每日一练——用队列实现栈

225. 用队列实现栈 - 力扣（LeetCode）

Queue.h

#pragma once
#include<stdlib.h>
#include<assert.h>
#include<stdbool.h>

typedef int QDataType;

typedef struct QNode
{
	QDataType data;
	struct QNode* next;
} QNode;

typedef struct Queue
{
	QNode* head;
	QNode* tail;
	int size;
} Queue;

Queue* QueueCreate();
void QueueDestroy(Queue* q);

void QueuePush(Queue* q, QDataType x);
QDataType QueuePop(Queue* q);

QDataType QueueFront(Queue* q);
QDataType QueueBack(Queue* q);

int QueueSize(Queue* q);
bool QueueEmpty(Queue* q);

Queue.c

#include"Queue.h"

Queue* QueueCreate()
{
	Queue* q = (Queue*)malloc(sizeof(Queue));
	if (NULL == q)
	{
		perror("malloc failed");
		exit(-1);
	}
	q->head = q->tail = NULL;
	q->size = 0;
	return q;
}

void QueueDestroy(Queue* q)
{
	assert(q);
	while (!QueueEmpty(q))
		QueuePop(q);
	free(q);
}

void QueuePush(Queue* q, QDataType x)
{
	assert(q);
	QNode* newnode = (QNode*)malloc(sizeof(QNode));
	if (NULL == newnode)
	{
		perror("malloc failed");
		exit(-1);
	}
	newnode->data = x;
	newnode->next = NULL;
	if (QueueEmpty(q))
		q->head = q->tail = newnode;
	else
	{
		q->tail->next = newnode;
		q->tail = newnode;
	}
	++(q->size);
}

QDataType QueuePop(Queue* q)
{
	assert(q);
	assert(!QueueEmpty(q));
	QDataType ret = q->head->data;
	QNode* newhead = q->head->next;
	free(q->head);
	q->head = newhead;
	if (NULL == newhead)
		q->tail = NULL;
	--(q->size);
	return ret;
}

QDataType QueueFront(Queue* q)
{
	assert(q);
	assert(!QueueEmpty(q));
	return q->head->data;
}

QDataType QueueBack(Queue* q)
{
	assert(q);
	assert(!QueueEmpty(q));
	return q->tail->data;
}

int QueueSize(Queue* q)
{
	assert(q);
	return q->size;
}

bool QueueEmpty(Queue* q)
{
	assert(q);
	return !(q->size);
}

MyStack.h

#pragma once
#include"Queue.h"

typedef struct MyStack
{
	Queue* qa;
	Queue* qb;
} MyStack;


MyStack* myStackCreate();

void myStackPush(MyStack* st, int x);

QDataType myStackPop(MyStack* st);

QDataType myStackTop(MyStack* st);

bool myStackEmpty(MyStack* st);

void myStackFree(MyStack* st);

MyStack.c

#include "MyStack.h"

MyStack* myStackCreate()
{
	MyStack* st = (MyStack*)malloc(sizeof(MyStack));
	if (NULL == st)
	{
		perror("malloc failed");
		exit(-1);
	}
	st->qa = QueueCreate();
	st->qb = QueueCreate();
	return st;
}

void myStackPush(MyStack* st, QDataType x)
{
	assert(st);
	if (QueueEmpty(st->qb))
		QueuePush(st->qa, x);
	else
		QueuePush(st->qa, x);
}

QDataType myStackPop(MyStack* st)
{
	assert(st);
	assert(!myStackEmpty(st));
	Queue* empty = st->qa;
	Queue* noempty = st->qb;
	if (!QueueEmpty(st->qa))
	{
		empty = st->qb;
		noempty = st->qa;
	}
	QDataType ret = noempty->tail->data;
	while (QueueSize(noempty) > 1)
	{
		QDataType ret = QueuePop(noempty);
		QueuePush(empty, ret);
	}
	QueuePop(noempty);
	return ret;
}

QDataType myStackTop(MyStack* st)
{
	assert(st);
	assert(!myStackEmpty(st));
	if (QueueEmpty(st->qb))
		return st->qa->tail->data;
	else
		return st->qb->tail->data;
}

bool myStackEmpty(MyStack* st)
{
	return (QueueEmpty(st->qa) && QueueEmpty(st->qb));
}

void myStackFree(MyStack* st)
{
	QueueDestroy(st->qa);
	QueueDestroy(st->qb);
	free(st);
}

test.c

#include<stdio.h>
#include "MyStack.h"

static void Qprint(Queue* q)
{
	assert(q);
	QNode* cur = q->head;
	printf("head<-");
	while (cur)
	{
		printf("%d<-", cur->data);
		cur = cur->next;
	}
	printf("tail\n");
}

void test1()
{
	MyStack* st = myStackCreate();
	myStackPush(st, 1);
	myStackPush(st, 2);
	printf("top = %d\n", myStackTop(st));
	myStackPush(st, 3);
	printf("qa:"); Qprint(st->qa); printf("qb:"); Qprint(st->qb);
	printf("top = %d\n", myStackTop(st));
	myStackPush(st, 4);
	printf("qa:"); Qprint(st->qa); printf("qb:"); Qprint(st->qb);
	printf("top = %d\n", myStackTop(st));
	myStackPop(st);
	printf("qa:"); Qprint(st->qa); printf("qb:"); Qprint(st->qb);
	myStackPop(st);
	printf("qa:"); Qprint(st->qa); printf("qb:"); Qprint(st->qb);

	printf("top = %d\n", myStackTop(st));


	myStackFree(st);
}

int main()
{
	test1();
	return 0;
}