排序算法、链表反转
2019-10-20 本文已影响0人
简单的破小孩儿
快速排序、冒泡排序、选择排序
链表反转
package main
import (
"fmt"
)
type Node struct {
Data int
Next *Node
}
type TreeNode struct {
Data int
Left *TreeNode
Right *TreeNode
}
/**中序遍历**/
func (tree *TreeNode) ViewMiddle() {
if tree.Left != nil {
tree.Left.ViewMiddle()
}
fmt.Println(tree.Data)
if tree.Right != nil {
tree.Right.ViewMiddle()
}
}
func (tree *TreeNode) ViewPrefix() {
fmt.Println(tree.Data)
if tree.Left != nil {
tree.Left.ViewMiddle()
}
if tree.Right != nil {
tree.Right.ViewMiddle()
}
}
func (tree *TreeNode) InsertNode(addNode *TreeNode) bool {
if addNode.Data > tree.Data {
if tree.Right != nil {
return tree.Right.InsertNode(addNode)
}
tree.Right = addNode
return true
}
if addNode.Data < tree.Data {
if tree.Left != nil {
return tree.Left.InsertNode(addNode)
}
tree.Left = addNode
return true
}
return false
}
func main() {
list := []int{2443, 6472, 36723, 3672, 7, 63, 455, 748347834, 535, 455, 12, 23, 987,
648764, 647364, 4628764, 648364, 6464, 8736, 132, 464, 535, 1}
//head := GenLinkList(list)
//head = ReverseLinkList2(head)
//PrintLinkList(head)
tree := GenTree(list)
tree.ViewPrefix()
fmt.Println(tree)
}
func GenTree(list []int) *TreeNode {
root := &TreeNode{
Data: list[0],
}
for _, data := range list[1:] {
root.InsertNode(&TreeNode{
Data: data,
})
}
return root
}
func ReverseLinkList2(headNode *Node) *Node {
curNode := headNode.Next
preNode := headNode
for {
if curNode.Next != nil {
nextCurNode := curNode.Next
curNode.Next = preNode
preNode = curNode
curNode = nextCurNode
} else {
curNode.Next = preNode
break
}
}
headNode.Next = nil
return curNode
}
/**翻转链表 - 递归**/
func ReverseLinkList(headNode *Node) *Node {
if headNode.Next == nil {
return headNode
}
nextNode := headNode.Next
newHead := ReverseLinkList(nextNode)
nextNode.Next = headNode
headNode.Next = nil
return newHead
}
/**链表生成**/
func GenLinkList(list []int) *Node {
headNode := &Node{
Data: list[0],
}
curNode := headNode
for i, data := range list {
if i > 0 {
curNode.Next = &Node{
Data: data,
}
curNode = curNode.Next
}
}
return headNode
}
func PrintLinkList(headNode *Node) {
for {
fmt.Println(headNode.Data)
if headNode.Next == nil {
break
}
headNode = headNode.Next
}
}
/**快速排序**/
func QuickSort(list []int, offsetStart, offsetEnd int) []int {
left := offsetStart
right := offsetEnd
start := list[offsetStart]
for offsetStart != offsetEnd {
for start <= list[offsetEnd] && offsetStart < offsetEnd {
offsetEnd--
}
for start >= list[offsetStart] && offsetStart < offsetEnd {
offsetStart++
}
if offsetStart < offsetEnd {
list[offsetStart], list[offsetEnd] = list[offsetEnd], list[offsetStart]
}
}
list[left] = list[offsetStart]
list[offsetStart] = start
if offsetStart-left > 1 {
list = QuickSort(list, left, offsetStart-1)
}
if right-offsetStart > 1 {
list = QuickSort(list, offsetStart+1, right)
}
//fmt.Println(list)
return list
}
/**冒泡排序**/
func BubbleSort(list []int) {
listSize := len(list)
for i := 0; i < listSize-1; i++ {
for j := 0; j < listSize-i-1; j++ {
if list[j] > list[j+1] {
list[j+1], list[j] = list[j], list[j+1]
}
}
fmt.Println(list)
}
fmt.Println(list)
}
/**选择排序**/
func SelectSort(list []int) {
listSize := len(list)
for i := 0; i < listSize-1; i++ {
minIndex := i
for j := i + 1; j < listSize; j++ {
if list[j] < list[minIndex] {
minIndex = j
}
}
list[i], list[minIndex] = list[minIndex], list[i]
fmt.Println(list)
}
fmt.Println(list)
}
