gf/container/gtree/gtree_z_example_avltree_test.go
huangqian 8944635bf9 modify "May Output" to "Output"
modify fuinction name
2021-11-27 20:07:39 +08:00

742 lines
15 KiB
Go

// Copyright GoFrame Author(https://goframe.org). All Rights Reserved.
//
// This Source Code Form is subject to the terms of the MIT License.
// If a copy of the MIT was not distributed with gm file,
// You can obtain one at https://github.com/gogf/gf.
package gtree_test
import (
"fmt"
"github.com/gogf/gf/v2/container/gtree"
"github.com/gogf/gf/v2/internal/json"
"github.com/gogf/gf/v2/util/gconv"
"github.com/gogf/gf/v2/util/gutil"
)
func ExampleAVLTree_Clone() {
avl := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
avl.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
tree := avl.Clone()
fmt.Println(tree.Map())
fmt.Println(tree.Size())
// Output:
// map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5]
// 6
}
func ExampleAVLTree_Set() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.Map())
fmt.Println(tree.Size())
// Output:
// map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5]
// 6
}
func ExampleAVLTree_Sets() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
tree.Sets(map[interface{}]interface{}{
"key1": "val1",
"key2": "val2",
})
fmt.Println(tree.Map())
fmt.Println(tree.Size())
// Output:
// map[key1:val1 key2:val2]
// 2
}
func ExampleAVLTree_Get() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.Get("key1"))
fmt.Println(tree.Get("key10"))
// Output:
// val1
// <nil>
}
func ExampleAVLTree_GetOrSet() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.GetOrSet("key1", "newVal1"))
fmt.Println(tree.GetOrSet("key6", "val6"))
// Output:
// val1
// val6
}
func ExampleAVLTree_GetOrSetFunc() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.GetOrSetFunc("key1", func() interface{} {
return "newVal1"
}))
fmt.Println(tree.GetOrSetFunc("key6", func() interface{} {
return "val6"
}))
// Output:
// val1
// val6
}
func ExampleAVLTree_GetOrSetFuncLock() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.GetOrSetFuncLock("key1", func() interface{} {
return "newVal1"
}))
fmt.Println(tree.GetOrSetFuncLock("key6", func() interface{} {
return "val6"
}))
// Output:
// val1
// val6
}
func ExampleAVLTree_GetVar() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.GetVar("key1").String())
// Output:
// val1
}
func ExampleAVLTree_GetVarOrSet() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.GetVarOrSet("key1", "newVal1"))
fmt.Println(tree.GetVarOrSet("key6", "val6"))
// Output:
// val1
// val6
}
func ExampleAVLTree_GetVarOrSetFunc() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.GetVarOrSetFunc("key1", func() interface{} {
return "newVal1"
}))
fmt.Println(tree.GetVarOrSetFunc("key6", func() interface{} {
return "val6"
}))
// Output:
// val1
// val6
}
func ExampleAVLTree_GetVarOrSetFuncLock() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.GetVarOrSetFuncLock("key1", func() interface{} {
return "newVal1"
}))
fmt.Println(tree.GetVarOrSetFuncLock("key6", func() interface{} {
return "val6"
}))
// Output:
// val1
// val6
}
func ExampleAVLTree_SetIfNotExist() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.SetIfNotExist("key1", "newVal1"))
fmt.Println(tree.SetIfNotExist("key6", "val6"))
// Output:
// false
// true
}
func ExampleAVLTree_SetIfNotExistFunc() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.SetIfNotExistFunc("key1", func() interface{} {
return "newVal1"
}))
fmt.Println(tree.SetIfNotExistFunc("key6", func() interface{} {
return "val6"
}))
// Output:
// false
// true
}
func ExampleAVLTree_SetIfNotExistFuncLock() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.SetIfNotExistFuncLock("key1", func() interface{} {
return "newVal1"
}))
fmt.Println(tree.SetIfNotExistFuncLock("key6", func() interface{} {
return "val6"
}))
// Output:
// false
// true
}
func ExampleAVLTree_Contains() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.Contains("key1"))
fmt.Println(tree.Contains("key6"))
// Output:
// true
// false
}
func ExampleAVLTree_Remove() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.Remove("key1"))
fmt.Println(tree.Remove("key6"))
fmt.Println(tree.Map())
// Output:
// val1
// <nil>
// map[key0:val0 key2:val2 key3:val3 key4:val4 key5:val5]
}
func ExampleAVLTree_Removes() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
removeKeys := make([]interface{}, 2)
removeKeys = append(removeKeys, "key1")
removeKeys = append(removeKeys, "key6")
tree.Removes(removeKeys)
fmt.Println(tree.Map())
// Output:
// map[key0:val0 key2:val2 key3:val3 key4:val4 key5:val5]
}
func ExampleAVLTree_IsEmpty() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
fmt.Println(tree.IsEmpty())
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.IsEmpty())
// Output:
// true
// false
}
func ExampleAVLTree_Size() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
fmt.Println(tree.Size())
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.Size())
// Output:
// 0
// 6
}
func ExampleAVLTree_Keys() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 6; i > 0; i-- {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.Keys())
// Output:
// [key1 key2 key3 key4 key5 key6]
}
func ExampleAVLTree_Values() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 6; i > 0; i-- {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.Values())
// Output:
// [val1 val2 val3 val4 val5 val6]
}
func ExampleAVLTree_Map() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.Map())
// Output:
// map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5]
}
func ExampleAVLTree_MapStrAny() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set(1000+i, "val"+gconv.String(i))
}
fmt.Println(tree.MapStrAny())
// Output:
// map[1000:val0 1001:val1 1002:val2 1003:val3 1004:val4 1005:val5]
}
func ExampleAVLTree_Flip() {
tree := gtree.NewAVLTree(gutil.ComparatorInt)
for i := 1; i < 6; i++ {
tree.Set(i, i*10)
}
fmt.Println("Before Flip", tree.Map())
tree.Flip()
fmt.Println("After Flip", tree.Map())
// Output:
// Before Flip map[1:10 2:20 3:30 4:40 5:50]
// After Flip map[10:1 20:2 30:3 40:4 50:5]
}
func ExampleAVLTree_Clear() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set(1000+i, "val"+gconv.String(i))
}
fmt.Println(tree.Size())
tree.Clear()
fmt.Println(tree.Size())
// Output:
// 6
// 0
}
func ExampleAVLTree_Replace() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.Map())
data := map[interface{}]interface{}{
"newKey0": "newVal0",
"newKey1": "newVal1",
"newKey2": "newVal2",
}
tree.Replace(data)
fmt.Println(tree.Map())
// Output:
// map[key0:val0 key1:val1 key2:val2 key3:val3 key4:val4 key5:val5]
// map[newKey0:newVal0 newKey1:newVal1 newKey2:newVal2]
}
func ExampleAVLTree_Left() {
tree := gtree.NewAVLTree(gutil.ComparatorInt)
for i := 1; i < 100; i++ {
tree.Set(i, i)
}
fmt.Println(tree.Left().Key, tree.Left().Value)
emptyTree := gtree.NewAVLTree(gutil.ComparatorInt)
fmt.Println(emptyTree.Left())
// Output:
// 1 1
// <nil>
}
func ExampleAVLTree_Right() {
tree := gtree.NewAVLTree(gutil.ComparatorInt)
for i := 1; i < 100; i++ {
tree.Set(i, i)
}
fmt.Println(tree.Right().Key, tree.Right().Value)
emptyTree := gtree.NewAVLTree(gutil.ComparatorInt)
fmt.Println(emptyTree.Left())
// Output:
// 99 99
// <nil>
}
func ExampleAVLTree_Floor() {
tree := gtree.NewAVLTree(gutil.ComparatorInt)
for i := 1; i < 100; i++ {
if i != 50 {
tree.Set(i, i)
}
}
node, found := tree.Floor(95)
if found {
fmt.Println("Floor 95:", node.Key)
}
node, found = tree.Floor(50)
if found {
fmt.Println("Floor 50:", node.Key)
}
node, found = tree.Floor(100)
if found {
fmt.Println("Floor 100:", node.Key)
}
node, found = tree.Floor(0)
if found {
fmt.Println("Floor 0:", node.Key)
}
// Output:
// Floor 95: 95
// Floor 50: 49
// Floor 100: 99
}
func ExampleAVLTree_Ceiling() {
tree := gtree.NewAVLTree(gutil.ComparatorInt)
for i := 1; i < 100; i++ {
if i != 50 {
tree.Set(i, i)
}
}
node, found := tree.Ceiling(1)
if found {
fmt.Println("Ceiling 1:", node.Key)
}
node, found = tree.Ceiling(50)
if found {
fmt.Println("Ceiling 50:", node.Key)
}
node, found = tree.Ceiling(100)
if found {
fmt.Println("Ceiling 100:", node.Key)
}
node, found = tree.Ceiling(-1)
if found {
fmt.Println("Ceiling -1:", node.Key)
}
// Output:
// Ceiling 1: 1
// Ceiling 50: 51
// Ceiling -1: 1
}
func ExampleAVLTree_String() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.String())
// Output:
// │ ┌── key5
// │ ┌── key4
// └── key3
// │ ┌── key2
// └── key1
// └── key0
}
func ExampleAVLTree_Search() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
fmt.Println(tree.Search("key0"))
fmt.Println(tree.Search("key6"))
// Output:
// val0 true
// <nil> false
}
func ExampleAVLTree_Print() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
tree.Print()
// Output:
// │ ┌── key5
// │ ┌── key4
// └── key3
// │ ┌── key2
// └── key1
// └── key0
}
func ExampleAVLTree_Iterator() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 10; i++ {
tree.Set(i, 10-i)
}
var totalKey, totalValue int
tree.Iterator(func(key, value interface{}) bool {
totalKey += key.(int)
totalValue += value.(int)
return totalValue < 20
})
fmt.Println("totalKey:", totalKey)
fmt.Println("totalValue:", totalValue)
// Output:
// totalKey: 3
// totalValue: 27
}
func ExampleAVLTree_IteratorFrom() {
m := make(map[interface{}]interface{})
for i := 1; i <= 5; i++ {
m[i] = i * 10
}
tree := gtree.NewAVLTreeFrom(gutil.ComparatorInt, m)
tree.IteratorFrom(1, true, func(key, value interface{}) bool {
fmt.Println("key:", key, ", value:", value)
return true
})
// Output:
// key: 1 , value: 10
// key: 2 , value: 20
// key: 3 , value: 30
// key: 4 , value: 40
// key: 5 , value: 50
}
func ExampleAVLTree_IteratorAsc() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 10; i++ {
tree.Set(i, 10-i)
}
tree.IteratorAsc(func(key, value interface{}) bool {
fmt.Println("key:", key, ", value:", value)
return true
})
// Output:
// key: 0 , value: 10
// key: 1 , value: 9
// key: 2 , value: 8
// key: 3 , value: 7
// key: 4 , value: 6
// key: 5 , value: 5
// key: 6 , value: 4
// key: 7 , value: 3
// key: 8 , value: 2
// key: 9 , value: 1
}
func ExampleAVLTree_IteratorAscFrom_Normal() {
m := make(map[interface{}]interface{})
for i := 1; i <= 5; i++ {
m[i] = i * 10
}
tree := gtree.NewAVLTreeFrom(gutil.ComparatorInt, m)
tree.IteratorAscFrom(1, true, func(key, value interface{}) bool {
fmt.Println("key:", key, ", value:", value)
return true
})
// Output:
// key: 1 , value: 10
// key: 2 , value: 20
// key: 3 , value: 30
// key: 4 , value: 40
// key: 5 , value: 50
}
func ExampleAVLTree_IteratorAscFrom_NoExistKey() {
m := make(map[interface{}]interface{})
for i := 1; i <= 5; i++ {
m[i] = i * 10
}
tree := gtree.NewAVLTreeFrom(gutil.ComparatorInt, m)
tree.IteratorAscFrom(0, true, func(key, value interface{}) bool {
fmt.Println("key:", key, ", value:", value)
return true
})
// Output:
}
func ExampleAVLTree_IteratorAscFrom_NoExistKeyAndMatchFalse() {
m := make(map[interface{}]interface{})
for i := 1; i <= 5; i++ {
m[i] = i * 10
}
tree := gtree.NewAVLTreeFrom(gutil.ComparatorInt, m)
tree.IteratorAscFrom(6, false, func(key, value interface{}) bool {
fmt.Println("key:", key, ", value:", value)
return true
})
// Output:
}
func ExampleAVLTree_IteratorDesc() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 10; i++ {
tree.Set(i, 10-i)
}
tree.IteratorDesc(func(key, value interface{}) bool {
fmt.Println("key:", key, ", value:", value)
return true
})
// Output:
// key: 9 , value: 1
// key: 8 , value: 2
// key: 7 , value: 3
// key: 6 , value: 4
// key: 5 , value: 5
// key: 4 , value: 6
// key: 3 , value: 7
// key: 2 , value: 8
// key: 1 , value: 9
// key: 0 , value: 10
}
func ExampleAVLTree_IteratorDescFrom() {
m := make(map[interface{}]interface{})
for i := 1; i <= 5; i++ {
m[i] = i * 10
}
tree := gtree.NewAVLTreeFrom(gutil.ComparatorInt, m)
tree.IteratorDescFrom(5, true, func(key, value interface{}) bool {
fmt.Println("key:", key, ", value:", value)
return true
})
// Output:
// key: 5 , value: 50
// key: 4 , value: 40
// key: 3 , value: 30
// key: 2 , value: 20
// key: 1 , value: 10
}
func ExampleAVLTree_MarshalJSON() {
tree := gtree.NewAVLTree(gutil.ComparatorString)
for i := 0; i < 6; i++ {
tree.Set("key"+gconv.String(i), "val"+gconv.String(i))
}
bytes, err := json.Marshal(tree)
if err == nil {
fmt.Println(gconv.String(bytes))
}
// Output:
// {"key0":"val0","key1":"val1","key2":"val2","key3":"val3","key4":"val4","key5":"val5"}
}