用栈实现队列
方案一
要我们在插入元素的时候每次都都从前面插入即可,比如如果一个队列是1,2,3,4,那么我们在栈中保存为4,3,2,1,那么返回栈顶元素1,也就是队列的首元素,则问题迎刃而解。所以此题的难度是push函数,我们需要一个辅助栈tmp,把s的元素也逆着顺序存入tmp中,此时加入新元素x,再把tmp中的元素存回来,这样就是我们要的顺序了,其他三个操作也就直接调用栈的操作即可。
上面那个解法虽然简单,但是效率不高,因为每次在push的时候,都要翻转两边栈,下面这个方法使用了两个栈input和output,其中新进栈的都先缓存在input中,入股要pop和peek的时候,才将input中所有元素移到output中操作,提高了效率。
C-源代码
typedef char LinkStackData;
//节点
typedef struct link_stack_node {
LinkStackData data;
struct link_stack_node *next;
}LinkStackNode;
typedef struct link_stack {
LinkStackNode *top;//栈顶
int count;//栈大小
}LinkStack;
LinkStack *linkStackCreate() {
LinkStack *stack = NULL;
stack = (LinkStack *)malloc(sizeof(LinkStack));
if (stack == NULL) {
return NULL;
}
stack->top = NULL;
stack->count = 0;
return stack;
}
bool linkStackIsEmpty(LinkStack *stack) {
return stack->count == 0;
}
int linkStackPush(LinkStack *stack, LinkStackData data) {
LinkStackNode *p = NULL;
p = (LinkStackNode *)malloc(sizeof(LinkStackNode));
if (p == NULL) {
return -1;
}
p->data = data;
p->next = stack->top;
stack->top = p;
stack->count++;
return 0;
}
int linkStackTop(LinkStack *stack, LinkStackData *data) {
if (linkStackIsEmpty(stack)) {
return -1;
}
LinkStackNode *p = stack->top;
*data = p->data;
return 0;
}
int linkStackPop(LinkStack *stack, LinkStackData *data) {
if (linkStackIsEmpty(stack)) {
return -1;
}
LinkStackNode *p = stack->top;
*data = p->data;
stack->top = p->next;
stack->count--;
free(p);
return 0;
}
void linkStackDestory(LinkStack *stack) {
LinkStackNode *p = NULL;
while (stack->top) {
p = stack->top;
stack->top = p->next;
stack->count--;
free(p);
}
free(stack);
}
typedef struct {
LinkStack *output;
LinkStack *input;
} MyQueue;
MyQueue* myQueueCreate(int maxSize) {
MyQueue *queue = (MyQueue *)malloc(sizeof(MyQueue));
queue->output = linkStackCreate();
queue->input = linkStackCreate();
return queue;
}
void shiftStack(MyQueue *queue) {
if (!linkStackIsEmpty(queue->output)) {
return;
}
while (!linkStackIsEmpty(queue->input)) {
char data;
linkStackTop(queue->input, &data);
linkStackPush(queue->output, data);
linkStackPop(queue->input, &data);
}
}
void myQueuePush(MyQueue* obj, int x) {
linkStackPush(obj->input, x);
}
int myQueuePop(MyQueue* obj) {
shiftStack(obj);
char data;
linkStackPop(obj->output, &data);
return data;
}
int myQueuePeek(MyQueue* obj) {
shiftStack(obj);
char data;
linkStackTop(obj->output, &data);
return data;
}
bool myQueueEmpty(MyQueue* obj) {
return linkStackIsEmpty(obj->output) && linkStackIsEmpty(obj->input);
}
void myQueueFree(MyQueue* obj) {
linkStackDestory(obj->output);
linkStackDestory(obj->input);
free(obj);
}
void test_0232(void) {
MyQueue *queue = myQueueCreate(5);
myQueuePush(queue, 1);
myQueuePush(queue, 2);
myQueuePush(queue, 3);
myQueuePush(queue, 4);
while (!myQueueEmpty(queue)) {
int data = myQueuePop(queue);
printf("%d\n",data);
}
}
