].scan(iter, height-1) {
return false
}
if !iter(n.items[i].key, n.items[i].value) {
return false
}
}
return n.children[n.numItems].scan(iter, height-1)
}
// Get a value for key
func (tr *BTree) Get(key string) (value interface{}, gotten bool) {
if tr.root == nil {
return
}
return tr.root.get(key, tr.height)
}
func (n *node) get(key string, height int) (value interface{}, gotten bool) {
i, found := n.find(key)
if found {
return n.items[i].value, true
}
if height == 0 {
return nil, false
}
return n.children[i].get(key, height-1)
}
// Len returns the number of items in the tree
func (tr *BTree) Len() int {
return tr.length
}
// Delete a value for a key
func (tr *BTree) Delete(key string) (prev interface{}, deleted bool) {
if tr.root == nil {
return
}
var prevItem item
prevItem, deleted = tr.root.delete(false, key, tr.height)
if !deleted {
return
}
prev = prevItem.value
if tr.root.numItems == 0 {
tr.root = tr.root.children[0]
tr.height--
}
tr.length--
if tr.length == 0 {
tr.root = nil
tr.height = 0
}
return
}
func (n *node) delete(max bool, key string, height int) (
prev item, deleted bool,
) {
i, found := 0, false
if max {
i, found = n.numItems-1, true
} else {
i, found = n.find(key)
}
if height == 0 {
if found {
prev = n.items[i]
// found the items at the leaf, remove it and return.
copy(n.items[i:], n.items[i+1:n.numItems])
n.items[n.numItems-1] = item{}
n.children[n.numItems] = nil
n.numItems--
return prev, true
}
return item{}, false
}
if found {
if max {
i++
prev, deleted = n.children[i].delete(true, "", height-1)
} else {
prev = n.items[i]
maxItem, _ := n.children[i].delete(true, "", height-1)
n.items[i] = maxItem
deleted = true
}
} else {
prev, deleted = n.children[i].delete(max, key, height-1)
}
if !deleted {
return
}
if n.children[i].numItems < minItems {
if i == n.numItems {
i--
}
if n.children[i].numItems+n.children[i+1].numItems+1 < maxItems {
// merge left + item + right
n.children[i].items[n.children[i].numItems] = n.items[i]
copy(n.children[i].items[n.children[i].numItems+1:],
n.children[i+1].items[:n.children[i+1].numItems])
if height > 1 {
copy(n.children[i].children[n.children[i].numItems+1:],
n.children[i+1].children[:n.children[i+1].numItems+1])
}
n.children[i].numItems += n.children[i+1].numItems + 1
copy(n.items[i:], n.items[i+1:n.numItems])
copy(n.children[i+1:], n.children[i+2:n.numItems+1])
n.items[n.numItems] = item{}
n.children[n.numItems+1] = nil
n.numItems--
} else if n.children[i].numItems > n.children[i+1].numItems {
// move left -> right
copy(n.children[i+1].items[1:],
n.children[i+1].items[:n.children[i+1].numItems])
if height > 1 {
copy(n.children[i+1].children[1:],
n.children[i+1].children[:n.children[i+1].numItems+1])
}
n.children[i+1].items[0] = n.items[i]
if height > 1 {
n.children[i+1].children[0] =
n.children[i].children[n.children[i].numItems]
}
n.children[i+1].numItems++
n.items[i] = n.children[i].items[n.children[i].numItems-1]
n.children[i].items[n.children[i].numItems-1] = item{}
if height > 1 {
n.children[i].children[n.children[i].numItems] = nil
}
n.children[i].numItems--
} else {
// move right -> left
n.children[i].items[n.children[i].numItems] = n.items[i]
if height > 1 {
n.children[i].children[n.children[i].numItems+1] =
n.children[i+1].children[0]
}
n.children[i].numItems++
n.items[i] = n.children[i+1].items[0]
copy(n.children[i+1].items[:],
n.children[i+1].items[1:n.children[i+1].numItems])
if height > 1 {
copy(n.children[i+1].children[:],
n.children[i+1].children[1:n.children[i+1].numItems+1])
}
n.children[i+1].numItems--
}
}
return
}
// Ascend the tree within the range [pivot, last]
func (tr *BTree) Ascend(
pivot string,
iter func(key string, value interface{}) bool,
) {
if tr.root != nil {
tr.root.ascend(pivot, iter, tr.height)
}
}
func (n *node) ascend(
pivot string,
iter func(key string, value interface{}) bool,
height int,
) bool {
i, found := n.find(pivot)
if !found {
if height > 0 {
if !n.children[i].ascend(pivot, iter, height-1) {
return false
}
}
}
for ; i < n.numItems; i++ {
if !iter(n.items[i].key, n.items[i].value) {
return false
}
if height > 0 {
if !n.children[i+1].scan(iter, height-1) {
return false
}
}
}
return true
}
// Reverse all items in tree
func (tr *BTree) Reverse(iter func(key string, value interface{}) bool) {
if tr.root != nil {
tr.root.reverse(iter, tr.height)
}
}
func (n *node) reverse(
iter func(key string, value interface{}) bool, height int,
) bool {
if height == 0 {
for i := n.numItems - 1; i >= 0; i-- {
if !iter(n.items[i].key, n.items[i].value) {
return false
}
}
return true
}
if !n.children[n.numItems].reverse(iter, height-1) {
return false
}
for i := n.numItems - 1; i >= 0; i-- {
if !iter(n.items[i].key, n.items[i].value) {
return false
}
if !n.children[i].reverse(iter, height-1) {
return false
}
}
return true
}
// Descend the tree within the range [pivot, first]
func (tr *BTree) Descend(
pivot string,
iter func(key string, value interface{}) bool,
) {
if tr.root != nil {
tr.root.descend(pivot, iter, tr.height)
}
}
func (n *node) descend(
pivot string,
iter func(key string, value interface{}) bool,
height int,
) bool {
i, found := n.find(pivot)
if !found {
if height > 0 {
if !n.children[i].descend(pivot, iter, height-1) {
return false
}
}
i--
}
for ; i >= 0; i-- {
if !iter(n.items[i].key, n.items[i].value) {
return false
}
if height > 0 {
if !n.children[i].reverse(iter, height-1) {
return false
}
}
}
return true
}