Merge pull request #45 from Reanon/feature/support-go-chapter-stack-queue

Feature/support go chapter stack queue
pull/55/head
Yudong Jin 2 years ago committed by GitHub
commit 225c96c941
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@ -0,0 +1,92 @@
// File: array_queue.go
// Created Time: 2022-11-28
// Author: Reanon (793584285@qq.com)
package chapter_stack_and_queue
import (
"fmt"
"strings"
)
// ArrayQueue 基于环形数组实现的队列, 不支持扩容
type ArrayQueue struct {
data []any // 用于存储队列元素的数组
capacity int // 队列容量(即最多容量的元素个数)
head int // 头指针,指向队首
tail int // 尾指针,指向队尾 + 1
}
// NewArrayQueue 基于环形数组实现的队列
func NewArrayQueue(capacity int) *ArrayQueue {
return &ArrayQueue{
data: make([]any, capacity),
capacity: capacity,
head: 0,
tail: 0,
}
}
// Size 获取队列的长度
func (q *ArrayQueue) Size() int {
size := (q.capacity + q.tail - q.head) % q.capacity
return size
}
// IsEmpty 判断队列是否为空
func (q *ArrayQueue) IsEmpty() bool {
return q.tail-q.head == 0
}
// Offer 入队
func (q *ArrayQueue) Offer(v any) {
// 当 tail == capacity 表示队列已满
if q.Size() == q.capacity {
return
}
// 尾结点后添加
q.data[q.tail] = v
// 尾指针向后移动一位,越过尾部后返回到数组头部
q.tail = (q.tail + 1) % q.capacity
}
// Poll 出队
func (q *ArrayQueue) Poll() any {
if q.IsEmpty() {
return nil
}
v := q.data[q.head]
// 队头指针向后移动,越过尾部后返回到数组头部
q.head = (q.head + 1) % q.capacity
return v
}
// Peek 访问队首元素
func (q *ArrayQueue) Peek() any {
if q.IsEmpty() {
return nil
}
v := q.data[q.head]
return v
}
func (q *ArrayQueue) Print() {
fmt.Println(q.toString())
}
// toString 通过字符串的方式输出
func (q *ArrayQueue) toString() string {
// 为空时
if q.IsEmpty() {
return "empty items"
}
var builder strings.Builder
size := q.Size()
str := fmt.Sprintf("%+v", q.data[q.head])
for i := 1; i < size; i++ {
builder.WriteString(str + " -> ")
str = fmt.Sprintf("%+v", q.data[(i+q.head)%q.capacity])
}
builder.WriteString(str)
return builder.String()
}

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// File: array_stack.go
// Created Time: 2022-11-26
// Author: Reanon (793584285@qq.com)
package chapter_stack_and_queue
import (
"fmt"
"strconv"
"strings"
)
// ArrayStack 基于数组实现的栈
type ArrayStack struct {
data []int // 数据
}
func NewArrayStack() *ArrayStack {
return &ArrayStack{
// 设置栈的长度为 0容量为 16
data: make([]int, 0, 16),
}
}
// Size 栈的长度
func (s *ArrayStack) Size() int {
return len(s.data)
}
// IsEmpty 栈是否为空
func (s *ArrayStack) IsEmpty() bool {
return s.Size() == 0
}
// Push 入栈
func (s *ArrayStack) Push(v int) {
// 切片会自动扩容
s.data = append(s.data, v)
}
func (s *ArrayStack) Pop() any {
// 弹出栈前,先判断是否为空
if s.IsEmpty() {
return nil
}
val := s.Peek()
s.data = s.data[:len(s.data)-1]
return val
}
func (s *ArrayStack) Peek() any {
if s.IsEmpty() {
return nil
}
val := s.data[len(s.data)-1]
return val
}
func (s *ArrayStack) Print() {
fmt.Println(s.toString())
}
func (s *ArrayStack) toString() string {
var builder strings.Builder
if s.IsEmpty() {
return "empty stack"
}
for i := len(s.data) - 1; i > 0; i-- {
builder.WriteString(strconv.Itoa(s.data[i]) + " -> ")
}
builder.WriteString(strconv.Itoa(s.data[0]))
return builder.String()
}

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// File: deque.go
// Created Time: 2022-11-29
// Author: Reanon (793584285@qq.com)
package chapter_stack_and_queue
type Deque interface {
// OfferFirst 元素入队
OfferFirst(num any)
// OfferLast 元素入队
OfferLast(num any)
// PeekFirst 访问首元素
PeekFirst() any
// PeekLast 访问尾元素
PeekLast() any
// PollFirst 元素出队
PollFirst() any
// PollLast 元素出队
PollLast() any
// Size 获取队列长度
Size() int
// IsEmpty 队列是否为空
IsEmpty() bool
// toString 队列输出为字符串
toString() string
}

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// File: deque_test.go
// Created Time: 2022-11-29
// Author: Reanon (793584285@qq.com)
package chapter_stack_and_queue
import "testing"
func TestLinkedListDeque(t *testing.T) {
// 初始化队列
var deque Deque
deque = NewLinkedListDeque()
// 元素入队
deque.OfferLast(2)
deque.OfferLast(5)
deque.OfferLast(4)
deque.OfferFirst(3)
deque.OfferFirst(1)
t.Log("队列 deque = ", deque.toString())
// 访问队首元素
peekFirst := deque.PeekFirst()
t.Log("队首元素 peek = ", peekFirst)
peekLast := deque.PeekLast()
t.Log("队尾元素 peek = ", peekLast)
// 元素出队
pollFirst := deque.PollFirst()
t.Log("队首出队元素 pollFirst = ", pollFirst, ",队首出队后 deque = ", deque.toString())
pollLast := deque.PollLast()
t.Log("队尾出队元素 pollLast = ", pollLast, ",队尾出队后 deque = ", deque.toString())
// 获取队的长度
size := deque.Size()
t.Log("队的长度 size = ", size)
// 判断是否为空
isEmpty := deque.IsEmpty()
t.Log("队是否为空 = ", isEmpty)
}
// BenchmarkArrayQueue 67.92 ns/op in Mac M1 Pro
func BenchmarkLinkedListDeque(b *testing.B) {
stack := NewLinkedListDeque()
// use b.N for looping
for i := 0; i < b.N; i++ {
stack.OfferLast(777)
}
for i := 0; i < b.N; i++ {
stack.PollFirst()
}
}

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// File: linkedlist_deque.go
// Created Time: 2022-11-29
// Author: Reanon (793584285@qq.com)
package chapter_stack_and_queue
import (
"container/list"
"fmt"
"strings"
)
// LinkedListDeque 基于链表实现的双端队列, 使用内置包 list 来实现栈
type LinkedListDeque struct {
list *list.List
}
// NewLinkedListDeque 初始化双端队列
func NewLinkedListDeque() *LinkedListDeque {
return &LinkedListDeque{
list: list.New(),
}
}
// OfferFirst 元素入队
func (s *LinkedListDeque) OfferFirst(value any) {
s.list.PushFront(value)
}
// OfferLast 元素入队
func (s *LinkedListDeque) OfferLast(value any) {
s.list.PushBack(value)
}
// PollFirst 元素出队
func (s *LinkedListDeque) PollFirst() any {
if s.IsEmpty() {
return nil
}
e := s.list.Front()
s.list.Remove(e)
return e.Value
}
// PollLast 元素出队
func (s *LinkedListDeque) PollLast() any {
if s.IsEmpty() {
return nil
}
e := s.list.Back()
s.list.Remove(e)
return e.Value
}
// PeekFirst 访问首元素
func (s *LinkedListDeque) PeekFirst() any {
if s.IsEmpty() {
return nil
}
e := s.list.Front()
return e.Value
}
// PeekLast 访问尾元素
func (s *LinkedListDeque) PeekLast() any {
if s.IsEmpty() {
return nil
}
e := s.list.Back()
return e.Value
}
// Size 获取队列的长度
func (s *LinkedListDeque) Size() int {
return s.list.Len()
}
// IsEmpty 判断队列是否为空
func (s *LinkedListDeque) IsEmpty() bool {
return s.list.Len() == 0
}
func (s *LinkedListDeque) Print() {
fmt.Println(s.toString())
}
func (s *LinkedListDeque) toString() string {
var builder strings.Builder
if s.IsEmpty() {
fmt.Println("empty stack")
}
e := s.list.Front()
// 强转为 string, 会影响效率
str := fmt.Sprintf("%v", e.Value)
for e.Next() != nil {
builder.WriteString(str + " -> ")
e = e.Next()
str = fmt.Sprintf("%v", e.Value)
}
builder.WriteString(str)
return builder.String()
}

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// File: linkedlist_queue.go
// Created Time: 2022-11-28
// Author: Reanon (793584285@qq.com)
package chapter_stack_and_queue
import (
"container/list"
"fmt"
"strings"
)
// LinkedListQueue 基于链表实现的队列, 使用内置包 list 来实现栈
type LinkedListQueue struct {
list *list.List
}
// NewLinkedListQueue 初始化链表
func NewLinkedListQueue() *LinkedListQueue {
return &LinkedListQueue{
list: list.New(),
}
}
// Offer 入队
func (s *LinkedListQueue) Offer(value any) {
s.list.PushBack(value)
}
// Poll 出队
func (s *LinkedListQueue) Poll() any {
if s.IsEmpty() {
return nil
}
e := s.list.Front()
s.list.Remove(e)
return e.Value
}
// Peek 访问队首元素
func (s *LinkedListQueue) Peek() any {
if s.IsEmpty() {
return nil
}
e := s.list.Front()
return e.Value
}
// Size 获取队列的长度
func (s *LinkedListQueue) Size() int {
return s.list.Len()
}
// IsEmpty 判断队列是否为空
func (s *LinkedListQueue) IsEmpty() bool {
return s.list.Len() == 0
}
func (s *LinkedListQueue) Print() {
fmt.Println(s.toString())
}
func (s *LinkedListQueue) toString() string {
var builder strings.Builder
if s.IsEmpty() {
fmt.Println("empty stack")
}
e := s.list.Front()
// 强转为 string, 会影响效率
str := fmt.Sprintf("%v", e.Value)
for e.Next() != nil {
builder.WriteString(str + " -> ")
e = e.Next()
str = fmt.Sprintf("%v", e.Value)
}
builder.WriteString(str)
return builder.String()
}

@ -0,0 +1,78 @@
// File: linkedlist_stack.go
// Created Time: 2022-11-28
// Author: Reanon (793584285@qq.com)
package chapter_stack_and_queue
import (
"container/list"
"fmt"
"strings"
)
// LinkedListStack 基于链表实现的栈, 使用内置包 list 来实现栈
type LinkedListStack struct {
list *list.List
}
// NewLinkedListStack 初始化链表
func NewLinkedListStack() *LinkedListStack {
return &LinkedListStack{
list: list.New(),
}
}
// Push 入栈
func (s *LinkedListStack) Push(value int) {
s.list.PushBack(value)
}
// Pop 出栈
func (s *LinkedListStack) Pop() any {
if s.IsEmpty() {
return nil
}
e := s.list.Back()
s.list.Remove(e)
return e.Value
}
// Peek 访问栈顶元素
func (s *LinkedListStack) Peek() any {
if s.IsEmpty() {
return nil
}
e := s.list.Back()
return e.Value
}
// Size 获取栈的长度
func (s *LinkedListStack) Size() int {
return s.list.Len()
}
// IsEmpty 判断栈是否为空
func (s *LinkedListStack) IsEmpty() bool {
return s.list.Len() == 0
}
func (s *LinkedListStack) Print() {
fmt.Println(s.toString())
}
func (s *LinkedListStack) toString() string {
var builder strings.Builder
if s.IsEmpty() {
fmt.Println("empty stack")
}
e := s.list.Back()
// 强转为 string, 会影响效率
str := fmt.Sprintf("%v", e.Value)
for e.Prev() != nil {
builder.WriteString(str + " -> ")
e = e.Prev()
str = fmt.Sprintf("%v", e.Value)
}
builder.WriteString(str)
return builder.String()
}

@ -0,0 +1,20 @@
// File: queue.go
// Created Time: 2022-11-29
// Author: Reanon (793584285@qq.com)
package chapter_stack_and_queue
type Queue interface {
// Offer 元素入队
Offer(num any)
// Peek 访问首元素
Peek() any
// Poll 元素出队
Poll() any
// Size 获取队列长度
Size() int
// IsEmpty 队列是否为空
IsEmpty() bool
// toString 队列输出为字符串
toString() string
}

@ -0,0 +1,93 @@
// File: queue_test.go
// Created Time: 2022-11-28
// Author: Reanon (793584285@qq.com)
package chapter_stack_and_queue
import "testing"
func TestArrayQueue(t *testing.T) {
// 初始化队列,使用队列的通用接口
var queue Queue
capacity := 10
queue = NewArrayQueue(capacity)
// 元素入队
queue.Offer(1)
queue.Offer(2)
queue.Offer(3)
queue.Offer(4)
queue.Offer(5)
t.Log("队列 queue = ", queue.toString())
// 访问队首元素
peek := queue.Peek()
t.Log("队首元素 peek = ", peek)
// 元素出队
pop := queue.Poll()
t.Log("出队元素 pop = ", pop, ", 出队后 queue =", queue.toString())
// 获取队的长度
size := queue.Size()
t.Log("队的长度 size = ", size)
// 判断是否为空
isEmpty := queue.IsEmpty()
t.Log("队是否为空 = ", isEmpty)
}
func TestLinkedListQueue(t *testing.T) {
// 初始化队
var queue Queue
queue = NewLinkedListQueue()
// 元素入队
queue.Offer(1)
queue.Offer(2)
queue.Offer(3)
queue.Offer(4)
queue.Offer(5)
t.Log("队列 queue = ", queue.toString())
// 访问队首元素
peek := queue.Peek()
t.Log("队首元素 peek = ", peek)
// 元素出队
pop := queue.Poll()
t.Log("出队元素 pop = ", pop, ", 出队后 queue =", queue.toString())
// 获取队的长度
size := queue.Size()
t.Log("队的长度 size = ", size)
// 判断是否为空
isEmpty := queue.IsEmpty()
t.Log("队是否为空 = ", isEmpty)
}
// BenchmarkArrayQueue 8 ns/op in Mac M1 Pro
func BenchmarkArrayQueue(b *testing.B) {
capacity := 1000
stack := NewArrayQueue(capacity)
// use b.N for looping
for i := 0; i < b.N; i++ {
stack.Offer(777)
}
for i := 0; i < b.N; i++ {
stack.Poll()
}
}
// BenchmarkLinkedQueue 62.66 ns/op in Mac M1 Pro
func BenchmarkLinkedQueue(b *testing.B) {
stack := NewLinkedListQueue()
// use b.N for looping
for i := 0; i < b.N; i++ {
stack.Offer(777)
}
for i := 0; i < b.N; i++ {
stack.Poll()
}
}

@ -0,0 +1,20 @@
// File: stack.go
// Created Time: 2022-11-26
// Author: Reanon (793584285@qq.com)
package chapter_stack_and_queue
type Stack interface {
// Push 元素入栈
Push(num int)
// Peek 访问栈顶元素
Peek() any
// Pop 元素出栈
Pop() any
// Size 栈的长度
Size() int
// IsEmpty 栈是否为空
IsEmpty() bool
// toString 栈输出为字符串
toString() string
}

@ -0,0 +1,90 @@
// File: stack_test.go
// Created Time: 2022-11-28
// Author: Reanon (793584285@qq.com)
package chapter_stack_and_queue
import "testing"
func TestArrayStack(t *testing.T) {
// 初始化栈, 使用接口承接
var stack Stack
stack = NewArrayStack()
// 元素入栈
stack.Push(1)
stack.Push(2)
stack.Push(3)
stack.Push(4)
stack.Push(5)
t.Log("栈 stack = ", stack.toString())
// 访问栈顶元素
peek := stack.Peek()
t.Log("栈顶元素 peek = ", peek)
// 元素出栈
pop := stack.Pop()
t.Log("出栈元素 pop = ", pop, ", 出栈后 stack =", stack.toString())
// 获取栈的长度
size := stack.Size()
t.Log("栈的长度 size = ", size)
// 判断是否为空
isEmpty := stack.IsEmpty()
t.Log("栈是否为空 = ", isEmpty)
}
func TestLinkedListStack(t *testing.T) {
// 初始化栈
var stack Stack
stack = NewLinkedListStack()
// 元素入栈
stack.Push(1)
stack.Push(2)
stack.Push(3)
stack.Push(4)
stack.Push(5)
t.Log("栈 stack = ", stack.toString())
// 访问栈顶元素
peek := stack.Peek()
t.Log("栈顶元素 peek = ", peek)
// 元素出栈
pop := stack.Pop()
t.Log("出栈元素 pop = ", pop, ", 出栈后 stack =", stack.toString())
// 获取栈的长度
size := stack.Size()
t.Log("栈的长度 size = ", size)
// 判断是否为空
isEmpty := stack.IsEmpty()
t.Log("栈是否为空 = ", isEmpty)
}
// BenchmarkArrayStack 8 ns/op in Mac M1 Pro
func BenchmarkArrayStack(b *testing.B) {
stack := NewArrayStack()
// use b.N for looping
for i := 0; i < b.N; i++ {
stack.Push(777)
}
for i := 0; i < b.N; i++ {
stack.Pop()
}
}
// BenchmarkLinkedListStack 65.02 ns/op in Mac M1 Pro
func BenchmarkLinkedListStack(b *testing.B) {
stack := NewLinkedListStack()
// use b.N for looping
for i := 0; i < b.N; i++ {
stack.Push(777)
}
for i := 0; i < b.N; i++ {
stack.Pop()
}
}

@ -5,8 +5,9 @@
package chapter_tree
import (
. "github.com/krahets/hello-algo/pkg"
"sort"
. "github.com/krahets/hello-algo/pkg"
)
type BinarySearchTree struct {

@ -6,6 +6,7 @@ package chapter_tree
import (
"container/list"
. "github.com/krahets/hello-algo/pkg"
)

@ -5,8 +5,9 @@
package chapter_tree
import (
. "github.com/krahets/hello-algo/pkg"
"testing"
. "github.com/krahets/hello-algo/pkg"
)
func TestBinaryTree(t *testing.T) {

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