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ansible-role-version/vendor/github.com/emirpasic/gods/trees/btree/btree_test.go

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// Copyright (c) 2015, Emir Pasic. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package btree
import (
"fmt"
"testing"
)
func TestBTreeGet1(t *testing.T) {
tree := NewWithIntComparator(3)
tree.Put(1, "a")
tree.Put(2, "b")
tree.Put(3, "c")
tree.Put(4, "d")
tree.Put(5, "e")
tree.Put(6, "f")
tree.Put(7, "g")
tests := [][]interface{}{
{0, nil, false},
{1, "a", true},
{2, "b", true},
{3, "c", true},
{4, "d", true},
{5, "e", true},
{6, "f", true},
{7, "g", true},
{8, nil, false},
}
for _, test := range tests {
if value, found := tree.Get(test[0]); value != test[1] || found != test[2] {
t.Errorf("Got %v,%v expected %v,%v", value, found, test[1], test[2])
}
}
}
func TestBTreeGet2(t *testing.T) {
tree := NewWithIntComparator(3)
tree.Put(7, "g")
tree.Put(9, "i")
tree.Put(10, "j")
tree.Put(6, "f")
tree.Put(3, "c")
tree.Put(4, "d")
tree.Put(5, "e")
tree.Put(8, "h")
tree.Put(2, "b")
tree.Put(1, "a")
tests := [][]interface{}{
{0, nil, false},
{1, "a", true},
{2, "b", true},
{3, "c", true},
{4, "d", true},
{5, "e", true},
{6, "f", true},
{7, "g", true},
{8, "h", true},
{9, "i", true},
{10, "j", true},
{11, nil, false},
}
for _, test := range tests {
if value, found := tree.Get(test[0]); value != test[1] || found != test[2] {
t.Errorf("Got %v,%v expected %v,%v", value, found, test[1], test[2])
}
}
}
func TestBTreePut1(t *testing.T) {
// https://upload.wikimedia.org/wikipedia/commons/3/33/B_tree_insertion_example.png
tree := NewWithIntComparator(3)
assertValidTree(t, tree, 0)
tree.Put(1, 0)
assertValidTree(t, tree, 1)
assertValidTreeNode(t, tree.Root, 1, 0, []int{1}, false)
tree.Put(2, 1)
assertValidTree(t, tree, 2)
assertValidTreeNode(t, tree.Root, 2, 0, []int{1, 2}, false)
tree.Put(3, 2)
assertValidTree(t, tree, 3)
assertValidTreeNode(t, tree.Root, 1, 2, []int{2}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{1}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{3}, true)
tree.Put(4, 2)
assertValidTree(t, tree, 4)
assertValidTreeNode(t, tree.Root, 1, 2, []int{2}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{1}, true)
assertValidTreeNode(t, tree.Root.Children[1], 2, 0, []int{3, 4}, true)
tree.Put(5, 2)
assertValidTree(t, tree, 5)
assertValidTreeNode(t, tree.Root, 2, 3, []int{2, 4}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{1}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{3}, true)
assertValidTreeNode(t, tree.Root.Children[2], 1, 0, []int{5}, true)
tree.Put(6, 2)
assertValidTree(t, tree, 6)
assertValidTreeNode(t, tree.Root, 2, 3, []int{2, 4}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{1}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{3}, true)
assertValidTreeNode(t, tree.Root.Children[2], 2, 0, []int{5, 6}, true)
tree.Put(7, 2)
assertValidTree(t, tree, 7)
assertValidTreeNode(t, tree.Root, 1, 2, []int{4}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 2, []int{2}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 2, []int{6}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[0], 1, 0, []int{1}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[1], 1, 0, []int{3}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[0], 1, 0, []int{5}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[1], 1, 0, []int{7}, true)
}
func TestBTreePut2(t *testing.T) {
tree := NewWithIntComparator(4)
assertValidTree(t, tree, 0)
tree.Put(0, 0)
assertValidTree(t, tree, 1)
assertValidTreeNode(t, tree.Root, 1, 0, []int{0}, false)
tree.Put(2, 2)
assertValidTree(t, tree, 2)
assertValidTreeNode(t, tree.Root, 2, 0, []int{0, 2}, false)
tree.Put(1, 1)
assertValidTree(t, tree, 3)
assertValidTreeNode(t, tree.Root, 3, 0, []int{0, 1, 2}, false)
tree.Put(1, 1)
assertValidTree(t, tree, 3)
assertValidTreeNode(t, tree.Root, 3, 0, []int{0, 1, 2}, false)
tree.Put(3, 3)
assertValidTree(t, tree, 4)
assertValidTreeNode(t, tree.Root, 1, 2, []int{1}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{0}, true)
assertValidTreeNode(t, tree.Root.Children[1], 2, 0, []int{2, 3}, true)
tree.Put(4, 4)
assertValidTree(t, tree, 5)
assertValidTreeNode(t, tree.Root, 1, 2, []int{1}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{0}, true)
assertValidTreeNode(t, tree.Root.Children[1], 3, 0, []int{2, 3, 4}, true)
tree.Put(5, 5)
assertValidTree(t, tree, 6)
assertValidTreeNode(t, tree.Root, 2, 3, []int{1, 3}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{0}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{2}, true)
assertValidTreeNode(t, tree.Root.Children[2], 2, 0, []int{4, 5}, true)
}
func TestBTreePut3(t *testing.T) {
// http://www.geeksforgeeks.org/b-tree-set-1-insert-2/
tree := NewWithIntComparator(6)
assertValidTree(t, tree, 0)
tree.Put(10, 0)
assertValidTree(t, tree, 1)
assertValidTreeNode(t, tree.Root, 1, 0, []int{10}, false)
tree.Put(20, 1)
assertValidTree(t, tree, 2)
assertValidTreeNode(t, tree.Root, 2, 0, []int{10, 20}, false)
tree.Put(30, 2)
assertValidTree(t, tree, 3)
assertValidTreeNode(t, tree.Root, 3, 0, []int{10, 20, 30}, false)
tree.Put(40, 3)
assertValidTree(t, tree, 4)
assertValidTreeNode(t, tree.Root, 4, 0, []int{10, 20, 30, 40}, false)
tree.Put(50, 4)
assertValidTree(t, tree, 5)
assertValidTreeNode(t, tree.Root, 5, 0, []int{10, 20, 30, 40, 50}, false)
tree.Put(60, 5)
assertValidTree(t, tree, 6)
assertValidTreeNode(t, tree.Root, 1, 2, []int{30}, false)
assertValidTreeNode(t, tree.Root.Children[0], 2, 0, []int{10, 20}, true)
assertValidTreeNode(t, tree.Root.Children[1], 3, 0, []int{40, 50, 60}, true)
tree.Put(70, 6)
assertValidTree(t, tree, 7)
assertValidTreeNode(t, tree.Root, 1, 2, []int{30}, false)
assertValidTreeNode(t, tree.Root.Children[0], 2, 0, []int{10, 20}, true)
assertValidTreeNode(t, tree.Root.Children[1], 4, 0, []int{40, 50, 60, 70}, true)
tree.Put(80, 7)
assertValidTree(t, tree, 8)
assertValidTreeNode(t, tree.Root, 1, 2, []int{30}, false)
assertValidTreeNode(t, tree.Root.Children[0], 2, 0, []int{10, 20}, true)
assertValidTreeNode(t, tree.Root.Children[1], 5, 0, []int{40, 50, 60, 70, 80}, true)
tree.Put(90, 8)
assertValidTree(t, tree, 9)
assertValidTreeNode(t, tree.Root, 2, 3, []int{30, 60}, false)
assertValidTreeNode(t, tree.Root.Children[0], 2, 0, []int{10, 20}, true)
assertValidTreeNode(t, tree.Root.Children[1], 2, 0, []int{40, 50}, true)
assertValidTreeNode(t, tree.Root.Children[2], 3, 0, []int{70, 80, 90}, true)
}
func TestBTreePut4(t *testing.T) {
tree := NewWithIntComparator(3)
assertValidTree(t, tree, 0)
tree.Put(6, nil)
assertValidTree(t, tree, 1)
assertValidTreeNode(t, tree.Root, 1, 0, []int{6}, false)
tree.Put(5, nil)
assertValidTree(t, tree, 2)
assertValidTreeNode(t, tree.Root, 2, 0, []int{5, 6}, false)
tree.Put(4, nil)
assertValidTree(t, tree, 3)
assertValidTreeNode(t, tree.Root, 1, 2, []int{5}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{4}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{6}, true)
tree.Put(3, nil)
assertValidTree(t, tree, 4)
assertValidTreeNode(t, tree.Root, 1, 2, []int{5}, false)
assertValidTreeNode(t, tree.Root.Children[0], 2, 0, []int{3, 4}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{6}, true)
tree.Put(2, nil)
assertValidTree(t, tree, 5)
assertValidTreeNode(t, tree.Root, 2, 3, []int{3, 5}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{2}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{4}, true)
assertValidTreeNode(t, tree.Root.Children[2], 1, 0, []int{6}, true)
tree.Put(1, nil)
assertValidTree(t, tree, 6)
assertValidTreeNode(t, tree.Root, 2, 3, []int{3, 5}, false)
assertValidTreeNode(t, tree.Root.Children[0], 2, 0, []int{1, 2}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{4}, true)
assertValidTreeNode(t, tree.Root.Children[2], 1, 0, []int{6}, true)
tree.Put(0, nil)
assertValidTree(t, tree, 7)
assertValidTreeNode(t, tree.Root, 1, 2, []int{3}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 2, []int{1}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 2, []int{5}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[0], 1, 0, []int{0}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[1], 1, 0, []int{2}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[0], 1, 0, []int{4}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[1], 1, 0, []int{6}, true)
tree.Put(-1, nil)
assertValidTree(t, tree, 8)
assertValidTreeNode(t, tree.Root, 1, 2, []int{3}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 2, []int{1}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 2, []int{5}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[0], 2, 0, []int{-1, 0}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[1], 1, 0, []int{2}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[0], 1, 0, []int{4}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[1], 1, 0, []int{6}, true)
tree.Put(-2, nil)
assertValidTree(t, tree, 9)
assertValidTreeNode(t, tree.Root, 1, 2, []int{3}, false)
assertValidTreeNode(t, tree.Root.Children[0], 2, 3, []int{-1, 1}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 2, []int{5}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[0], 1, 0, []int{-2}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[1], 1, 0, []int{0}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[2], 1, 0, []int{2}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[0], 1, 0, []int{4}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[1], 1, 0, []int{6}, true)
tree.Put(-3, nil)
assertValidTree(t, tree, 10)
assertValidTreeNode(t, tree.Root, 1, 2, []int{3}, false)
assertValidTreeNode(t, tree.Root.Children[0], 2, 3, []int{-1, 1}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 2, []int{5}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[0], 2, 0, []int{-3, -2}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[1], 1, 0, []int{0}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[2], 1, 0, []int{2}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[0], 1, 0, []int{4}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[1], 1, 0, []int{6}, true)
tree.Put(-4, nil)
assertValidTree(t, tree, 11)
assertValidTreeNode(t, tree.Root, 2, 3, []int{-1, 3}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 2, []int{-3}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 2, []int{1}, true)
assertValidTreeNode(t, tree.Root.Children[2], 1, 2, []int{5}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[0], 1, 0, []int{-4}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[1], 1, 0, []int{-2}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[0], 1, 0, []int{0}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[1], 1, 0, []int{2}, true)
assertValidTreeNode(t, tree.Root.Children[2].Children[0], 1, 0, []int{4}, true)
assertValidTreeNode(t, tree.Root.Children[2].Children[1], 1, 0, []int{6}, true)
}
func TestBTreeRemove1(t *testing.T) {
// empty
tree := NewWithIntComparator(3)
tree.Remove(1)
assertValidTree(t, tree, 0)
}
func TestBTreeRemove2(t *testing.T) {
// leaf node (no underflow)
tree := NewWithIntComparator(3)
tree.Put(1, nil)
tree.Put(2, nil)
tree.Remove(1)
assertValidTree(t, tree, 1)
assertValidTreeNode(t, tree.Root, 1, 0, []int{2}, false)
tree.Remove(2)
assertValidTree(t, tree, 0)
}
func TestBTreeRemove3(t *testing.T) {
// merge with right (underflow)
{
tree := NewWithIntComparator(3)
tree.Put(1, nil)
tree.Put(2, nil)
tree.Put(3, nil)
tree.Remove(1)
assertValidTree(t, tree, 2)
assertValidTreeNode(t, tree.Root, 2, 0, []int{2, 3}, false)
}
// merge with left (underflow)
{
tree := NewWithIntComparator(3)
tree.Put(1, nil)
tree.Put(2, nil)
tree.Put(3, nil)
tree.Remove(3)
assertValidTree(t, tree, 2)
assertValidTreeNode(t, tree.Root, 2, 0, []int{1, 2}, false)
}
}
func TestBTreeRemove4(t *testing.T) {
// rotate left (underflow)
tree := NewWithIntComparator(3)
tree.Put(1, nil)
tree.Put(2, nil)
tree.Put(3, nil)
tree.Put(4, nil)
assertValidTree(t, tree, 4)
assertValidTreeNode(t, tree.Root, 1, 2, []int{2}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{1}, true)
assertValidTreeNode(t, tree.Root.Children[1], 2, 0, []int{3, 4}, true)
tree.Remove(1)
assertValidTree(t, tree, 3)
assertValidTreeNode(t, tree.Root, 1, 2, []int{3}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{2}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{4}, true)
}
func TestBTreeRemove5(t *testing.T) {
// rotate right (underflow)
tree := NewWithIntComparator(3)
tree.Put(1, nil)
tree.Put(2, nil)
tree.Put(3, nil)
tree.Put(0, nil)
assertValidTree(t, tree, 4)
assertValidTreeNode(t, tree.Root, 1, 2, []int{2}, false)
assertValidTreeNode(t, tree.Root.Children[0], 2, 0, []int{0, 1}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{3}, true)
tree.Remove(3)
assertValidTree(t, tree, 3)
assertValidTreeNode(t, tree.Root, 1, 2, []int{1}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{0}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{2}, true)
}
func TestBTreeRemove6(t *testing.T) {
// root height reduction after a series of underflows on right side
// use simulator: https://www.cs.usfca.edu/~galles/visualization/BTree.html
tree := NewWithIntComparator(3)
tree.Put(1, nil)
tree.Put(2, nil)
tree.Put(3, nil)
tree.Put(4, nil)
tree.Put(5, nil)
tree.Put(6, nil)
tree.Put(7, nil)
assertValidTree(t, tree, 7)
assertValidTreeNode(t, tree.Root, 1, 2, []int{4}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 2, []int{2}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 2, []int{6}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[0], 1, 0, []int{1}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[1], 1, 0, []int{3}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[0], 1, 0, []int{5}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[1], 1, 0, []int{7}, true)
tree.Remove(7)
assertValidTree(t, tree, 6)
assertValidTreeNode(t, tree.Root, 2, 3, []int{2, 4}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{1}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{3}, true)
assertValidTreeNode(t, tree.Root.Children[2], 2, 0, []int{5, 6}, true)
}
func TestBTreeRemove7(t *testing.T) {
// root height reduction after a series of underflows on left side
// use simulator: https://www.cs.usfca.edu/~galles/visualization/BTree.html
tree := NewWithIntComparator(3)
tree.Put(1, nil)
tree.Put(2, nil)
tree.Put(3, nil)
tree.Put(4, nil)
tree.Put(5, nil)
tree.Put(6, nil)
tree.Put(7, nil)
assertValidTree(t, tree, 7)
assertValidTreeNode(t, tree.Root, 1, 2, []int{4}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 2, []int{2}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 2, []int{6}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[0], 1, 0, []int{1}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[1], 1, 0, []int{3}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[0], 1, 0, []int{5}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[1], 1, 0, []int{7}, true)
tree.Remove(1) // series of underflows
assertValidTree(t, tree, 6)
assertValidTreeNode(t, tree.Root, 2, 3, []int{4, 6}, false)
assertValidTreeNode(t, tree.Root.Children[0], 2, 0, []int{2, 3}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{5}, true)
assertValidTreeNode(t, tree.Root.Children[2], 1, 0, []int{7}, true)
// clear all remaining
tree.Remove(2)
assertValidTree(t, tree, 5)
assertValidTreeNode(t, tree.Root, 2, 3, []int{4, 6}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{3}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{5}, true)
assertValidTreeNode(t, tree.Root.Children[2], 1, 0, []int{7}, true)
tree.Remove(3)
assertValidTree(t, tree, 4)
assertValidTreeNode(t, tree.Root, 1, 2, []int{6}, false)
assertValidTreeNode(t, tree.Root.Children[0], 2, 0, []int{4, 5}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{7}, true)
tree.Remove(4)
assertValidTree(t, tree, 3)
assertValidTreeNode(t, tree.Root, 1, 2, []int{6}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 0, []int{5}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 0, []int{7}, true)
tree.Remove(5)
assertValidTree(t, tree, 2)
assertValidTreeNode(t, tree.Root, 2, 0, []int{6, 7}, false)
tree.Remove(6)
assertValidTree(t, tree, 1)
assertValidTreeNode(t, tree.Root, 1, 0, []int{7}, false)
tree.Remove(7)
assertValidTree(t, tree, 0)
}
func TestBTreeRemove8(t *testing.T) {
// use simulator: https://www.cs.usfca.edu/~galles/visualization/BTree.html
tree := NewWithIntComparator(3)
tree.Put(1, nil)
tree.Put(2, nil)
tree.Put(3, nil)
tree.Put(4, nil)
tree.Put(5, nil)
tree.Put(6, nil)
tree.Put(7, nil)
tree.Put(8, nil)
tree.Put(9, nil)
assertValidTree(t, tree, 9)
assertValidTreeNode(t, tree.Root, 1, 2, []int{4}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 2, []int{2}, true)
assertValidTreeNode(t, tree.Root.Children[1], 2, 3, []int{6, 8}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[0], 1, 0, []int{1}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[1], 1, 0, []int{3}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[0], 1, 0, []int{5}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[1], 1, 0, []int{7}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[2], 1, 0, []int{9}, true)
tree.Remove(1)
assertValidTree(t, tree, 8)
assertValidTreeNode(t, tree.Root, 1, 2, []int{6}, false)
assertValidTreeNode(t, tree.Root.Children[0], 1, 2, []int{4}, true)
assertValidTreeNode(t, tree.Root.Children[1], 1, 2, []int{8}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[0], 2, 0, []int{2, 3}, true)
assertValidTreeNode(t, tree.Root.Children[0].Children[1], 1, 0, []int{5}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[0], 1, 0, []int{7}, true)
assertValidTreeNode(t, tree.Root.Children[1].Children[1], 1, 0, []int{9}, true)
}
func TestBTreeRemove9(t *testing.T) {
const max = 1000
orders := []int{3, 4, 5, 6, 7, 8, 9, 10, 20, 100, 500, 1000, 5000, 10000}
for _, order := range orders {
tree := NewWithIntComparator(order)
{
for i := 1; i <= max; i++ {
tree.Put(i, i)
}
assertValidTree(t, tree, max)
for i := 1; i <= max; i++ {
if _, found := tree.Get(i); !found {
t.Errorf("Not found %v", i)
}
}
for i := 1; i <= max; i++ {
tree.Remove(i)
}
assertValidTree(t, tree, 0)
}
{
for i := max; i > 0; i-- {
tree.Put(i, i)
}
assertValidTree(t, tree, max)
for i := max; i > 0; i-- {
if _, found := tree.Get(i); !found {
t.Errorf("Not found %v", i)
}
}
for i := max; i > 0; i-- {
tree.Remove(i)
}
assertValidTree(t, tree, 0)
}
}
}
func TestBTreeHeight(t *testing.T) {
tree := NewWithIntComparator(3)
if actualValue, expectedValue := tree.Height(), 0; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
tree.Put(1, 0)
if actualValue, expectedValue := tree.Height(), 1; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
tree.Put(2, 1)
if actualValue, expectedValue := tree.Height(), 1; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
tree.Put(3, 2)
if actualValue, expectedValue := tree.Height(), 2; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
tree.Put(4, 2)
if actualValue, expectedValue := tree.Height(), 2; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
tree.Put(5, 2)
if actualValue, expectedValue := tree.Height(), 2; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
tree.Put(6, 2)
if actualValue, expectedValue := tree.Height(), 2; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
tree.Put(7, 2)
if actualValue, expectedValue := tree.Height(), 3; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
tree.Remove(1)
tree.Remove(2)
tree.Remove(3)
tree.Remove(4)
tree.Remove(5)
tree.Remove(6)
tree.Remove(7)
if actualValue, expectedValue := tree.Height(), 0; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
}
func TestBTreeLeftAndRight(t *testing.T) {
tree := NewWithIntComparator(3)
if actualValue := tree.Left(); actualValue != nil {
t.Errorf("Got %v expected %v", actualValue, nil)
}
if actualValue := tree.Right(); actualValue != nil {
t.Errorf("Got %v expected %v", actualValue, nil)
}
tree.Put(1, "a")
tree.Put(5, "e")
tree.Put(6, "f")
tree.Put(7, "g")
tree.Put(3, "c")
tree.Put(4, "d")
tree.Put(1, "x") // overwrite
tree.Put(2, "b")
if actualValue, expectedValue := tree.LeftKey(), 1; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
if actualValue, expectedValue := tree.LeftValue(), "x"; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
if actualValue, expectedValue := tree.RightKey(), 7; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
if actualValue, expectedValue := tree.RightValue(), "g"; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
}
func TestBTreeIteratorValuesAndKeys(t *testing.T) {
tree := NewWithIntComparator(4)
tree.Put(4, "d")
tree.Put(5, "e")
tree.Put(6, "f")
tree.Put(3, "c")
tree.Put(1, "a")
tree.Put(7, "g")
tree.Put(2, "b")
tree.Put(1, "x") // override
if actualValue, expectedValue := fmt.Sprintf("%d%d%d%d%d%d%d", tree.Keys()...), "1234567"; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
if actualValue, expectedValue := fmt.Sprintf("%s%s%s%s%s%s%s", tree.Values()...), "xbcdefg"; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
if actualValue := tree.Size(); actualValue != 7 {
t.Errorf("Got %v expected %v", actualValue, 7)
}
}
func TestBTreeIteratorNextOnEmpty(t *testing.T) {
tree := NewWithIntComparator(3)
it := tree.Iterator()
for it.Next() {
t.Errorf("Shouldn't iterate on empty tree")
}
}
func TestBTreeIteratorPrevOnEmpty(t *testing.T) {
tree := NewWithIntComparator(3)
it := tree.Iterator()
for it.Prev() {
t.Errorf("Shouldn't iterate on empty tree")
}
}
func TestBTreeIterator1Next(t *testing.T) {
tree := NewWithIntComparator(3)
tree.Put(5, "e")
tree.Put(6, "f")
tree.Put(7, "g")
tree.Put(3, "c")
tree.Put(4, "d")
tree.Put(1, "x")
tree.Put(2, "b")
tree.Put(1, "a") //overwrite
it := tree.Iterator()
count := 0
for it.Next() {
count++
key := it.Key()
switch key {
case count:
if actualValue, expectedValue := key, count; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
default:
if actualValue, expectedValue := key, count; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
}
}
if actualValue, expectedValue := count, tree.Size(); actualValue != expectedValue {
t.Errorf("Size different. Got %v expected %v", actualValue, expectedValue)
}
}
func TestBTreeIterator1Prev(t *testing.T) {
tree := NewWithIntComparator(3)
tree.Put(5, "e")
tree.Put(6, "f")
tree.Put(7, "g")
tree.Put(3, "c")
tree.Put(4, "d")
tree.Put(1, "x")
tree.Put(2, "b")
tree.Put(1, "a") //overwrite
it := tree.Iterator()
for it.Next() {
}
countDown := tree.size
for it.Prev() {
key := it.Key()
switch key {
case countDown:
if actualValue, expectedValue := key, countDown; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
default:
if actualValue, expectedValue := key, countDown; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
}
countDown--
}
if actualValue, expectedValue := countDown, 0; actualValue != expectedValue {
t.Errorf("Size different. Got %v expected %v", actualValue, expectedValue)
}
}
func TestBTreeIterator2Next(t *testing.T) {
tree := NewWithIntComparator(3)
tree.Put(3, "c")
tree.Put(1, "a")
tree.Put(2, "b")
it := tree.Iterator()
count := 0
for it.Next() {
count++
key := it.Key()
switch key {
case count:
if actualValue, expectedValue := key, count; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
default:
if actualValue, expectedValue := key, count; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
}
}
if actualValue, expectedValue := count, tree.Size(); actualValue != expectedValue {
t.Errorf("Size different. Got %v expected %v", actualValue, expectedValue)
}
}
func TestBTreeIterator2Prev(t *testing.T) {
tree := NewWithIntComparator(3)
tree.Put(3, "c")
tree.Put(1, "a")
tree.Put(2, "b")
it := tree.Iterator()
for it.Next() {
}
countDown := tree.size
for it.Prev() {
key := it.Key()
switch key {
case countDown:
if actualValue, expectedValue := key, countDown; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
default:
if actualValue, expectedValue := key, countDown; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
}
countDown--
}
if actualValue, expectedValue := countDown, 0; actualValue != expectedValue {
t.Errorf("Size different. Got %v expected %v", actualValue, expectedValue)
}
}
func TestBTreeIterator3Next(t *testing.T) {
tree := NewWithIntComparator(3)
tree.Put(1, "a")
it := tree.Iterator()
count := 0
for it.Next() {
count++
key := it.Key()
switch key {
case count:
if actualValue, expectedValue := key, count; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
default:
if actualValue, expectedValue := key, count; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
}
}
if actualValue, expectedValue := count, tree.Size(); actualValue != expectedValue {
t.Errorf("Size different. Got %v expected %v", actualValue, expectedValue)
}
}
func TestBTreeIterator3Prev(t *testing.T) {
tree := NewWithIntComparator(3)
tree.Put(1, "a")
it := tree.Iterator()
for it.Next() {
}
countDown := tree.size
for it.Prev() {
key := it.Key()
switch key {
case countDown:
if actualValue, expectedValue := key, countDown; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
default:
if actualValue, expectedValue := key, countDown; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
}
countDown--
}
if actualValue, expectedValue := countDown, 0; actualValue != expectedValue {
t.Errorf("Size different. Got %v expected %v", actualValue, expectedValue)
}
}
func TestBTreeIterator4Next(t *testing.T) {
tree := NewWithIntComparator(3)
tree.Put(13, 5)
tree.Put(8, 3)
tree.Put(17, 7)
tree.Put(1, 1)
tree.Put(11, 4)
tree.Put(15, 6)
tree.Put(25, 9)
tree.Put(6, 2)
tree.Put(22, 8)
tree.Put(27, 10)
it := tree.Iterator()
count := 0
for it.Next() {
count++
value := it.Value()
switch value {
case count:
if actualValue, expectedValue := value, count; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
default:
if actualValue, expectedValue := value, count; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
}
}
if actualValue, expectedValue := count, tree.Size(); actualValue != expectedValue {
t.Errorf("Size different. Got %v expected %v", actualValue, expectedValue)
}
}
func TestBTreeIterator4Prev(t *testing.T) {
tree := NewWithIntComparator(3)
tree.Put(13, 5)
tree.Put(8, 3)
tree.Put(17, 7)
tree.Put(1, 1)
tree.Put(11, 4)
tree.Put(15, 6)
tree.Put(25, 9)
tree.Put(6, 2)
tree.Put(22, 8)
tree.Put(27, 10)
it := tree.Iterator()
count := tree.Size()
for it.Next() {
}
for it.Prev() {
value := it.Value()
switch value {
case count:
if actualValue, expectedValue := value, count; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
default:
if actualValue, expectedValue := value, count; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
}
count--
}
if actualValue, expectedValue := count, 0; actualValue != expectedValue {
t.Errorf("Size different. Got %v expected %v", actualValue, expectedValue)
}
}
func TestBTreeIteratorBegin(t *testing.T) {
tree := NewWithIntComparator(3)
tree.Put(3, "c")
tree.Put(1, "a")
tree.Put(2, "b")
it := tree.Iterator()
if it.node != nil {
t.Errorf("Got %v expected %v", it.node, nil)
}
it.Begin()
if it.node != nil {
t.Errorf("Got %v expected %v", it.node, nil)
}
for it.Next() {
}
it.Begin()
if it.node != nil {
t.Errorf("Got %v expected %v", it.node, nil)
}
it.Next()
if key, value := it.Key(), it.Value(); key != 1 || value != "a" {
t.Errorf("Got %v,%v expected %v,%v", key, value, 1, "a")
}
}
func TestBTreeIteratorEnd(t *testing.T) {
tree := NewWithIntComparator(3)
it := tree.Iterator()
if it.node != nil {
t.Errorf("Got %v expected %v", it.node, nil)
}
it.End()
if it.node != nil {
t.Errorf("Got %v expected %v", it.node, nil)
}
tree.Put(3, "c")
tree.Put(1, "a")
tree.Put(2, "b")
it.End()
if it.node != nil {
t.Errorf("Got %v expected %v", it.node, nil)
}
it.Prev()
if key, value := it.Key(), it.Value(); key != 3 || value != "c" {
t.Errorf("Got %v,%v expected %v,%v", key, value, 3, "c")
}
}
func TestBTreeIteratorFirst(t *testing.T) {
tree := NewWithIntComparator(3)
tree.Put(3, "c")
tree.Put(1, "a")
tree.Put(2, "b")
it := tree.Iterator()
if actualValue, expectedValue := it.First(), true; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
if key, value := it.Key(), it.Value(); key != 1 || value != "a" {
t.Errorf("Got %v,%v expected %v,%v", key, value, 1, "a")
}
}
func TestBTreeIteratorLast(t *testing.T) {
tree := NewWithIntComparator(3)
tree.Put(3, "c")
tree.Put(1, "a")
tree.Put(2, "b")
it := tree.Iterator()
if actualValue, expectedValue := it.Last(), true; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
if key, value := it.Key(), it.Value(); key != 3 || value != "c" {
t.Errorf("Got %v,%v expected %v,%v", key, value, 3, "c")
}
}
func TestBTree_search(t *testing.T) {
{
tree := NewWithIntComparator(3)
tree.Root = &Node{Entries: []*Entry{}, Children: make([]*Node, 0)}
tests := [][]interface{}{
{0, 0, false},
}
for _, test := range tests {
index, found := tree.search(tree.Root, test[0])
if actualValue, expectedValue := index, test[1]; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
if actualValue, expectedValue := found, test[2]; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
}
}
{
tree := NewWithIntComparator(3)
tree.Root = &Node{Entries: []*Entry{{2, 0}, {4, 1}, {6, 2}}, Children: []*Node{}}
tests := [][]interface{}{
{0, 0, false},
{1, 0, false},
{2, 0, true},
{3, 1, false},
{4, 1, true},
{5, 2, false},
{6, 2, true},
{7, 3, false},
}
for _, test := range tests {
index, found := tree.search(tree.Root, test[0])
if actualValue, expectedValue := index, test[1]; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
if actualValue, expectedValue := found, test[2]; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
}
}
}
func assertValidTree(t *testing.T, tree *Tree, expectedSize int) {
if actualValue, expectedValue := tree.size, expectedSize; actualValue != expectedValue {
t.Errorf("Got %v expected %v for tree size", actualValue, expectedValue)
}
}
func assertValidTreeNode(t *testing.T, node *Node, expectedEntries int, expectedChildren int, keys []int, hasParent bool) {
if actualValue, expectedValue := node.Parent != nil, hasParent; actualValue != expectedValue {
t.Errorf("Got %v expected %v for hasParent", actualValue, expectedValue)
}
if actualValue, expectedValue := len(node.Entries), expectedEntries; actualValue != expectedValue {
t.Errorf("Got %v expected %v for entries size", actualValue, expectedValue)
}
if actualValue, expectedValue := len(node.Children), expectedChildren; actualValue != expectedValue {
t.Errorf("Got %v expected %v for children size", actualValue, expectedValue)
}
for i, key := range keys {
if actualValue, expectedValue := node.Entries[i].Key, key; actualValue != expectedValue {
t.Errorf("Got %v expected %v for key", actualValue, expectedValue)
}
}
}
func TestBTreeSerialization(t *testing.T) {
tree := NewWithStringComparator(3)
tree.Put("c", "3")
tree.Put("b", "2")
tree.Put("a", "1")
var err error
assert := func() {
if actualValue, expectedValue := tree.Size(), 3; actualValue != expectedValue {
t.Errorf("Got %v expected %v", actualValue, expectedValue)
}
if actualValue := tree.Keys(); actualValue[0].(string) != "a" || actualValue[1].(string) != "b" || actualValue[2].(string) != "c" {
t.Errorf("Got %v expected %v", actualValue, "[a,b,c]")
}
if actualValue := tree.Values(); actualValue[0].(string) != "1" || actualValue[1].(string) != "2" || actualValue[2].(string) != "3" {
t.Errorf("Got %v expected %v", actualValue, "[1,2,3]")
}
if err != nil {
t.Errorf("Got error %v", err)
}
}
assert()
json, err := tree.ToJSON()
assert()
err = tree.FromJSON(json)
assert()
}
func benchmarkGet(b *testing.B, tree *Tree, size int) {
for i := 0; i < b.N; i++ {
for n := 0; n < size; n++ {
tree.Get(n)
}
}
}
func benchmarkPut(b *testing.B, tree *Tree, size int) {
for i := 0; i < b.N; i++ {
for n := 0; n < size; n++ {
tree.Put(n, struct{}{})
}
}
}
func benchmarkRemove(b *testing.B, tree *Tree, size int) {
for i := 0; i < b.N; i++ {
for n := 0; n < size; n++ {
tree.Remove(n)
}
}
}
func BenchmarkBTreeGet100(b *testing.B) {
b.StopTimer()
size := 100
tree := NewWithIntComparator(128)
for n := 0; n < size; n++ {
tree.Put(n, struct{}{})
}
b.StartTimer()
benchmarkGet(b, tree, size)
}
func BenchmarkBTreeGet1000(b *testing.B) {
b.StopTimer()
size := 1000
tree := NewWithIntComparator(128)
for n := 0; n < size; n++ {
tree.Put(n, struct{}{})
}
b.StartTimer()
benchmarkGet(b, tree, size)
}
func BenchmarkBTreeGet10000(b *testing.B) {
b.StopTimer()
size := 10000
tree := NewWithIntComparator(128)
for n := 0; n < size; n++ {
tree.Put(n, struct{}{})
}
b.StartTimer()
benchmarkGet(b, tree, size)
}
func BenchmarkBTreeGet100000(b *testing.B) {
b.StopTimer()
size := 100000
tree := NewWithIntComparator(128)
for n := 0; n < size; n++ {
tree.Put(n, struct{}{})
}
b.StartTimer()
benchmarkGet(b, tree, size)
}
func BenchmarkBTreePut100(b *testing.B) {
b.StopTimer()
size := 100
tree := NewWithIntComparator(128)
b.StartTimer()
benchmarkPut(b, tree, size)
}
func BenchmarkBTreePut1000(b *testing.B) {
b.StopTimer()
size := 1000
tree := NewWithIntComparator(128)
for n := 0; n < size; n++ {
tree.Put(n, struct{}{})
}
b.StartTimer()
benchmarkPut(b, tree, size)
}
func BenchmarkBTreePut10000(b *testing.B) {
b.StopTimer()
size := 10000
tree := NewWithIntComparator(128)
for n := 0; n < size; n++ {
tree.Put(n, struct{}{})
}
b.StartTimer()
benchmarkPut(b, tree, size)
}
func BenchmarkBTreePut100000(b *testing.B) {
b.StopTimer()
size := 100000
tree := NewWithIntComparator(128)
for n := 0; n < size; n++ {
tree.Put(n, struct{}{})
}
b.StartTimer()
benchmarkPut(b, tree, size)
}
func BenchmarkBTreeRemove100(b *testing.B) {
b.StopTimer()
size := 100
tree := NewWithIntComparator(128)
for n := 0; n < size; n++ {
tree.Put(n, struct{}{})
}
b.StartTimer()
benchmarkRemove(b, tree, size)
}
func BenchmarkBTreeRemove1000(b *testing.B) {
b.StopTimer()
size := 1000
tree := NewWithIntComparator(128)
for n := 0; n < size; n++ {
tree.Put(n, struct{}{})
}
b.StartTimer()
benchmarkRemove(b, tree, size)
}
func BenchmarkBTreeRemove10000(b *testing.B) {
b.StopTimer()
size := 10000
tree := NewWithIntComparator(128)
for n := 0; n < size; n++ {
tree.Put(n, struct{}{})
}
b.StartTimer()
benchmarkRemove(b, tree, size)
}
func BenchmarkBTreeRemove100000(b *testing.B) {
b.StopTimer()
size := 100000
tree := NewWithIntComparator(128)
for n := 0; n < size; n++ {
tree.Put(n, struct{}{})
}
b.StartTimer()
benchmarkRemove(b, tree, size)
}